In polymer processing, the excellent lubricating properties of C80 SASOLWAX help to improve the processing of plastics and increase productivity. In the application of PVC hot melt adhesives, it provides the necessary lubrication and toughening effect, enabling the hot melt adhesive to exhibit better flow and adhesion during the bonding process. In addition, C80 SASOLWAX is also widely used in many fields such as leather polish and plastic internal and external lubricants due to its excellent physical properties, such as high hardness and high temperature resistance, which further broadens its application scope.
Chemicals used in agriculture, fertilizers,
Agrochemicals are inputs to agricultural production such as fertilizers, pesticides, veterinary drugs and growth regulators, the use of which promotes the production of edible agricultural products and plays an important role in the sustained and rapid development of agriculture.
Glyphosate,nitric acid,Calcium nitrate,potassium nitrate,Magnesium Nitrate,monarkite,Humic acid,urea
Agrochemicals are inputs to agricultural production such as fertilizers, pesticides, veterinary drugs and growth regulators, the use of which promotes the production of edible agricultural products and plays an important role in the sustained and rapid development of agriculture.
Glyphosate,nitric acid,Calcium nitrate,potassium nitrate,Magnesium Nitrate,monarkite,Humic acid,urea
Micro crystalline wax has the characteristics of good luster, high melting point and light color. It has compact structure and good flexibility. It can melt with various natural waxes, improve the melting point of its low wax and improve the performance of coarse wax.
Usages:
1. Microcrystalline wax can be used to make candles.
2. Microcrystalline wax can be used to make crayons.
3. Microcrystalline wax as coating material in solid preparation, including sustained-release preparation.
4. Microcrystalline wax can also be used in food and cosmetics.
5. Microcrystalline wax is used as hardener in cream and ointment.
6. Microcrystalline wax is used as thickener in lubricating grease.
7. Microcrystalline wax can be used as packaging formulation and coating agent in electrical industry.
Properties
Min.200
Colour cSt Max.L1.5 Max.L5 Max.L1.5 Max.L3 Max.L4 Max.L2
Usages:
1.This product helps to enhance the thermal stability of the base material
2.This product is used as a polish for paste products
3.This product is used for rust release, carbon paper, candles, package impregnation and fruit coating
4.This product is used for polymer processing to improve the properties of polymers
5.This product is used in lipstick, ointment, balm and hair cream in the cosmetics industry
6.This product is mainly used for damp proof, anti-corrosion, sticky cleaning, polishing, dullness, mold, insulation, rubber, etc
7.During the processing of PVC, this product can improve the lubricity of the product and improve the production efficiency
Properties:
Properties Unit C80 H1 A28
Polyethylene wax has good cold resistance, heat resistance, chemical resistance and wear resistance, and has good compatibility with polyethylene, polypropylene, polyvinyl acetate, ethylene Propylene rubber and butyl rubber. It can improve the fluidity of polyethylene, polypropylene and ABS and the demoulding property of polymethylmethacrylate and polycarbonate. Polyethylene wax has stronger internal lubrication.
Usages:
1.It is used as dispersant and lubricant for pigments or fillers such as thick color masterbatch, polypropylene masterbatch, additive masterbatch and filling masterbatch.
2.It is used as dispersant of ink, anti friction agent, viscosity regulator of thermosol and processing aid of aluminum foil composite paper.
3.It can be used as raw and auxiliary materials for textile softener, car wax and leather softener.
Properties:
Properties Unit XT619 XT316 XT330 XT25 XT1817 610A 620A
Mettler drop point C 102 130 128 128 128 107 3 110 3
Density g/cc 0.99 0.99 0.99 0.99 0.99 0.93 0.93
Hardness d-mm 5
Powder micro crystalline wax has the characteristics of high drop melting point, light color, low oil content and low penetration.
Usages: It can be used as processing additives for shoe polish, automobile wax, polishing wax, cosmetics, electronic products and so on. In addition, the use of the raw material in the wax paper formula can make the handwriting clear and the abrasion resistance can be significantly improved. It has a wide range of uses.
Properties:
Properties Unit SY-70 SY-80
Melting point C 65-70 75-80
Oil content % 1.5 1.5
Penetration 0.1mm/100g,5s at 25 C 20 20
Viscosity mm2/s at 100 C 5-8 8.5-10
Size mesh 16 16
Properties Unit XT70 XT73 XT80
Melting point 67-70 73.1 70-80
Viscosity mm2/s at 100 5-8 7 8.5-10
Size,16mesh % 90 95 90
Penetration 0.1mm/100g,5s at 25 20 - 20
FAQ:
01.Are manufacture or trading company
A:We are manufacturer.We are welcome to visit our factory.
02.How can I get a sample
A:You can discuss with us,We normally send sample by EMS,DHL.
few samples is free but you need to pay for the shipping cost.
03.How to ensure product quality
A:You can get some sample,or we can send some certificate to you.
04.When can I deliver the goods
A:Lead-time is around 7-14 working days after we receive the advance payment. It varies according to different products and quantity.
05.Can you give me a discount price
A:Sure,it depend on your quantity.
Application:Food grade paraffin wax is applicable to food and drug components, as well as draw patterns, tablet pressing, polishing, etc. it can also be used as a protective layer for vegetables, fruits, cheese, cold drinks, chewing gum, bubble gum, food and drug packaging etc.
Features and Benefits:
1.Color white
2.Non toxic and odorless
3.Good stability
4.Low oil content
5.Good toughness
6.Meet the requirements of food hygiene
Properties Unit Test Method Specifications
Melting point C ASTM D127 75-85
Oil content ASTM D721 Max.4
Viscosity mm2/s at 100 C ASTM D445 13-17
Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production.
Properties Unit Test Method Results
Melting point C GB/T 2539 60-62
Oil content GB/T 3554 0.8
Color - GB/T 3555 25
Light stability - SH/T 0404 5
Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production.
Properties Unit Test Method Results
Melting point C GB/T 2539 68-70
Oil content GB/T 3554 0.8
Color - GB/T 3555 25
Light stability - SH/T 0404 5
Penetration 25 C,1/10mm GB/T 4985 19
Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production.
Properties Unit Test Method Results
Melting point C GB/T 2539 68-70
Oil content GB/T 3554 0.8
Color GB/T 3555 25
Light stability SH/T 0404 5
Penetration 25 C,1/10mm GB/T 4985 19
Application:
It has good compatibility with ink and coating system. It is widely used in wood coatings, plastic coatings, powder coatings, coil coatings, UV light curing coatings, etc.
Features and Benefits:
1.Acts as a degassing agent in powder coatings
2.Excellent anti-blocking and slip properties
3.Good scratch resistance properties
4.Increased matting
We can produce micronized waxes with melting point at 52-325 C, and hardness at 0.5-15dmm.
Properties Unit Specifications
Melting point C 114-118
Density g/cc 0.94
Hardness d-mm 1.0
Average particle size m 5.5-6.5
Maximum particle size m
Application:
It has good compatibility with ink and coating system. It is widely used in wood coatings, plastic coatings, powder coatings, coil coatings, UV light curing coatings, etc.
Features and Benefits:
1.High water repellent effect
2.Improved sand-ability of wood coatings
3.No influence on the transparency of polymers
4.Excellent dispersion and lubricating properties in plastics applications
We can produce micronized waxes with melting point at 52-325 C, and hardness at 0.5-15dmm.
Properties Unit Specifications
Melting point C 114-118
Density g/cc 0.94
Hardness d-mm 1.0
Average particle size m 6-9
Maximum particle size m
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
Properties Yellow Beeswax White Beeswax
Saponification value 87-102(kohomg/g) 87-104(kohomg/g)
Acid value 17-22(kohomg/g) 17-24(kohomg/g)
Hydrocarbon 16-19 Grade One 16-19 Grade One
Customized Customized
Melting point 61 66 C 61
Ester value 70-80 70-80
Nowadays, beeswax has begun to be used as green food additives, coatings, packaging, additives in edible films, chewing gum and flavour enhancer carriers. Especially beeswax in the freshness of vegetables and fruits transport process, can prevent water evaporation and inhibit the growth of microorganisms, prolong the shelf life of fruits, has a very broad value of use. Fruit wax can preserve the freshness of fruits, can better prevent water loss, prevent the fruit surface from microbial infestation, maintain fruit quality, increase colour, brightness, texture, improve the appearance, prolong the fruit and vegetable hiding period and shelf life.
Add beeswax to animal feed, can improve the animal's antibody immunity to disease resistance, promote cell division and growth and development, and no residue, no teratogenic, carcinogenic, mutagenic and other toxic side effects, can be gradually promoted in the breeding industry.
In addition, beeswax is a crop growth promoter, can be used as fruit tree elder wax and broken cosmetic trauma on the pests and diseases adhesive. Mixing beeswax and propolis liquid with herbal liquid has a good effect on the prevention and control of fungal diseases of fruit trees, and the nutrients in it can also improve the nutritional imbalance of crops due to the weakening of trees and other reasons.
Nowadays, beeswax has begun to be used as green food additives, coatings, packaging, additives in edible films, chewing gum and flavour enhancer carriers. Especially beeswax in the freshness of vegetables and fruits transport process, can prevent water evaporation and inhibit the growth of microorganisms, prolong the shelf life of fruits, has a very broad value of use. Fruit wax can preserve the freshness of fruits, can better prevent water loss, prevent the fruit surface from microbial infestation, maintain fruit quality, increase colour, brightness, texture, improve the appearance, prolong the fruit and vegetable hiding period and shelf life.
Add beeswax to animal feed, can improve the animal's antibody immunity to disease resistance, promote cell division and growth and development, and no residue, no teratogenic, carcinogenic, mutagenic and other toxic side effects, can be gradually promoted in the breeding industry.
In addition, beeswax is a crop growth promoter, can be used as fruit tree elder wax and broken cosmetic trauma on the pests and diseases adhesive. Mixing beeswax and propolis liquid with herbal liquid has a good effect on the prevention and control of fungal diseases of fruit trees, and the nutrients in it can also improve the nutritional imbalance of crops due to the weakening of trees and other reasons.
Nowadays, beeswax has begun to be used as green food additives, coatings, packaging, additives in edible films, chewing gum and flavour enhancer carriers. Especially beeswax in the freshness of vegetables and fruits transport process, can prevent water evaporation and inhibit the growth of microorganisms, prolong the shelf life of fruits, has a very broad value of use. Fruit wax can preserve the freshness of fruits, can better prevent water loss, prevent the fruit surface from microbial infestation, maintain fruit quality, increase colour, brightness, texture, improve the appearance, prolong the fruit and vegetable hiding period and shelf life.
Add beeswax to animal feed, can improve the animal's antibody immunity to disease resistance, promote cell division and growth and development, and no residue, no teratogenic, carcinogenic, mutagenic and other toxic side effects, can be gradually promoted in the breeding industry.
In addition, beeswax is a crop growth promoter, can be used as fruit tree elder wax and broken cosmetic trauma on the pests and diseases adhesive. Mixing beeswax and propolis liquid with herbal liquid has a good effect on the prevention and control of fungal diseases of fruit trees, and the nutrients in it can also improve the nutritional imbalance of crops due to the weakening of trees and other reasons.
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
1.Beeswax� is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
Nowadays, beeswax has begun to be used as green food additives, coatings, packaging, additives in edible films, chewing gum and flavour enhancer carriers. Especially beeswax in the freshness of vegetables and fruits transport process, can prevent water evaporation and inhibit the growth of microorganisms, prolong the shelf life of fruits, has a very broad value of use. Fruit wax can preserve the freshness of fruits, can better prevent water loss, prevent the fruit surface from microbial infestation, maintain fruit quality, increase colour, brightness, texture, improve the appearance, prolong the fruit and vegetable hiding period and shelf life.
Add beeswax to animal feed, can improve the animal's antibody immunity to disease resistance, promote cell division and growth and development, and no residue, no teratogenic, carcinogenic, mutagenic and other toxic side effects, can be gradually promoted in the breeding industry.
In addition, beeswax is a crop growth promoter, can be used as fruit tree elder wax and broken cosmetic trauma on the pests and diseases adhesive. Mixing beeswax and propolis liquid with herbal liquid has a good effect on the prevention and control of fungal diseases of fruit trees, and the nutrients in it can also improve the nutritional imbalance of crops due to the weakening of trees and other reasons.
