TPE (Thermoplastic Elastomer) Is a kind of high elasticity, high strength, high elasticity rubber,, also has the characteristics of injection molding of thermoplastic rubber. Non-toxic and safe, widely hardness, excellent coloring, soft touch, weather resistance, fatigue resistance and temperature resistance, excellent processing performance, not curing, can be recycled to reduce costs, It not only can be the second injection molding with adhesive coated PP, PA, PE, PC, PS, ABS and other substrate, and also be formed separately. Thermoplastic elastomer has thermoplastic processing performance, but also has the physical properties of vulcanized rubber. It can be described as a combination of advantages of plastic and rubber. TPV (thermoplastic vulcanizate) is also known as elastomeric alloys (EA). TPVs are formed in a reactive compounding process that is usually the combination of a polyolefin (Polypropylene or Polyethylene) with an elastomer (SBR, NR, EPDM, NBR or Butyl). In a reactive compounding process, the elastomer is completely cured. This dynamic vulcanization process in TPV production generates the webbed network in the elastomer domain while still retaining melt- processing capabilities. TPV consists of micron size cross-linked elastomer particles dispersed throughout a continuous matrix of thermoplastic material. Because of its thermoplasticity and melt flowability, TPV can be processed on standard thermoplastic equipments (such as injection molding, extrusion, blow molding, calendaring, overmolding etc.) with the efficiency and economy associated with thermoplastic materials. Further, the scrap from these processes can be recycled. OEM is welcome. Email:shanghaikuhoo@163.com KUHOO TPE/TPV features 1. Wide range of hardness; 2. Non-sticky, 3. Easy to process and color; 4. Overmolding to PA,PP, PE, ABS; 5. Superior Resilience; 6. Excellent brittle temperature; 7. Environmental-friendly; 100% recyclable; 8. Low odor and fogging; 9. Versatile processing capabilities, such as injection, blow molding, extrusion, co-extrusion. 10. Excellent UV and aging resistance
Dimethyl Formamide Dimethylformamide (DMF) is a clear, colorless, hygroscopic liquid with a slight amine odor. The solvent properties of DMF are particularly attractive because of the high dielectric constant, the aprotic nature of the solvent, its wide liquid range and low volatility. It is frequently used for chemical reactions and other applications, which require a high solvency power. The product is known as a universal solvent. The high solubility of polyacrylonitrile in DMF, together with the good miscibility of DMF in water makes DMF the preferred solvent to produce acrylic fibers. Also, the spinning of polyurethane based elastomers is performed from DMF based solutions. Another significant application is the use of DMF as a solvent for polyurethane-based coatings on leather and artificial leather fabrics. Application: It is used in the chemical industry as a solvent, an intermediate, and an additive; for example, in the production of pharmaceuticals, synthetic fibers, resins, agrochemicals, petrochemical industry etc. Packing: 190kg Drum, IBC, ISO Tank, Flexi Bag.
Pet is an opalescent or light yellow highly crystalline polymer with smooth and glossy surface. It has good creep resistance, fatigue resistance, wear resistance and dimensional stability, small wear and high hardness. It has the largest toughness in thermoplastic plastics: good electrical insulation performance, little influence by temperature, but poor corona resistance. It is non-toxic, weather resistant, chemical resistant, stable, low water absorption, weak acid and organic solvent resistance, but not resistant to hot water immersion and alkali. PET resin has high glass transition temperature, slow crystallization rate, long molding cycle, large molding shrinkage, poor dimensional stability, brittle molding and low heat resistance.
Microsilica (silica fume) is a by-product of silicon metal or ferrosilicon industries, is an amorphous silicon dioxide SiO2. This product reacts chemically with the calcium hydroxide in the cement paste which yields a calcium silicate hydrate gel that significantly enhances strength and durability. The super fine microsilica fills the voids between cement particles creating a very dense, less permeable concrete. Physical characteristics: Color: gray or gray white powder Bulk density: 320-700 kg/m3 Chemical composition: Items SiO2 Al2O3 Fe2O3 MgO CaO Na2O Moisture Content 75-98% 1.0-0.2% 0.9-0.3% 0.7-0.1% 0.3-0.1% 1.3-0.2% Fineness: the fineness of the silica fume is less than 1 1/4m, and the average particle size is 0.1 0.3 1/4m, and the specific surface area is 20 - 28 m2/g. The fineness and specific surface area are about 80-100 times of cement and 50-70 times of fly ash. Maxtech Micro Silica supplies will be as per QCS 2014 (ASTM C1240): SiO2: >/= 92% LOI:
Polyethylene is the world's most widely used thermoplastic and is made by the polymerization of ethylene. Polyethylene is often classified by its density, because greater density corresponds with greater material rigidity. The world�¢??s largest volume polyethylene is high density polyethylene (HDPE), which has a relatively high degree of tensile strength. Plastic containers represent the most common household use of high-density polyethylene. At the opposite end of the spectrum is low density polyethylene (LDPE), which was the first type of polyethylene to be developed. Flexible packaging represents the most common household use of low-density polyethylene. Both high- density polyethylene and low-density polyethylene are also commonly used for moulding applications. Linear low-density polyethylene (LLDPE) can usually be manufactured at a slightly lower cost than low density polyethylene and has similar basic properties. While low-density polyethylene and linear low-density polyethylene are to a certain extent substitutable for each other, one may be more suitable than the other for a specific application.
--Application-- 1. Foodstuff Industry - Gum Rosin is firstly converted into hydrogenated rosin, and then used