1.Beeswax  is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
Nowadays, beeswax has begun to be used as green food additives, coatings, packaging, additives in edible films, chewing gum and flavour enhancer carriers. Especially beeswax in the freshness of vegetables and fruits transport process, can prevent water evaporation and inhibit the growth of microorganisms, prolong the shelf life of fruits, has a very broad value of use. Fruit wax can preserve the freshness of fruits, can better prevent water loss, prevent the fruit surface from microbial infestation, maintain fruit quality, increase colour, brightness, texture, improve the appearance, prolong the fruit and vegetable hiding period and shelf life.
Add beeswax to animal feed, can improve the animal's antibody immunity to disease resistance, promote cell division and growth and development, and no residue, no teratogenic, carcinogenic, mutagenic and other toxic side effects, can be gradually promoted in the breeding industry.
In addition, beeswax is a crop growth promoter, can be used as fruit tree elder wax and broken cosmetic trauma on the pests and diseases adhesive. Mixing beeswax and propolis liquid with herbal liquid has a good effect on the prevention and control of fungal diseases of fruit trees, and the nutrients in it can also improve the nutritional imbalance of crops due to the weakening of trees and other reasons.
Through technological innovation, the use of independent proprietary technology, a series of optimized combination of processes, and the use of gas chromatography, differential scanning calorimetry, infrared spectroscopy and other microscopic means of detection of the product carbon peaks, the number of carbon atoms, molecular weight, enthalpy, components and other performance testing, research and development of a series of warm mixing asphalt modifier products. It can be applied to different matrix asphalt and various modified asphalt viscosity reduction requirements.
1.Beeswax is a natural wax produced by honey bees of the genus Apis. The wax is formed into scales by eight wax-producing glands in the abdominal segments of worker bees, which discard it in or at the hive. The hive workers collect and use it to form cells for honey storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.
2.Beeswax has been used since prehistory as the first plastic, as a lubricant and waterproofing agent, in lost wax casting of metals and glass, as a polish for wood and leather, for making candles, as an ingredient in cosmetics and as an artistic medium in encaustic painting.
3.Beeswax is edible, having similarly negligible toxicity to plant waxes, and is approved for food use in most countries.
Features and Benefits:
1.Fine crystal structure
2.High melting point
3.High hardness
Properties Unit Test method Specifications Result
Melting point C GB/T8026 53 54.4
Penetration 0.1mm/100g 5s at25 C GB/T4985 50 36.3
Oil content % GB/T3554 15 4.57
Viscosity mm2/s 140 C GB/T265 Report 3.24
Colour:White powder
Packing:25 KG Valve bag / 980KG Jumbo bag
Application:It can be used in ink, it can improve the wear resistance and wrinkle resistance of applied materials.
Features and Benefits:
High melting point
Narrow melting point range
wear resistance and high stability.
Properties Unit Test Method Specifications Result
Melting point C GB/T 4507 90 104
Oil content % GB/T 3554 5 1.94
Penetration 0.1mm/100g 5s at25 C GB/T 4985 10 3.8
Smell - SH/T 0414 3 1
Colour:White powder
Packing:25 KG Valve bag / 980KG Jumbo bag
Application:In PVC processing as the lubricants, Hot melt adhesives, Master batches, Rubber industries, Pigment and coating, Polishes
Features and Benefits:
1.High melting point
2.Narrow melting point range
3.wear resistance and high stability.
Properties Unit Test Method Specifications Result
Melting point C ASTM D3954-94-2004 102-103 102
Penetration 0.1mm/100g 5s at25 C ASTM D1321-2010 12.2 12.2
Oil content % ASTM D721-2006 0.2 0.1
Viscosity cps 120 C ASTM D445-2009 10-25 15
Acid value Mg KOH/g - 0.35 0.35
Size,20mesh % GB/T 6005-2008 90 90
Colour:White powder
Packing:25 KG Valve bag / 980KG Jumbo bag
Application:It is used in the manufacture of adhesives, rubber, cosmetics and industrial cleaners, as well as in metalworking.
Features and Benefits:
1.Low oil content
2.Low Penetration
3.High Hardness
Properties Unit Test method Specifications Result
Melting point C ASTM D3954-94-2004 80-86 80
Penetration 0.1mm/100g 5s at25 C ASTM D1321-2010 10-18 12
Oil content ASTM D721-2006 1-3 1
Viscosity mm2/s 100 C ASTM D445-2009 8-10 9
Colour:White powder
Packing:25 KG Valve bag / 980KG Jumbo bag
Application:It is used as polish agent, carbon paper, candle, package impregnation and fruit coating for paste products.
Features and Benefits:
1.Good gloss
2.High melting point
3.Light color
Properties Unit Specification
Melting point C 63-68
Oil Content wt Max.13
Viscosity cSt 6-9
Colour - Max.L1.5
Application:It has good oil absorption performance, can form stable and uniform paste with a variety of solvents and waxes. It can be used as processing aids such as shoe polish, automobile wax, polishing wax, floor wax, polishing wax, traditional medicine pills, candles, wax toys, dental materials and cosmetics.
Features and Benefits:
1.Low hardness
2.Good flexibility
3.Good adhesion and ductility
Properties Unit Specifications
Melting point C 70-80
Oil Content wt Max.10
Flash point C Min.200
Viscosity cSt 15-20
Colour - Max.L1.5
Application:It has the characteristics of high gel strength, good adhesion and protection, so it can be used to make several kinds of lubricating greases and Vaseline thickeners for instruments and seals.
Features and Benefits:
1.Light color
2.Compact structure
3.Odorless and tasteless
Properties Unit Specifications
Melting point C 89-91
Oil Content wt Max.3
Flash point C Min.200
Viscosity cSt 13-20
Colour - Max.L2
Features and Benefits:
1.Good gloss
2.Low hardness
3.High melting point
Properties Unit Specifications
Melting point C 72-82
Oil Content wt Max.10
Viscosity cSt 10-20
Colour - Max.L3
Application:It is widely used in rubber, hot melt adhesive, cultural and educational supplies crayons, wax paper, ink, lubricant, coating, polishing, spinning wax coating, mold, electronic and electrical insulation, etc
Application:It is used for polish, rust release agent, carbon paper, candle, package impregnation and fruit coating of paste products; It is also used in cosmetics, colored pens, shoe polish, various polishing waxes, etc.
Features and Benefits:
1.Good gloss
2.Low hardness
3.High melting point
Properties Unit Test Method Specifications Result
Drop melting point C GB/T 8026-2014 77-82 79
Oil content SH/T 0638-1996 3 0.98
Color - GB/T 6540-1986(2004) 3
Application:It has good compatibility with ink and coating system. It is widely used in wood coatings, plastic coatings, powder coatings, coil coatings, UV light curing coatings, etc.
Features and Benefits:
1.High melting
2.Good scratch resistance properties
3.High water repellent effect
Properties Unit Specifications
Melting point C 65-70
Oil content % 1.5
Penetration
Viscosity mm2/s
Size mesh 16
Application: It used in solvent coatings, powder coatings and ink,Acts as a degassing agent in powder coatings.
Features and Benefits:
1.Excellent anti-blocking and slip properties
2.Good air permeability
3.Excellent dispersity and lubricity
Properties Unit Specifications
Melting point C 75-80
Oil content 1.5
Penetration 0.1mm/100g,5s at25 C 20
Viscosity mm2/s at100 C 8.5-10
Size mesh 16
Application:It can be used as raw and auxiliary materials for textile softener, car wax and leather softener.
Features and Benefits:
1.Low viscosity
2.High melting point
3.Good chemical stability
Properties Unit Test Method Specifications
Mettler drop Point C ASTM D3954 128
Density g/cc ASTM D1505 0.99
Hardness d-mm ASTM D-5
Properties Unit Test Method Specifications
Melting point C ASTM D938-2005 67-70
Viscosity mm2/s at100 C ASTM D445-2009 5-8
Penetration 0.1mm/100g,5s at 25 C ASTM D1321-2010 20
Size,20mesh GB/T 6005-2008 90
Packing:25KG Valve bag/980KG Jumbo bag
Properties Unit Test Method Specifications
Melting point C ASTM D938-2005 70-80
Viscosity mm2/s at 100 C ASTM D445-2009 8.5-10
Penetration 0.1mm/100g,5s at 25 C ASTM D1321-2010 20
Oil content ASTM D721-2006 1
Size,20mesh GB/T 6005-2008 90
Packing:25KG Valve bag/980KG Jumbo bag
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
SC 90A is based on Fischer-Tropsch synthetic wax produced by domestic coal-to-oil manufacturers as raw materials. It is prepared through pretreatment, short-path distillation, hydrorefining and other processes. It has high melting point, low oil content, small penetration, hard and wear-resistant. It is almost free of impurities such as sulfur, nitrogen and aromatic hydrocarbons, and is mainly used in hot melt adhesives, PVC heat stabilizers, inks, coatings, plastic processing lubricants, rubber and plastic processing, masterbatch dispersants and other fields.
Properties Test Method Unit Specification Result
Freezing point SH/T 0132 â?? 89.0-92.0 88.5
Drop melting point GB/T 8026 â?? â?¤ 100.0 96.2
Oil content GB/T 3554 % â?¤0.5 0.3
Color number GB/T 3555 - +20 +28
Penetration @25 GB/T 4985 0.1mm 6 5
Kinematic viscosity @120 GB/T 265 mm2 /s Report -
Ultraviolet absorbance NB/SH/T 0415 L/g.cm â?¤0.01 -
SC 100L is based on Fischer-Tropsch synthetic wax produced by domestic coal-to-oil manufacturers as raw materials. It is prepared through pretreatment, short-path distillation, hydrorefining and other processes. It has high melting point, low oil content, small penetration, hard and wear-resistant. It is almost free of impurities such as sulfur, nitrogen and aromatic hydrocarbons, and is mainly used in hot melt adhesives, PVC heat stabilizers, inks, coatings, plastic processing lubricants, rubber and plastic processing, masterbatch dispersants and other fields.
Properties Test Method Unit Specification Result
Freezing point ASTM D938 95-98 96.0
Drop melting point ASTM D127 99-104 100.6
Oil content ASTM D721 % 0.5 0.04
Color number ASTM D156 - +15 +22
Penetration @25 ASTM D1321 0.1mm 6 3
Penetration
@65â?? ASTM D1321 0.1mm - 31
Kinematic viscosity @120 ASTM D445 mm2 /s Report -
Ultraviolet absorbance ASTM D2008 L/g.cm 0.01max -
Average molecular weight GSC/A003 g/mol 00 743
peak carbon atom GSC/A002 - C54 C56
Detergents typically consist of surfactants, additives and other additives to provide cleaning, detergency, foaming and fragrance
Sodium p-toluenesulfonate,sodium perborate,Sodium Triphosphate,4a zeolite
Dye for the textile industry, the paper industry
Chemical dyestuffs are mainly used in the textile industry, the paper industry, the pharmaceutical industry and leather processing.
We mainly deal Reactive Brilliant Blue,Sulfur Black,titanium dioxide,Zinc chrome yellow,Oil soluble blue,Vat Yellow 3RT.
Chemical dyestuffs are mainly used in the textile industry, the paper industry, the pharmaceutical industry and leather processing.
We mainly deal Reactive Brilliant Blue,Sulfur Black,titanium dioxide,Zinc chrome yellow,Oil soluble blue,Vat Yellow 3RT.
PBT (polybutylene terephthalate) is an important type of engineering plastic. It has excellent mechanical properties, electrical properties, chemical resistance and thermal stability, so it is widely used in many fields.
1. Electrical and electronic: PBT material has excellent electrical insulation properties and high temperature resistance, so it is widely used in the field of electrical and electronic. For example, it can be used for cable sheathing, sockets, terminal connectors, switches and electronic parts. In addition, PBT material also has good plasticity, can be used for the manufacture of electronic shells, radiators and so on.
2. Automotive industry: PBT material is widely used in the automotive industry for the manufacture of internal and external parts of automobiles. It has good impact resistance, scratch resistance and high and low temperature resistance, can meet the requirements of automotive parts on the strength and durability. For example, PBT material can be used to manufacture automobile lamp shell, front grille, instrument panel, etc..
3. Household electrical appliances: PBT material's heat resistance and chemical resistance make it widely used in the field of household electrical appliances. For example, it can be used in the manufacture of rice cookers, coffee makers, induction cookers, etc. PBT material also has good electrical properties, can be used to manufacture wire and cable insulation layer plug sockets and so on.
4. Medical equipment: PBT material has excellent chemical resistance and biocompatibility, so in the field of medical equipment is often used in the manufacture of various equipment and appliances. For example, it can be used in the manufacture of syringes, infusion sets, surgical instruments and so on. In addition, PBT material also has good corrosion resistance, can be used for the manufacture of chemical reagent bottles, experimental vessels.
5. Industrial products: PBT material also has a wide range of applications in the field of industrial products. For example, it can be used for the manufacture of industrial parts, pumps, valves, etc. PBT material has high mechanical strength and wear resistance, to meet the requirements of industrial products on the strength and durability. In addition, PBT materials have good weather resistance and are suitable for outdoor environments.
Additives are added to ensure processed food remains safe and in good condition throughout its journey from factories or industrial kitchens, to warehouses and shops, and finally to consumers. Additives are also used to modify the sensory properties of foods including taste, smell, texture and appearance.
Food additives are mainly used in meat products, fruits, vegetables, canned goods, jams, beer, steam, fruit teas, fruit juices, wines, etc., to prevent food from spoiling and to increase the taste, etc.
CMC/aspartame/Sodium benzoate/sodium hydrosulfite/Calcium propionate/Sodium Acetate/Sodium alginate/Maltodextrin/potassium sorbate/Sodium cyclamate/Citric Acid Anhydrous/Heavy calcium carbonate/fumaric acid/Sodium citrate
Additives are added to ensure processed food remains safe and in good condition throughout its journey from factories or industrial kitchens, to warehouses and shops, and finally to consumers. Additives are also used to modify the sensory properties of foods including taste, smell, texture and appearance.
Food additives are mainly used in meat products, fruits, vegetables, canned goods, jams, beer, steam, fruit teas, fruit juices, wines, etc., to prevent food from spoiling and to increase the taste, etc.
CMC/aspartame/Sodium benzoate/sodium hydrosulfite/Calcium propionate/Sodium Acetate/Sodium alginate/Maltodextrin/potassium sorbate/Sodium cyclamate/Citric Acid Anhydrous/Heavy calcium carbonate/fumaric acid/Sodium citrate
Additives are added to ensure processed food remains safe and in good condition throughout its journey from factories or industrial kitchens, to warehouses and shops, and finally to consumers. Additives are also used to modify the sensory properties of foods including taste, smell, texture and appearance.
Food additives are mainly used in meat products, fruits, vegetables, canned goods, jams, beer, steam, fruit teas, fruit juices, wines, etc., to prevent food from spoiling and to increase the taste, etc.
CMC/aspartame/Sodium benzoate/sodium hydrosulfite/Calcium propionate/Sodium Acetate/Sodium alginate/Maltodextrin/potassium sorbate/Sodium cyclamate/Citric Acid Anhydrous/Heavy calcium carbonate/fumaric acid/Sodium citrate
It can be used as a food additive and is generally used as a thickener in the food industry. It is commonly used in the preparation of foods such as cheese, ice cream, and beverages to prevent the separation of fats, oils, pectins, and other substances in them.
Industrial xylitol is a food additive, mainly used to improve taste, provide energy, laxative, improve immunity, improve blood sugar and other effects and functions.
1ã??Improve taste
Industrial xylitol is a natural sweetener, commonly used in foods, beverages, candies and other foods. Patients can improve taste and increase appetite after consumption.
2ã??Provide energy
Industrial xylitol is generally not high in calories, but also rich in carbohydrates, after consumption can be supplemented for the body's energy needs, but also to increase satiety and reduce the intake of other foods.
3, laxative
Industrial xylitol is generally not easily absorbed by the body, but also can promote gastrointestinal peristalsis, conducive to the digestion and absorption of food, with laxative effect, can help improve the symptoms of constipation.
4, improve immunity
Industrial xylitol can also promote the body's metabolism, is conducive to the discharge of toxic and harmful substances in the body, to a certain extent, can also improve the body's immunity.
5ã??Improve blood sugar
Industrial xylitol is generally not easy to be absorbed by the body, but also can promote glucose metabolism in the body, is conducive to improving blood sugar, but also assist in improving the symptoms of diabetes.
Application:It is used in the manufacture of adhesives, rubber, cosmetics and industrial cleaners, as well as in metalworking.
Features and Benefits:
1.Fine crystal structure
2.High hardness
3.wear resistance and high stability
Properties Unit Test Method Specifications Results
Melting point C GB/T 8026 112.5-117 113.5
Congealing point C ASTM D938 98-102 99.7
Penetration 0.1mm/100g 5s at25 C GB/T 4985 1 0.6
Oil content % GB/T 3554 0.5 0.08
Colour:White powder
Packing:25 KG Valve bag / 980KG Jumbo bag
sodium perborate can be used in bleach
Detergents typically consist of surfactants, additives and other additives to provide cleaning, detergency, foaming and fragrance
Sodium p-toluenesulfonate,sodium perborate,Sodium Triphosphate,4a zeolite
Sodium hydroxide (NaOH) has a wide range of uses. It is used in the production of paper, soap, dyestuff, rayon, smelting of metals, petroleum refining, finishing of cotton fabrics, purification of coal tar products, as well as in food processing, wood processing and mechanical industry.
In the food industry, citric acid is often used as a flavoring agent to increase the acidity of foods and improve their taste. For example, the addition of citric acid to the preparation of foods such as candies, cookies, breads, jams, beverages, and canned foods can make the food taste better and promote appetite. In addition, citric acid is used as a preservative that inhibits bacterial growth and improves the color stability of foods, thereby extending their shelf life.
Citric acid also plays an important role in the cosmetics industry. It acts as a mild cleanser, helping to remove dirt and oil from the surface of the skin, leaving it refined and smooth. In addition, citric acid softens the stratum corneum to some extent and improves skin roughness.
In addition to the food and cosmetic industries, citric acid has a wide range of applications in other fields. For example, in cellulose production, citric acid can be used to make biodegradable materials, which has important environmental applications. In addition, citric acid is used in the production of liquid fertilizers, as it forms a protective layer on plant roots, preventing the invasion of pathogens and promoting plant growth and development.
Aqueous coating additive specialized for ink
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
In polymer processing, the excellent lubricating properties of C80 SASOLWAX help to improve the processing of plastics and increase productivity. In the application of PVC hot melt adhesives, it provides the necessary lubrication and toughening effect, enabling the hot melt adhesive to exhibit better flow and adhesion during the bonding process. In addition, C80 SASOLWAX is also widely used in many fields such as leather polish and plastic internal and external lubricants due to its excellent physical properties, such as high hardness and high temperature resistance, which further broadens its application scope.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Micronized waxes play a lubricating role in coatings, reducing the coefficient of friction of the coating, thus improving the abrasion and scratch resistance of the coating. For example, the addition of 1% wax micropowder reduces the dynamic coefficient of friction of the coating film from 0.35 to 0.25.
When the coating film is cooled, the wax particles precipitate from the coating liquid and migrate to the coating surface, producing a matting effect. In addition, wax micropowders with different particle sizes create different texturizing effects.
Micronized wax can enhance the wetting and dispersion of pigment agglomerates, so that the pigment coloring strength is increased. Generally adding 1%~3% of wax micronized powder can increase the pigment coloring strength by 10%~30%.
Micronized wax gives the coating film a pleasant texture, anti-adhesion and stain resistance. Wax particles on the surface of the coating can reduce the adhesion of stains or make stains easier to wipe off.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Properties
Properties Unit SYY-52 SYY-60 XTFT-70 XTFT-80 SYY-90 SYY-95 SYY-100 XTFT-105H SYW-115
Melting point 53 62 74-78 80-86 90 81-101 82-102 102-103 112.5-117
Penetration 0.1mm/100g 5s at25 50 25 10-18 10-18 10 5 4 12.2 1
Oil content 15 7
Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production.
Properties Unit Test Method Results
Melting point C GB/T 2539 50-52
Oil content GB/T 3554 0.8
Color - GB/T 3555 27
Light stability - SH/T 0404 4
Penetration 25C,1/10mm GB/T 4985 19
Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production.
Properties Unit Test Method Results
Melting point C GB/T 2539 64-66
Oil content GB/T 3554 0.8
Color - GB/T 3555 25
Light stability - SH/T 0404 5
Penetration 25 C,1/10mm GB/T 4985 19
Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production.
Properties Unit Test Method Results
Melting point C GB/T 2539 58-60
Oil content GB/T 3554 0.8
Color - GB/T 3555 27
Light stability - SH/T 0404 4
Penetration 25 C,1/10mm GB/T 4985 19
Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production.
Properties Unit Test Method Results
Melting point C GB/T 2539 70-72
Oil content GB/T 3554 0.8
Color - GB/T 3555 25
Light stability - SH/T 0404 5
Penetration
Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production.
Properties Unit Test Method Results
Melting point C GB/T 2539 70-72
Oil content GB/T 3554 0.8
Color - GB/T 3555 25
Light stability - SH/T 0404 5
Penetration 25 C,1/10mm GB/T 4985 19
Paraffin is mainly composed of solid alkane, odorless and tasteless. It is a white or light yellow translucent solid. Due to its high oil content, it is mainly used to make matches, fiberboard, canvas, etc. When polyolefin additives are added to paraffin wax, its melting point increases and its adhesion and flexibility increase. It is widely used in moisture-proof and waterproof packaging paper, paperboard, surface coating of some textiles and candle production.
Properties Unit Test Method Results
Melting point C GB/T 2539 54-56
Oil content GB/T 3554 0.8
Color GB/T 3555 27
Light stability SH/T 0404 4
Penetration 25 C,1/10mm GB/T 4985 19
Application:It is used as dispersion agents and lubricant for pigments or fillers such as thick color master-batch, polypropylene master-batch, additive master-batch and filling master-batch.
Features and Benefits:
1.Low viscosity
2.High melting point
3.Good hardness
Properties Unit Test Method Specifications
Mettler drop point C ASTM D3954 102
Density g/cc ASTM D1505 0.99
Hardness d-mm ASTM D-5 5
Acid No. Mg KOH/g - 12
Viscosity mm2/s at 150 C Brookfield 5000
Particle size mesh ASTM D6913-2004 20
Application:It is used as color concentrate,Dispersion Agents,Adhesives,Inks and Paints,Coating,Cable Filling Compound,Lubricants agent and Mold release agent and so on.
Features and Benefits:
1.Low viscosity
2.Good thermal stability
3.Good dispersion
Properties Unit Test Method Specifications
Melting point C ASTM E 28 110 3
Density g/cm3 23 C ASTM D 1505 0.93
Hardness d-mm 25C ASTM D 5 5
Acid value Mg KOH/g ASTM D 1386 15 1
Appearance Yellowish powder
Features and Benefits:
1.Good lubricity
2.Good dispersion
3.Good chemical stability
Properties Unit Test Method Specifications
Mettler drop point C ASTM D3954 128
Density g/cc ASTM D1505 0.99
Hardness d-mm ASTM D-5
Application:It is widely used in the production of PE and PVC cables, PVC profiles and pipes. In the plastic processing industry, the internal and external lubrication of PVC is relatively balanced; The lubricity of oxidized polyethylene wax in the hard, transparent and opaque PVC formulation is better than that of other lubricants.
Features and Benefits:
1.Good hardness
2.Good thermal stability
3.Good lubricity
Properties Unit Test Method Specifications
Mettler drop point C ASTM D3954 128
Density g/cc ASTM D1505 0.99
Hardness d-mm ASTM D-5
Application:As a lubricant, film remover and phase solvent for rubber and plastic processing, due to its high melting point and low viscosity, it promotes good resin fluidity, relatively reduces the power consumption of resin mixing, reduces the adhesion between resin and mold, is easy to remove film, and plays the role of internal and external lubrication.
Features and Benefits:
1.Good thermal stability
2.Good lubricity
3.Good dispersion
Properties Unit Test Method Specifications
Mettler drop point C ASTM D3954 130
Density g/cc ASTM D1505 0.99
Hardness d-mm ASTM D-5
Application:It is used as color concentrate,Dispersion Agents,Adhesives,Inks and Paints,Coating,Cable Filling Compound,Lubricants agent and Mold release agent and so on.
Features and Benefits:
1.Good hardness
2.Good lubricity
3.Good chemical stability
Properties Unit Test Method Specifications
Melting point C ASTM E 28 107 3
Density g/cc 23 C ASTM D 1505 0.93
Hardness d-mm 25 C ASTM D 5 5
Acid value Mg KOH/g ASTM D 1386 10 1
Appearance Yellowish powder
Casting wax, high and medium temperature precision casting particles, bead shaped, high hardness, small linear shrinkage, good toughness, good stability, can be used repeatedly. Another water-soluble casting wax, repair wax, adhesive wax and other supporting products; Model wax is used as the mold material for art casting and precision machine tool processing. Of course, what is usually used for jewelry casting is "casting wax" in the shape of beads.It can apply in commercial hardware, golf heads, thin-wall parts, and aerospace industries.
R&B Softening Point 72.5-85.0
Drop Melting Point 84.5-95.5
Penetration 14.0-20.0DMM
Percent Ash
Vaseline is a mixture of mineral oil, paraffin and microcrystalline wax, when they are mixed together; Create something extraordinary - a smooth jelly with a melting point slightly above body temperature.
Item Quality standard Result Single conclusion
Relative density  60 C 0.815-0.880 0.862 Compliance with regulations
Drop point C 38-70 46.4 Compliance with regulations
(one) The upper layer shall be purple pink or brown Qualified Compliance with regulations
Infrared absorption spectrum(two) Consistent with the map of the control group Qualified Compliance with regulations
Cone penetration 25 C ±0.5 C 100-300 174 Compliance with regulations
PH light pink Qualified Compliance with regulations
Colour Lighter than colorimetric solution Qualified Compliance with regulations
Impurity absorbance 290nm 0.75 0.15 Compliance with regulations
sulfide 0.00017% Qualified Compliance with regulations
Organic acid Should be red Qualified Compliance with regulations
Heterogenous organic matter and fabric burning residue No pungent odor:0.5 0.02% Compliance with regulations
Fixed oil, fat and turpentine No oil and sediment shall be formed Qualified Compliance with regulations
Heavy metal ppm â?¤30 Qualified Compliance with regulations
Arsenate 0.0002% Qualified Compliance with regulations
Polycyclic aromatic hydrocarbon Comply with the Pharmacopoeia Qualified Compliance with regulations
Product features
-There is a suitable phase transition temperature, which can meet the specific temperature that needs to be controlled
-High linearity and narrow carbon number distribution
-High heat storage capacity
- High energy storage density
- Constant temperature heat storage and release
- Chemically stable and inert; Long service life
- Non toxic, non corrosive
-No supercooling and phase separation
-Rapid crystallization rate and crystal growth rate
Application fields of phase change materials:
Thermal components for temperature regulation
Industrial waste heat utilization
Power generation and power transmission
Clean energy
Energy storage power plant
Phase change energy storage water heater
SC178 is a modified micronized Fischer-Tropsch wax that is a primary replacement for fluorinated mixed wax powders for general purpose inks, coatings, wood finishes and more. A more economical one, balancing performance and cost, is available:Less matting,Good slipperiness,Excellent abrasion resistance and Anti-adhesion properties.
SC178 has an average particle size of 5.5 to 6.5 microns with a maximum particle size of 21 microns. It is recommended to add 0.5-1% of SC178 to the system.SC178 is insoluble in solvents at room temperature as well as UV-based monomers and oligomers.
SC178 is a modified micronized Fischer-Tropsch wax that is a primary replacement for fluorinated mixed wax powders for general purpose inks, coatings, wood finishes and more. A more economical one, balancing performance and cost, is available:Less matting,Good slipperiness,Excellent abrasion resistance and Anti-adhesion properties.
SC178 has an average particle size of 5.5 to 6.5 microns with a maximum particle size of 21 microns. It is recommended to add 0.5-1% of SC178 to the system.SC178 is insoluble in solvents at room temperature as well as UV-based monomers and oligomers.
An additive intermediate prepared from highly active polyisobutylene (molecular weight=1000).
The products can be used for producing various types of polyisobutylene succinimide and boronized dispersants. It can also be used for the production of emulsifiers and processing aids for petrochemical plants. The recommended addition is 2 % - 10 %.
Casting wax, high and medium temperature precision casting particles, bead shaped, high hardness, small linear shrinkage, good toughness, good stability, can be used repeatedly. Another water-soluble casting wax, repair wax, adhesive wax and other supporting products; Model wax is used as the mold material for art casting and precision machine tool processing. Of course, what is usually used for jewelry casting is "casting wax" in the shape of beads.
Fischer-Tropsch wax is a methylene polymer synthesized from hydrocarbon-based syngas or natural gas, and it is mainly synthesized from iron or cobalt by relying on high-quality and inexpensive raw materials from the coal chemical industry. It has a clear advantage over the price of crude oil waxes. Fischer-Tropsch waxes have a wide range of applications, one of which is in the field of adhesives, where they are used as an ideal synthetic wax for EVA-based hot melt adhesives. The high melting point of Fischer-Tropsch waxes improves the heat resistance and fast drying properties of adhesives, thus enhancing the performance of adhesives.
Fischer-Tropsch waxes are commonly used in food packaging and pharmaceuticals as food additives to enhance product stability and extend shelf life. In the pharmaceutical and cosmetic industries, Fischer Tropsch Wax is often used as an adhesive, emulsifier, etc.
Casting wax is mainly used in the field of aviation industry, civil precision casting, but also in the ship, automobile, telecommunication machinery, machine tools and other industries have a wide range of applications. Casting wax casting plays a role in molding fixed.1, casting wax, high and medium temperature precision casting particles, bead-shaped, high hardness, line shrinkage is small, good toughness, good stability, can be used repeatedly.2, casting wax is characterized by a low degree of grey, shrinkage is small, especially suitable for civil areas of precision casting. Such as eyeglasses, clocks and watches, jewelry casting, etc. 3, casting wax has water-soluble casting wax, repair wax, bonding wax and other ancillary products; model wax as a casting of works of art, precision machine tool processing with mold material.
Casting wax is mainly used in the field of aviation industry, civil precision casting, but also in the ship, automobile, telecommunication machinery, machine tools and other industries have a wide range of applications. Casting wax casting plays a role in molding fixed.1, casting wax, high and medium temperature precision casting particles, bead-shaped, high hardness, line shrinkage is small, good toughness, good stability, can be used repeatedly.2, casting wax is characterized by a low degree of grey, shrinkage is small, especially suitable for civil areas of precision casting. Such as eyeglasses, clocks and watches, jewelry casting, etc. 3, casting wax has water-soluble casting wax, repair wax, bonding wax and other ancillary products; model wax as a casting of works of art, precision machine tool processing with mold material.
Casting wax is mainly used in the field of aviation industry, civil precision casting, but also in the ship, automobile, telecommunication machinery, machine tools and other industries have a wide range of applications. Casting wax casting plays a role in molding fixed.1, casting wax, high and medium temperature precision casting particles, bead-shaped, high hardness, line shrinkage is small, good toughness, good stability, can be used repeatedly.2, casting wax is characterized by a low degree of grey, shrinkage is small, especially suitable for civil areas of precision casting. Such as eyeglasses, clocks and watches, jewelry casting, etc. 3, casting wax has water-soluble casting wax, repair wax, bonding wax and other ancillary products; model wax as a casting of works of art, precision machine tool processing with mold material.
Casting wax is mainly used in the field of aviation industry, civil precision casting, but also in the ship, automobile, telecommunication machinery, machine tools and other industries have a wide range of applications. Casting wax casting plays a role in molding fixed.1, casting wax, high and medium temperature precision casting particles, bead-shaped, high hardness, line shrinkage is small, good toughness, good stability, can be used repeatedly.2, casting wax is characterized by a low degree of grey, shrinkage is small, especially suitable for civil areas of precision casting. Such as eyeglasses, clocks and watches, jewelry casting, etc. 3, casting wax has water-soluble casting wax, repair wax, bonding wax and other ancillary products; model wax as a casting of works of art, precision machine tool processing with mold material.
Casting wax is mainly used in the field of aviation industry, civil precision casting, but also in the ship, automobile, telecommunication machinery, machine tools and other industries have a wide range of applications. Casting wax casting plays a role in molding fixed.1, casting wax, high and medium temperature precision casting particles, bead-shaped, high hardness, line shrinkage is small, good toughness, good stability, can be used repeatedly.2, casting wax is characterized by a low degree of grey, shrinkage is small, especially suitable for civil areas of precision casting. Such as eyeglasses, clocks and watches, jewelry casting, etc. 3, casting wax has water-soluble casting wax, repair wax, bonding wax and other ancillary products; model wax as a casting of works of art, precision machine tool processing with mold material.
Casting wax is mainly used in the field of aviation industry, civil precision casting, but also in the ship, automobile, telecommunication machinery, machine tools and other industries have a wide range of applications. Casting wax casting plays a role in molding fixed.1, casting wax, high and medium temperature precision casting particles, bead-shaped, high hardness, line shrinkage is small, good toughness, good stability, can be used repeatedly.2, casting wax is characterized by a low degree of grey, shrinkage is small, especially suitable for civil areas of precision casting. Such as eyeglasses, clocks and watches, jewelry casting, etc. 3, casting wax has water-soluble casting wax, repair wax, bonding wax and other ancillary products; model wax as a casting of works of art, precision machine tool processing with mold material.
Casting wax is mainly used in the field of aviation industry, civil precision casting, but also in the ship, automobile, telecommunication machinery, machine tools and other industries have a wide range of applications. Casting wax casting plays a role in molding fixed.1, casting wax, high and medium temperature precision casting particles, bead-shaped, high hardness, line shrinkage is small, good toughness, good stability, can be used repeatedly.2, casting wax is characterized by a low degree of grey, shrinkage is small, especially suitable for civil areas of precision casting. Such as eyeglasses, clocks and watches, jewelry casting, etc. 3, casting wax has water-soluble casting wax, repair wax, bonding wax and other ancillary products; model wax as a casting of works of art, precision machine tool processing with mold material.
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Microcrystalline wax, a white or yellow solid made from paraffin wax or other petroleum processing by-products. Due to its inertness, stability and low melting point, microcrystalline wax is widely used in various fields, which we will introduce one by one below.
Construction Materials: The main use of microcrystalline wax is in the construction materials industry. It is usually used as a plasticizer and lubricant, blended in various mixtures to improve the workability and ductility of materials. It is also used in the production of waterproofing materials, encapsulation materials, anti-cracking materials and a number of other building materials with low loss, low viscosity and low permeability coefficient.
Textile sector: In addition to the construction industry, microcrystalline wax is also widely used in the textile sector. It is usually added to the viscose of textiles to improve the firmness and toughness of textiles. In addition, microcrystalline wax can also be used as an auxiliary for dyeing in the production of dyestuffs to enhance the resistance to pollution and durability of the dyestuffs.
Printing Ink: Microcrystalline wax is also widely used in printing ink. In the production of printing inks, microcrystalline wax is usually used as an additive, so that the ink can better adhere to the surface of the material, and at the same time, the use of microcrystalline wax in printing inks can also improve the gloss and water resistance of the printed materials, and can avoid caking and film phenomenon of the ink after printing.
Cosmetic industry: In addition, microcrystalline wax is widely used in the cosmetic industry. It is usually used as a thickener, filler and emollient, etc., thus improving the gloss and texture of cosmetics. Another common application of microcrystalline wax in cosmetics is as a carrier for photosensitive dyes. It stabilizes the dye color and does not cause reactions such as skin irritation or allergy in cosmetics and skin care products.
Other Uses: In addition to the above applications, microcrystalline wax can be used in the production of food packaging, plastic bottle production, candle making, rubber and emulsion production, vibration control, coatings and surface treatment. In addition, due to its inertness, stability and low toxicity, microcrystalline wax is also widely used in medical and metallurgical fields.
Microcrystalline wax, a white or yellow solid made from paraffin wax or other petroleum processing by-products. Due to its inertness, stability and low melting point, microcrystalline wax is widely used in various fields, which we will introduce one by one below.
Construction Materials: The main use of microcrystalline wax is in the construction materials industry. It is usually used as a plasticizer and lubricant, blended in various mixtures to improve the workability and ductility of materials. It is also used in the production of waterproofing materials, encapsulation materials, anti-cracking materials and a number of other building materials with low loss, low viscosity and low permeability coefficient.
Textile sector: In addition to the construction industry, microcrystalline wax is also widely used in the textile sector. It is usually added to the viscose of textiles to improve the firmness and toughness of textiles. In addition, microcrystalline wax can also be used as an auxiliary for dyeing in the production of dyestuffs to enhance the resistance to pollution and durability of the dyestuffs.
Printing Ink: Microcrystalline wax is also widely used in printing ink. In the production of printing inks, microcrystalline wax is usually used as an additive, so that the ink can better adhere to the surface of the material, and at the same time, the use of microcrystalline wax in printing inks can also improve the gloss and water resistance of the printed materials, and can avoid caking and film phenomenon of the ink after printing.
Cosmetic industry: In addition, microcrystalline wax is widely used in the cosmetic industry. It is usually used as a thickener, filler and emollient, etc., thus improving the gloss and texture of cosmetics. Another common application of microcrystalline wax in cosmetics is as a carrier for photosensitive dyes. It stabilizes the dye color and does not cause reactions such as skin irritation or allergy in cosmetics and skin care products.
Other Uses: In addition to the above applications, microcrystalline wax can be used in the production of food packaging, plastic bottle production, candle making, rubber and emulsion production, vibration control, coatings and surface treatment. In addition, due to its inertness, stability and low toxicity, microcrystalline wax is also widely used in medical and metallurgical fields.
Microcrystalline wax, a white or yellow solid made from paraffin wax or other petroleum processing by-products. Due to its inertness, stability and low melting point, microcrystalline wax is widely used in various fields, which we will introduce one by one below.
Construction Materials: The main use of microcrystalline wax is in the construction materials industry. It is usually used as a plasticizer and lubricant, blended in various mixtures to improve the workability and ductility of materials. It is also used in the production of waterproofing materials, encapsulation materials, anti-cracking materials and a number of other building materials with low loss, low viscosity and low permeability coefficient.
Textile sector: In addition to the construction industry, microcrystalline wax is also widely used in the textile sector. It is usually added to the viscose of textiles to improve the firmness and toughness of textiles. In addition, microcrystalline wax can also be used as an auxiliary for dyeing in the production of dyestuffs to enhance the resistance to pollution and durability of the dyestuffs.
Printing Ink: Microcrystalline wax is also widely used in printing ink. In the production of printing inks, microcrystalline wax is usually used as an additive, so that the ink can better adhere to the surface of the material, and at the same time, the use of microcrystalline wax in printing inks can also improve the gloss and water resistance of the printed materials, and can avoid caking and film phenomenon of the ink after printing.
Cosmetic industry: In addition, microcrystalline wax is widely used in the cosmetic industry. It is usually used as a thickener, filler and emollient, etc., thus improving the gloss and texture of cosmetics. Another common application of microcrystalline wax in cosmetics is as a carrier for photosensitive dyes. It stabilizes the dye color and does not cause reactions such as skin irritation or allergy in cosmetics and skin care products.
Other Uses: In addition to the above applications, microcrystalline wax can be used in the production of food packaging, plastic bottle production, candle making, rubber and emulsion production, vibration control, coatings and surface treatment. In addition, due to its inertness, stability and low toxicity, microcrystalline wax is also widely used in medical and metallurgical fields.
Microcrystalline wax, a white or yellow solid made from paraffin wax or other petroleum processing by-products. Due to its inertness, stability and low melting point, microcrystalline wax is widely used in various fields, which we will introduce one by one below.
Construction Materials: The main use of microcrystalline wax is in the construction materials industry. It is usually used as a plasticizer and lubricant, blended in various mixtures to improve the workability and ductility of materials. It is also used in the production of waterproofing materials, encapsulation materials, anti-cracking materials and a number of other building materials with low loss, low viscosity and low permeability coefficient.
Textile sector: In addition to the construction industry, microcrystalline wax is also widely used in the textile sector. It is usually added to the viscose of textiles to improve the firmness and toughness of textiles. In addition, microcrystalline wax can also be used as an auxiliary for dyeing in the production of dyestuffs to enhance the resistance to pollution and durability of the dyestuffs.
Printing Ink: Microcrystalline wax is also widely used in printing ink. In the production of printing inks, microcrystalline wax is usually used as an additive, so that the ink can better adhere to the surface of the material, and at the same time, the use of microcrystalline wax in printing inks can also improve the gloss and water resistance of the printed materials, and can avoid caking and film phenomenon of the ink after printing.
Cosmetic industry: In addition, microcrystalline wax is widely used in the cosmetic industry. It is usually used as a thickener, filler and emollient, etc., thus improving the gloss and texture of cosmetics. Another common application of microcrystalline wax in cosmetics is as a carrier for photosensitive dyes. It stabilizes the dye color and does not cause reactions such as skin irritation or allergy in cosmetics and skin care products.
Other Uses: In addition to the above applications, microcrystalline wax can be used in the production of food packaging, plastic bottle production, candle making, rubber and emulsion production, vibration control, coatings and surface treatment. In addition, due to its inertness, stability and low toxicity, microcrystalline wax is also widely used in medical and metallurgical fields.
Microcrystalline wax, a white or yellow solid made from paraffin wax or other petroleum processing by-products. Due to its inertness, stability and low melting point, microcrystalline wax is widely used in various fields, which we will introduce one by one below.
Construction Materials: The main use of microcrystalline wax is in the construction materials industry. It is usually used as a plasticizer and lubricant, blended in various mixtures to improve the workability and ductility of materials. It is also used in the production of waterproofing materials, encapsulation materials, anti-cracking materials and a number of other building materials with low loss, low viscosity and low permeability coefficient.
Textile sector: In addition to the construction industry, microcrystalline wax is also widely used in the textile sector. It is usually added to the viscose of textiles to improve the firmness and toughness of textiles. In addition, microcrystalline wax can also be used as an auxiliary for dyeing in the production of dyestuffs to enhance the resistance to pollution and durability of the dyestuffs.
Printing Ink: Microcrystalline wax is also widely used in printing ink. In the production of printing inks, microcrystalline wax is usually used as an additive, so that the ink can better adhere to the surface of the material, and at the same time, the use of microcrystalline wax in printing inks can also improve the gloss and water resistance of the printed materials, and can avoid caking and film phenomenon of the ink after printing.
Cosmetic industry: In addition, microcrystalline wax is widely used in the cosmetic industry. It is usually used as a thickener, filler and emollient, etc., thus improving the gloss and texture of cosmetics. Another common application of microcrystalline wax in cosmetics is as a carrier for photosensitive dyes. It stabilizes the dye color and does not cause reactions such as skin irritation or allergy in cosmetics and skin care products.
Other Uses: In addition to the above applications, microcrystalline wax can be used in the production of food packaging, plastic bottle production, candle making, rubber and emulsion production, vibration control, coatings and surface treatment. In addition, due to its inertness, stability and low toxicity, microcrystalline wax is also widely used in medical and metallurgical fields.
Microcrystalline wax, a white or yellow solid made from paraffin wax or other petroleum processing by-products. Due to its inertness, stability and low melting point, microcrystalline wax is widely used in various fields, which we will introduce one by one below.
Construction Materials: The main use of microcrystalline wax is in the construction materials industry. It is usually used as a plasticizer and lubricant, blended in various mixtures to improve the workability and ductility of materials. It is also used in the production of waterproofing materials, encapsulation materials, anti-cracking materials and a number of other building materials with low loss, low viscosity and low permeability coefficient.
Textile sector: In addition to the construction industry, microcrystalline wax is also widely used in the textile sector. It is usually added to the viscose of textiles to improve the firmness and toughness of textiles. In addition, microcrystalline wax can also be used as an auxiliary for dyeing in the production of dyestuffs to enhance the resistance to pollution and durability of the dyestuffs.
Printing Ink: Microcrystalline wax is also widely used in printing ink. In the production of printing inks, microcrystalline wax is usually used as an additive, so that the ink can better adhere to the surface of the material, and at the same time, the use of microcrystalline wax in printing inks can also improve the gloss and water resistance of the printed materials, and can avoid caking and film phenomenon of the ink after printing.
Cosmetic industry: In addition, microcrystalline wax is widely used in the cosmetic industry. It is usually used as a thickener, filler and emollient, etc., thus improving the gloss and texture of cosmetics. Another common application of microcrystalline wax in cosmetics is as a carrier for photosensitive dyes. It stabilizes the dye color and does not cause reactions such as skin irritation or allergy in cosmetics and skin care products.
Other Uses: In addition to the above applications, microcrystalline wax can be used in the production of food packaging, plastic bottle production, candle making, rubber and emulsion production, vibration control, coatings and surface treatment. In addition, due to its inertness, stability and low toxicity, microcrystalline wax is also widely used in medical and metallurgical fields.
Microcrystalline wax, a white or yellow solid made from paraffin wax or other petroleum processing by-products. Due to its inertness, stability and low melting point, microcrystalline wax is widely used in various fields, which we will introduce one by one below.
Construction Materials: The main use of microcrystalline wax is in the construction materials industry. It is usually used as a plasticizer and lubricant, blended in various mixtures to improve the workability and ductility of materials. It is also used in the production of waterproofing materials, encapsulation materials, anti-cracking materials and a number of other building materials with low loss, low viscosity and low permeability coefficient.
Textile sector: In addition to the construction industry, microcrystalline wax is also widely used in the textile sector. It is usually added to the viscose of textiles to improve the firmness and toughness of textiles. In addition, microcrystalline wax can also be used as an auxiliary for dyeing in the production of dyestuffs to enhance the resistance to pollution and durability of the dyestuffs.
Printing Ink: Microcrystalline wax is also widely used in printing ink. In the production of printing inks, microcrystalline wax is usually used as an additive, so that the ink can better adhere to the surface of the material, and at the same time, the use of microcrystalline wax in printing inks can also improve the gloss and water resistance of the printed materials, and can avoid caking and film phenomenon of the ink after printing.
Cosmetic industry: In addition, microcrystalline wax is widely used in the cosmetic industry. It is usually used as a thickener, filler and emollient, etc., thus improving the gloss and texture of cosmetics. Another common application of microcrystalline wax in cosmetics is as a carrier for photosensitive dyes. It stabilizes the dye color and does not cause reactions such as skin irritation or allergy in cosmetics and skin care products.
Other Uses: In addition to the above applications, microcrystalline wax can be used in the production of food packaging, plastic bottle production, candle making, rubber and emulsion production, vibration control, coatings and surface treatment. In addition, due to its inertness, stability and low toxicity, microcrystalline wax is also widely used in medical and metallurgical fields.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.Â
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.Â
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.Â
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.Â
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.Â
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Fischer Tropsch wax is mainly composed of linear and saturated high carbon alkanes with relative molecular weight of 500-1000, which gives this chemical fine crystal structure, high melting point, narrow melting point range, low oil content, low penetration, low mobility, low melting viscosity, hardness, wear resistance and high stability.Â
Usages:These products are widely used in textiles,plastics industry,Ink and coating,adhesive.
Microcrystalline wax, a white or yellow solid made from paraffin wax or other petroleum processing by-products. Due to its inertness, stability and low melting point, microcrystalline wax is widely used in various fields, which we will introduce one by one below.
Construction Materials: The main use of microcrystalline wax is in the construction materials industry. It is usually used as a plasticizer and lubricant, blended in various mixtures to improve the workability and ductility of materials. It is also used in the production of waterproofing materials, encapsulation materials, anti-cracking materials and a number of other building materials with low loss, low viscosity and low permeability coefficient.
Textile sector: In addition to the construction industry, microcrystalline wax is also widely used in the textile sector. It is usually added to the viscose of textiles to improve the firmness and toughness of textiles. In addition, microcrystalline wax can also be used as an auxiliary for dyeing in the production of dyestuffs to enhance the resistance to pollution and durability of the dyestuffs.
Printing Ink: Microcrystalline wax is also widely used in printing ink. In the production of printing inks, microcrystalline wax is usually used as an additive, so that the ink can better adhere to the surface of the material, and at the same time, the use of microcrystalline wax in printing inks can also improve the gloss and water resistance of the printed materials, and can avoid caking and film phenomenon of the ink after printing.
Cosmetic industry: In addition, microcrystalline wax is widely used in the cosmetic industry. It is usually used as a thickener, filler and emollient, etc., thus improving the gloss and texture of cosmetics. Another common application of microcrystalline wax in cosmetics is as a carrier for photosensitive dyes. It stabilizes the dye color and does not cause reactions such as skin irritation or allergy in cosmetics and skin care products.
Other Uses: In addition to the above applications, microcrystalline wax can be used in the production of food packaging, plastic bottle production, candle making, rubber and emulsion production, vibration control, coatings and surface treatment. In addition, due to its inertness, stability and low toxicity, microcrystalline wax is also widely used in medical and metallurgical fields.
Oxidized polyethylene wax (OPE wax) is an excellent new type of polar wax with special properties such as low viscosity, high softening point and good hardness. It is widely used in many fields, including but not limited to the following:
Plastics processing: In plastics processing, oxidized polyethylene wax can be used as internal and external lubricant to improve processing efficiency and reduce energy consumption. It improves the surface gloss and flow of plastic products while reducing equipment wear and increasing production rates.
Ink and Coating: In the ink and coating industry, oxidized polyethylene wax is used as a dispersant and anti-sinking agent, which can improve the gloss and three-dimensionality of the printed materials, and at the same time enhance the water resistance and abrasion resistance of the coating.
Rubber industry: As a lubricant, POW reduces energy consumption during rubber processing, improves release efficiency and enhances the gloss and durability of rubber products.
Textile and Leather: In textile softeners and leather treatments, oxidized polyethylene waxes provide good lubricity and water resistance, and increase the softness and gloss of the products.
Agriculture and gardening: Oxidized polyethylene waxes are also used in agriculture and gardening as protectants and lubricants to improve the effectiveness of crop protection coatings and the durability of garden tools.
Other applications: In addition, oxidized polyethylene waxes are used in candles, floor waxes, automotive waxes, cosmetics, match wax sticks, sealing mastics, hot melt adhesives, oil absorbents, and sealants for electronic components.
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
Casting wax is mainly used in the field of aviation industry, civil precision casting, but also in the ship, automobile, telecommunication machinery, machine tools and other industries have a wide range of applications. Casting wax casting plays a role in molding fixed.1, casting wax, high and medium temperature precision casting particles, bead-shaped, high hardness, line shrinkage is small, good toughness, good stability, can be used repeatedly.2, casting wax is characterized by a low degree of grey, shrinkage is small, especially suitable for civil areas of precision casting. Such as eyeglasses, clocks and watches, jewelry casting, etc. 3, casting wax has water-soluble casting wax, repair wax, bonding wax and other ancillary products; model wax as a casting of works of art, precision machine tool processing with mold material.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
As an important additive, micronized wax has an irreplaceable role in the field of ink coatings. It can significantly improve the surface properties of ink coatings, enhance scratch resistance, abrasion resistance, anti-adhesion, as well as improve the feel and control the gloss. In addition, the micronized wax can prevent pigment settling and cooperate with matte powder to produce matte paint.
There is a wide range of micronized waxes, mainly including Fischer-Tropsch waxes, polyethylene waxes, polypropylene waxes, polytetrafluoroethylene waxes and modified micronized waxes. Among them, Fischer-Tropsch wax is a kind of unbranched linear wax with low melting point and excellent smoothness and dispersibility; polyethylene wax has excellent anti-friction, anti-scratch, anti-adhesion and light retention; polypropylene wax has higher softening point and hardness, and has outstanding anti-adhesion and abrasion resistance; polytetrafluoroethylene wax has a high melting point, high density, and has excellent comprehensive performance, but is difficult to be dispersed and has a higher price; and modified micronized wax combines many advantages by modifying other waxes through a specific process. Modified micronized waxes combine the advantages of other waxes through a specific process.
As an important additive, micronized wax has an irreplaceable role in the field of ink coatings. It can significantly improve the surface properties of ink coatings, enhance scratch resistance, abrasion resistance, anti-adhesion, as well as improve the feel and control the gloss. In addition, the micronized wax can prevent pigment settling and cooperate with matte powder to produce matte paint.
There is a wide range of micronized waxes, mainly including Fischer-Tropsch waxes, polyethylene waxes, polypropylene waxes, polytetrafluoroethylene waxes and modified micronized waxes. Among them, Fischer-Tropsch wax is a kind of unbranched linear wax with low melting point and excellent smoothness and dispersibility; polyethylene wax has excellent anti-friction, anti-scratch, anti-adhesion and light retention; polypropylene wax has higher softening point and hardness, and has outstanding anti-adhesion and abrasion resistance; polytetrafluoroethylene wax has a high melting point, high density, and has excellent comprehensive performance, but is difficult to be dispersed and has a higher price; and modified micronized wax combines many advantages by modifying other waxes through a specific process. Modified micronized waxes combine the advantages of other waxes through a specific process.
As an important additive, micronized wax has an irreplaceable role in the field of ink coatings. It can significantly improve the surface properties of ink coatings, enhance scratch resistance, abrasion resistance, anti-adhesion, as well as improve the feel and control the gloss. In addition, the micronized wax can prevent pigment settling and cooperate with matte powder to produce matte paint.
There is a wide range of micronized waxes, mainly including Fischer-Tropsch waxes, polyethylene waxes, polypropylene waxes, polytetrafluoroethylene waxes and modified micronized waxes. Among them, Fischer-Tropsch wax is a kind of unbranched linear wax with low melting point and excellent smoothness and dispersibility; polyethylene wax has excellent anti-friction, anti-scratch, anti-adhesion and light retention; polypropylene wax has higher softening point and hardness, and has outstanding anti-adhesion and abrasion resistance; polytetrafluoroethylene wax has a high melting point, high density, and has excellent comprehensive performance, but is difficult to be dispersed and has a higher price; and modified micronized wax combines many advantages by modifying other waxes through a specific process. Modified micronized waxes combine the advantages of other waxes through a specific process.
As an important additive, micronized wax has an irreplaceable role in the field of ink coatings. It can significantly improve the surface properties of ink coatings, enhance scratch resistance, abrasion resistance, anti-adhesion, as well as improve the feel and control the gloss. In addition, the micronized wax can prevent pigment settling and cooperate with matte powder to produce matte paint.
There is a wide range of micronized waxes, mainly including Fischer-Tropsch waxes, polyethylene waxes, polypropylene waxes, polytetrafluoroethylene waxes and modified micronized waxes. Among them, Fischer-Tropsch wax is a kind of unbranched linear wax with low melting point and excellent smoothness and dispersibility; polyethylene wax has excellent anti-friction, anti-scratch, anti-adhesion and light retention; polypropylene wax has higher softening point and hardness, and has outstanding anti-adhesion and abrasion resistance; polytetrafluoroethylene wax has a high melting point, high density, and has excellent comprehensive performance, but is difficult to be dispersed and has a higher price; and modified micronized wax combines many advantages by modifying other waxes through a specific process. Modified micronized waxes combine the advantages of other waxes through a specific process.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes are used as internal and external lubricants to reduce friction between plastic particles and equipment and to improve the flow and processing properties of plastics. For example, in powder coating, adding 1%-5% of wax micronized wax can reduce screw torque by 10%-15%, reduce power consumption and increase production per unit time.
Micronized wax can improve the surface gloss and abrasion resistance of plastic products and reduce surface defects during processing. For example, PTFE micronized wax can reduce the surface properties of the material and effectively improve the lubricity and wear resistance of the material.
Micronized wax can also be used as a mold release agent to help plastic products release smoothly from the mold.
Micronized waxes are used as internal and external lubricants to reduce friction between plastic particles and equipment and to improve the flow and processing properties of plastics. For example, in powder coating, adding 1%-5% of wax micronized wax can reduce screw torque by 10%-15%, reduce power consumption and increase production per unit time.
Micronized wax can improve the surface gloss and abrasion resistance of plastic products and reduce surface defects during processing. For example, PTFE micronized wax can reduce the surface properties of the material and effectively improve the lubricity and wear resistance of the material.
Micronized wax can also be used as a mold release agent to help plastic products release smoothly from the mold.
Micronized waxes have good lubricating properties and can reduce the friction of inks during the printing process, thus improving the abrasion and scratch resistance of inks. For example, in water-based inks, the wax powder can prevent printed materials from sticking to each other when stacking, especially in high temperature environment, this property is especially important.
Micronized wax can be used as a matting agent to reduce the gloss of the ink by the distribution of its particles on the surface of the ink, so that the printed matter has a matte effect.
Micronized wax can be evenly distributed in the ink to improve the smoothness and feel of the coating. At the same time, it can also enhance the dispersion of pigment, so that the pigment coloring strength is increased.
In oil-based ink, micronized wax can form a wetting film on the ink surface, making the ink surface smoother, more even and flat.
Micronized waxes play a lubricating role in coatings, reducing the coefficient of friction of the coating, thus improving the abrasion and scratch resistance of the coating. For example, the addition of 1% wax micropowder reduces the dynamic coefficient of friction of the coating film from 0.35 to 0.25.
When the coating film is cooled, the wax particles precipitate from the coating liquid and migrate to the coating surface, producing a matting effect. In addition, wax micropowders with different particle sizes create different texturizing effects.
Micronized wax can enhance the wetting and dispersion of pigment agglomerates, so that the pigment coloring strength is increased. Generally adding 1%~3% of wax micronized powder can increase the pigment coloring strength by 10%~30%.
Micronized wax gives the coating film a pleasant texture, anti-adhesion and stain resistance. Wax particles on the surface of the coating can reduce the adhesion of stains or make stains easier to wipe off.
Industrial grade petroleum jelly is a solid hydrocarbon based grease with good lubricity, chemical stability, water resistance and corrosion resistance, and has a wide range of uses, mainly including the following:
Lubrication and friction reduction
Lubrication of mechanical equipment: under the condition of temperature not higher than 45â?? and not much load, it can be used as the grease of light load machinery to reduce the friction and wear between mechanical parts.
Lubrication of zipper and slide rule: it can effectively reduce the friction resistance of zipper and slide rule and make them slide more smoothly.
Protection and anti-corrosion
Metal antirust: It can be coated on the surface of metal products, metal parts and machinery to form a layer of protective film to prevent metal from rusting. For example, it is applied to corrosion-prone metal jewelry, non-stainless steel knives and gun barrels before storage.
Micronized waxes are used as internal and external lubricants to reduce friction between plastic particles and equipment and to improve the flow and processing properties of plastics. For example, in powder coating, adding 1%-5% of wax micronized wax can reduce screw torque by 10%-15%, reduce power consumption and increase production per unit time.
Micronized wax can improve the surface gloss and abrasion resistance of plastic products and reduce surface defects during processing. For example, PTFE micronized wax can reduce the surface properties of the material and effectively improve the lubricity and wear resistance of the material.
Micronized wax can also be used as a mold release agent to help plastic products release smoothly from the mold.
Usages:
1.This product helps reduce material costs, restore value and improve product quality.
2.This product is used on compression molding, highly reinforced composites, powder coating, 3D printing, and other demanding applications.
3.This product can be mixed with lubricant, modifier, additive or reinforcing agent to enhance product performance.
Properties:
Properties Units Test Method 40 45
Tg(half width) SINBO 210 213
Mean Resin Particle Size micrometer SINBO 200 200
Physical Form - SINBO Powder Powder
Bulk Deasity Kg/m3 ISO 1183 465 465
Intrinsic Viscosity Ml/g SINBO 0.4 0.45
MP - SINBO 28000-32000 36000-45000
Toluene Content ppm SINBO
Polyamide, also known as nylon, is the most widely used engineering plastic with the largest production volume and the widest variety of applications. PA66 is widely used in the automotive industry, instrument housings and other products requiring impact resistance and high strength.
Polyamide, also known as nylon, is the most widely used engineering plastic with the largest production volume and the widest variety of applications. PA66 is widely used in the automotive industry, instrument housings and other products requiring impact resistance and high strength.
Polyamide, also known as nylon, is the most widely used engineering plastic with the largest production volume and the widest variety of applications. PA66 is widely used in the automotive industry, instrument housings and other products requiring impact resistance and high strength.
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
In polymer processing, the excellent lubricating properties of C80 SASOLWAX help to improve the processing of plastics and increase productivity. In the application of PVC hot melt adhesives, it provides the necessary lubrication and toughening effect, enabling the hot melt adhesive to exhibit better flow and adhesion during the bonding process. In addition, C80 SASOLWAX is also widely used in many fields such as leather polish and plastic internal and external lubricants due to its excellent physical properties, such as high hardness and high temperature resistance, which further broadens its application scope.
PBT (polybutylene terephthalate) is an important type of engineering plastic. It has excellent mechanical properties, electrical properties, chemical resistance and thermal stability, so it is widely used in many fields.
1. Electrical and electronic: PBT material has excellent electrical insulation properties and high temperature resistance, so it is widely used in the field of electrical and electronic. For example, it can be used for cable sheathing, sockets, terminal connectors, switches and electronic parts. In addition, PBT material also has good plasticity, can be used for the manufacture of electronic shells, radiators and so on.
2. Automotive industry: PBT material is widely used in the automotive industry for the manufacture of internal and external parts of automobiles. It has good impact resistance, scratch resistance and high and low temperature resistance, can meet the requirements of automotive parts on the strength and durability. For example, PBT material can be used to manufacture automobile lamp shell, front grille, instrument panel, etc..
3. Household electrical appliances: PBT material's heat resistance and chemical resistance make it widely used in the field of household electrical appliances. For example, it can be used in the manufacture of rice cookers, coffee makers, induction cookers, etc. PBT material also has good electrical properties, can be used to manufacture wire and cable insulation layer plug sockets and so on.
4. Medical equipment: PBT material has excellent chemical resistance and biocompatibility, so in the field of medical equipment is often used in the manufacture of various equipment and appliances. For example, it can be used in the manufacture of syringes, infusion sets, surgical instruments and so on. In addition, PBT material also has good corrosion resistance, can be used for the manufacture of chemical reagent bottles, experimental vessels.
5. Industrial products: PBT material also has a wide range of applications in the field of industrial products. For example, it can be used for the manufacture of industrial parts, pumps, valves, etc. PBT material has high mechanical strength and wear resistance, to meet the requirements of industrial products on the strength and durability. In addition, PBT materials have good weather resistance and are suitable for outdoor environments.
PBT (polybutylene terephthalate) is an important type of engineering plastic. It has excellent mechanical properties, electrical properties, chemical resistance and thermal stability, so it is widely used in many fields.
1. Electrical and electronic: PBT material has excellent electrical insulation properties and high temperature resistance, so it is widely used in the field of electrical and electronic. For example, it can be used for cable sheathing, sockets, terminal connectors, switches and electronic parts. In addition, PBT material also has good plasticity, can be used for the manufacture of electronic shells, radiators and so on.
2. Automotive industry: PBT material is widely used in the automotive industry for the manufacture of internal and external parts of automobiles. It has good impact resistance, scratch resistance and high and low temperature resistance, can meet the requirements of automotive parts on the strength and durability. For example, PBT material can be used to manufacture automobile lamp shell, front grille, instrument panel, etc..
3. Household electrical appliances: PBT material's heat resistance and chemical resistance make it widely used in the field of household electrical appliances. For example, it can be used in the manufacture of rice cookers, coffee makers, induction cookers, etc. PBT material also has good electrical properties, can be used to manufacture wire and cable insulation layer plug sockets and so on.
4. Medical equipment: PBT material has excellent chemical resistance and biocompatibility, so in the field of medical equipment is often used in the manufacture of various equipment and appliances. For example, it can be used in the manufacture of syringes, infusion sets, surgical instruments and so on. In addition, PBT material also has good corrosion resistance, can be used for the manufacture of chemical reagent bottles, experimental vessels.
5. Industrial products: PBT material also has a wide range of applications in the field of industrial products. For example, it can be used for the manufacture of industrial parts, pumps, valves, etc. PBT material has high mechanical strength and wear resistance, to meet the requirements of industrial products on the strength and durability. In addition, PBT materials have good weather resistance and are suitable for outdoor environments.
PBT (polybutylene terephthalate) is an important type of engineering plastic. It has excellent mechanical properties, electrical properties, chemical resistance and thermal stability, so it is widely used in many fields.
1. Electrical and electronic: PBT material has excellent electrical insulation properties and high temperature resistance, so it is widely used in the field of electrical and electronic. For example, it can be used for cable sheathing, sockets, terminal connectors, switches and electronic parts. In addition, PBT material also has good plasticity, can be used for the manufacture of electronic shells, radiators and so on.
2. Automotive industry: PBT material is widely used in the automotive industry for the manufacture of internal and external parts of automobiles. It has good impact resistance, scratch resistance and high and low temperature resistance, can meet the requirements of automotive parts on the strength and durability. For example, PBT material can be used to manufacture automobile lamp shell, front grille, instrument panel, etc..
3. Household electrical appliances: PBT material's heat resistance and chemical resistance make it widely used in the field of household electrical appliances. For example, it can be used in the manufacture of rice cookers, coffee makers, induction cookers, etc. PBT material also has good electrical properties, can be used to manufacture wire and cable insulation layer plug sockets and so on.
4. Medical equipment: PBT material has excellent chemical resistance and biocompatibility, so in the field of medical equipment is often used in the manufacture of various equipment and appliances. For example, it can be used in the manufacture of syringes, infusion sets, surgical instruments and so on. In addition, PBT material also has good corrosion resistance, can be used for the manufacture of chemical reagent bottles, experimental vessels.
5. Industrial products: PBT material also has a wide range of applications in the field of industrial products. For example, it can be used for the manufacture of industrial parts, pumps, valves, etc. PBT material has high mechanical strength and wear resistance, to meet the requirements of industrial products on the strength and durability. In addition, PBT materials have good weather resistance and are suitable for outdoor environments.
PBT (polybutylene terephthalate) is an important type of engineering plastic. It has excellent mechanical properties, electrical properties, chemical resistance and thermal stability, so it is widely used in many fields.
1. Electrical and electronic: PBT material has excellent electrical insulation properties and high temperature resistance, so it is widely used in the field of electrical and electronic. For example, it can be used for cable sheathing, sockets, terminal connectors, switches and electronic parts. In addition, PBT material also has good plasticity, can be used for the manufacture of electronic shells, radiators and so on.
2. Automotive industry: PBT material is widely used in the automotive industry for the manufacture of internal and external parts of automobiles. It has good impact resistance, scratch resistance and high and low temperature resistance, can meet the requirements of automotive parts on the strength and durability. For example, PBT material can be used to manufacture automobile lamp shell, front grille, instrument panel, etc..
3. Household electrical appliances: PBT material's heat resistance and chemical resistance make it widely used in the field of household electrical appliances. For example, it can be used in the manufacture of rice cookers, coffee makers, induction cookers, etc. PBT material also has good electrical properties, can be used to manufacture wire and cable insulation layer plug sockets and so on.
4. Medical equipment: PBT material has excellent chemical resistance and biocompatibility, so in the field of medical equipment is often used in the manufacture of various equipment and appliances. For example, it can be used in the manufacture of syringes, infusion sets, surgical instruments and so on. In addition, PBT material also has good corrosion resistance, can be used for the manufacture of chemical reagent bottles, experimental vessels.
5. Industrial products: PBT material also has a wide range of applications in the field of industrial products. For example, it can be used for the manufacture of industrial parts, pumps, valves, etc. PBT material has high mechanical strength and wear resistance, to meet the requirements of industrial products on the strength and durability. In addition, PBT materials have good weather resistance and are suitable for outdoor environments.
PBT (polybutylene terephthalate) is an important type of engineering plastic. It has excellent mechanical properties, electrical properties, chemical resistance and thermal stability, so it is widely used in many fields.
1. Electrical and electronic: PBT material has excellent electrical insulation properties and high temperature resistance, so it is widely used in the field of electrical and electronic. For example, it can be used for cable sheathing, sockets, terminal connectors, switches and electronic parts. In addition, PBT material also has good plasticity, can be used for the manufacture of electronic shells, radiators and so on.
2. Automotive industry: PBT material is widely used in the automotive industry for the manufacture of internal and external parts of automobiles. It has good impact resistance, scratch resistance and high and low temperature resistance, can meet the requirements of automotive parts on the strength and durability. For example, PBT material can be used to manufacture automobile lamp shell, front grille, instrument panel, etc..
3. Household electrical appliances: PBT material's heat resistance and chemical resistance make it widely used in the field of household electrical appliances. For example, it can be used in the manufacture of rice cookers, coffee makers, induction cookers, etc. PBT material also has good electrical properties, can be used to manufacture wire and cable insulation layer plug sockets and so on.
4. Medical equipment: PBT material has excellent chemical resistance and biocompatibility, so in the field of medical equipment is often used in the manufacture of various equipment and appliances. For example, it can be used in the manufacture of syringes, infusion sets, surgical instruments and so on. In addition, PBT material also has good corrosion resistance, can be used for the manufacture of chemical reagent bottles, experimental vessels.
5. Industrial products: PBT material also has a wide range of applications in the field of industrial products. For example, it can be used for the manufacture of industrial parts, pumps, valves, etc. PBT material has high mechanical strength and wear resistance, to meet the requirements of industrial products on the strength and durability. In addition, PBT materials have good weather resistance and are suitable for outdoor environments.
PBT (polybutylene terephthalate) is an important type of engineering plastic. It has excellent mechanical properties, electrical properties, chemical resistance and thermal stability, so it is widely used in many fields.
1. Electrical and electronic: PBT material has excellent electrical insulation properties and high temperature resistance, so it is widely used in the field of electrical and electronic. For example, it can be used for cable sheathing, sockets, terminal connectors, switches and electronic parts. In addition, PBT material also has good plasticity, can be used for the manufacture of electronic shells, radiators and so on.
2. Automotive industry: PBT material is widely used in the automotive industry for the manufacture of internal and external parts of automobiles. It has good impact resistance, scratch resistance and high and low temperature resistance, can meet the requirements of automotive parts on the strength and durability. For example, PBT material can be used to manufacture automobile lamp shell, front grille, instrument panel, etc..
3. Household electrical appliances: PBT material's heat resistance and chemical resistance make it widely used in the field of household electrical appliances. For example, it can be used in the manufacture of rice cookers, coffee makers, induction cookers, etc. PBT material also has good electrical properties, can be used to manufacture wire and cable insulation layer plug sockets and so on.
4. Medical equipment: PBT material has excellent chemical resistance and biocompatibility, so in the field of medical equipment is often used in the manufacture of various equipment and appliances. For example, it can be used in the manufacture of syringes, infusion sets, surgical instruments and so on. In addition, PBT material also has good corrosion resistance, can be used for the manufacture of chemical reagent bottles, experimental vessels.
5. Industrial products: PBT material also has a wide range of applications in the field of industrial products. For example, it can be used for the manufacture of industrial parts, pumps, valves, etc. PBT material has high mechanical strength and wear resistance, to meet the requirements of industrial products on the strength and durability. In addition, PBT materials have good weather resistance and are suitable for outdoor environments.
PBT (polybutylene terephthalate) is an important type of engineering plastic. It has excellent mechanical properties, electrical properties, chemical resistance and thermal stability, so it is widely used in many fields.
1. Electrical and electronic: PBT material has excellent electrical insulation properties and high temperature resistance, so it is widely used in the field of electrical and electronic. For example, it can be used for cable sheathing, sockets, terminal connectors, switches and electronic parts. In addition, PBT material also has good plasticity, can be used for the manufacture of electronic shells, radiators and so on.
2. Automotive industry: PBT material is widely used in the automotive industry for the manufacture of internal and external parts of automobiles. It has good impact resistance, scratch resistance and high and low temperature resistance, can meet the requirements of automotive parts on the strength and durability. For example, PBT material can be used to manufacture automobile lamp shell, front grille, instrument panel, etc..
3. Household electrical appliances: PBT material's heat resistance and chemical resistance make it widely used in the field of household electrical appliances. For example, it can be used in the manufacture of rice cookers, coffee makers, induction cookers, etc. PBT material also has good electrical properties, can be used to manufacture wire and cable insulation layer plug sockets and so on.
4. Medical equipment: PBT material has excellent chemical resistance and biocompatibility, so in the field of medical equipment is often used in the manufacture of various equipment and appliances. For example, it can be used in the manufacture of syringes, infusion sets, surgical instruments and so on. In addition, PBT material also has good corrosion resistance, can be used for the manufacture of chemical reagent bottles, experimental vessels.
5. Industrial products: PBT material also has a wide range of applications in the field of industrial products. For example, it can be used for the manufacture of industrial parts, pumps, valves, etc. PBT material has high mechanical strength and wear resistance, to meet the requirements of industrial products on the strength and durability. In addition, PBT materials have good weather resistance and are suitable for outdoor environments.
In polymer processing, the excellent lubricating properties of C80 SASOLWAX help to improve the processing of plastics and increase productivity. In the application of PVC hot melt adhesives, it provides the necessary lubrication and toughening effect, enabling the hot melt adhesive to exhibit better flow and adhesion during the bonding process. In addition, C80 SASOLWAX is also widely used in many fields such as leather polish and plastic internal and external lubricants due to its excellent physical properties, such as high hardness and high temperature resistance, which further broadens its application scope.
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
MicroF_W168 is a water-based micronized polyethylene homopolymer.
The average particle size of MicroF_W168 is between 5.5 and 6.0 microns, and the maximum particle size is 21 microns.
Application: Top grade water-based ink, water-based wood coating, Waterborne coatings, etc;
Addition quantity: about 1%, can be added directly in the water-based system;
Advantage: can be directly dispersed in the water-based system;
Characteristics: good storage stability, good smoothness and wear-resistant performance.
Sodium tripolyphosphate has a wide range of uses, because of its dispersion, chelating, gelling, emulsification, pH buffer and other functions, so it can be widely used in food processing, industrial manufacturing, medical and other fields.
1, food processing: sodium tripolyphosphate belongs to inorganic substances, can be used as food additives, play a role in regulating the pH of food, improve the taste of the effect, but also lock the water, help to achieve the purpose of food preservation, can extend the shelf life of food, can make the food tenderized, but also to a certain extent to improve the flexibility of the food. Because of its good dispersing ability, it can make the taste of food more delicate and smooth, so sodium tripolyphosphate is also mostly used in meat, dairy products, canned goods, juice drinks and other foods.
2ã??Industrial manufacturing: Sodium tripolyphosphate can be used in industry to purify water, also can be used as bleach, deodorant, antiseptic, made into soap, detergent to use, also can be used as industrial water softeners, leather pre-tanning agent, dyeing auxiliaries, coatings, etc., widely used in industrial manufacturing.
3 Medical use: Sodium tripolyphosphate is a kind of ionic crosslinking agent, which can be applied to the production of medical hemostatic materials.
SLES is widely used in daily chemical products, the main uses include.
Shampoo, shower gel, hand cleaner, meal cleaner, laundry detergent, laundry powder: SLES is used as surfactant in these daily chemical products to help the cleaner better penetrate and emulsify grease and dirt, so as to improve the cleaning effect.
Glass cleaners, car cleaners and other hard surface cleaners: SLES is also commonly used in the formulation of these cleaners, its excellent wetting and foaming properties help to thoroughly clean hard surfaces.
Textile, paper, leather, machinery, oil extraction and other industries: SLES is also widely used in these industries, mainly to improve the cleanliness and efficiency of the process.
SLES is widely used in daily chemical products, the main uses include.
Shampoo, shower gel, hand cleaner, meal cleaner, laundry detergent, laundry powder: SLES is used as surfactant in these daily chemical products to help the cleaner better penetrate and emulsify grease and dirt, so as to improve the cleaning effect.
Glass cleaners, car cleaners and other hard surface cleaners: SLES is also commonly used in the formulation of these cleaners, its excellent wetting and foaming properties help to thoroughly clean hard surfaces.
Textile, paper, leather, machinery, oil extraction and other industries: SLES is also widely used in these industries, mainly to improve the cleanliness and efficiency of the process.
Maltitol is a new type of sweetener widely used in sugar-flavored food processing. In the past, the sweeteners consumed by people are basically high-calorie, sweet sugar, which is easy to cause diabetes, obesity, arteriosclerosis and heart weakness and other diseases. Maltitol has high sweetness, low calorie, good safety, sufficient raw materials, simple manufacturing process, and unique properties that other sweeteners do not have.
Titanium dioxide, it is a dye and pigment, its molecular formula is TiO2, molecular weight is 79.8658. It is a kind of white inorganic pigment, with non-toxicity, optimal opacity, optimal whiteness and brightness, and it is considered to be the best performance of a kind of white pigment in the world nowadays. Because of its stable physicochemical properties and excellent optical properties and photochemical activity, titanium dioxide has been used in coatings, plastics, rubber, chemical fiber, paper making, ink, cosmetics, capacitors, cutting edge technology of national defense, toys, food, medicine, chemical reagents, electrode, enamel, ceramics, glass, refractory materials, metallurgy, artificial gemstones, fine art pigments, leather, printing and dyeing pastes, soaps, decorative panels, Asphalt bricks, polyester catalyst, photocatalysis, solar cells and other fields have been widely used.
Titanium dioxide, it is a dye and pigment, its molecular formula is TiO2, molecular weight is 79.8658. It is a kind of white inorganic pigment, with non-toxicity, optimal opacity, optimal whiteness and brightness, and it is considered to be the best performance of a kind of white pigment in the world nowadays. Because of its stable physicochemical properties and excellent optical properties and photochemical activity, titanium dioxide has been used in coatings, plastics, rubber, chemical fiber, paper making, ink, cosmetics, capacitors, cutting edge technology of national defense, toys, food, medicine, chemical reagents, electrode, enamel, ceramics, glass, refractory materials, metallurgy, artificial gemstones, fine art pigments, leather, printing and dyeing pastes, soaps, decorative panels, Asphalt bricks, polyester catalyst, photocatalysis, solar cells and other fields have been widely used.
Titanium dioxide, it is a dye and pigment, its molecular formula is TiO2, molecular weight is 79.8658. It is a kind of white inorganic pigment, with non-toxicity, optimal opacity, optimal whiteness and brightness, and it is considered to be the best performance of a kind of white pigment in the world nowadays. Because of its stable physicochemical properties and excellent optical properties and photochemical activity, titanium dioxide has been used in coatings, plastics, rubber, chemical fiber, paper making, ink, cosmetics, capacitors, cutting edge technology of national defense, toys, food, medicine, chemical reagents, electrode, enamel, ceramics, glass, refractory materials, metallurgy, artificial gemstones, fine art pigments, leather, printing and dyeing pastes, soaps, decorative panels, Asphalt bricks, polyester catalyst, photocatalysis, solar cells and other fields have been widely used.
Titanium dioxide, it is a dye and pigment, its molecular formula is TiO2, molecular weight is 79.8658. It is a kind of white inorganic pigment, with non-toxicity, optimal opacity, optimal whiteness and brightness, and it is considered to be the best performance of a kind of white pigment in the world nowadays. Because of its stable physicochemical properties and excellent optical properties and photochemical activity, titanium dioxide has been used in coatings, plastics, rubber, chemical fiber, paper making, ink, cosmetics, capacitors, cutting edge technology of national defense, toys, food, medicine, chemical reagents, electrode, enamel, ceramics, glass, refractory materials, metallurgy, artificial gemstones, fine art pigments, leather, printing and dyeing pastes, soaps, decorative panels, Asphalt bricks, polyester catalyst, photocatalysis, solar cells and other fields have been widely used.
Titanium dioxide, it is a dye and pigment, its molecular formula is TiO2, molecular weight is 79.8658. It is a kind of white inorganic pigment, with non-toxicity, optimal opacity, optimal whiteness and brightness, and it is considered to be the best performance of a kind of white pigment in the world nowadays. Because of its stable physicochemical properties and excellent optical properties and photochemical activity, titanium dioxide has been used in coatings, plastics, rubber, chemical fiber, paper making, ink, cosmetics, capacitors, cutting edge technology of national defense, toys, food, medicine, chemical reagents, electrode, enamel, ceramics, glass, refractory materials, metallurgy, artificial gemstones, fine art pigments, leather, printing and dyeing pastes, soaps, decorative panels, Asphalt bricks, polyester catalyst, photocatalysis, solar cells and other fields have been widely used.
Titanium dioxide, it is a dye and pigment, its molecular formula is TiO2, molecular weight is 79.8658. It is a kind of white inorganic pigment, with non-toxicity, optimal opacity, optimal whiteness and brightness, and it is considered to be the best performance of a kind of white pigment in the world nowadays. Because of its stable physicochemical properties and excellent optical properties and photochemical activity, titanium dioxide has been used in coatings, plastics, rubber, chemical fiber, paper making, ink, cosmetics, capacitors, cutting edge technology of national defense, toys, food, medicine, chemical reagents, electrode, enamel, ceramics, glass, refractory materials, metallurgy, artificial gemstones, fine art pigments, leather, printing and dyeing pastes, soaps, decorative panels, Asphalt bricks, polyester catalyst, photocatalysis, solar cells and other fields have been widely used.
Titanium dioxide, it is a dye and pigment, its molecular formula is TiO2, molecular weight is 79.8658. It is a kind of white inorganic pigment, with non-toxicity, optimal opacity, optimal whiteness and brightness, and it is considered to be the best performance of a kind of white pigment in the world nowadays. Because of its stable physicochemical properties and excellent optical properties and photochemical activity, titanium dioxide has been used in coatings, plastics, rubber, chemical fiber, paper making, ink, cosmetics, capacitors, cutting edge technology of national defense, toys, food, medicine, chemical reagents, electrode, enamel, ceramics, glass, refractory materials, metallurgy, artificial gemstones, fine art pigments, leather, printing and dyeing pastes, soaps, decorative panels, Asphalt bricks, polyester catalyst, photocatalysis, solar cells and other fields have been widely used.
Titanium dioxide, it is a dye and pigment, its molecular formula is TiO2, molecular weight is 79.8658. It is a kind of white inorganic pigment, with non-toxicity, optimal opacity, optimal whiteness and brightness, and it is considered to be the best performance of a kind of white pigment in the world nowadays. Because of its stable physicochemical properties and excellent optical properties and photochemical activity, titanium dioxide has been used in coatings, plastics, rubber, chemical fiber, paper making, ink, cosmetics, capacitors, cutting edge technology of national defense, toys, food, medicine, chemical reagents, electrode, enamel, ceramics, glass, refractory materials, metallurgy, artificial gemstones, fine art pigments, leather, printing and dyeing pastes, soaps, decorative panels, Asphalt bricks, polyester catalyst, photocatalysis, solar cells and other fields have been widely used.
Titanium dioxide, it is a dye and pigment, its molecular formula is TiO2, molecular weight is 79.8658. It is a kind of white inorganic pigment, with non-toxicity, optimal opacity, optimal whiteness and brightness, and it is considered to be the best performance of a kind of white pigment in the world nowadays. Because of its stable physicochemical properties and excellent optical properties and photochemical activity, titanium dioxide has been used in coatings, plastics, rubber, chemical fiber, paper making, ink, cosmetics, capacitors, cutting edge technology of national defense, toys, food, medicine, chemical reagents, electrode, enamel, ceramics, glass, refractory materials, metallurgy, artificial gemstones, fine art pigments, leather, printing and dyeing pastes, soaps, decorative panels, Asphalt bricks, polyester catalyst, photocatalysis, solar cells and other fields have been widely used.
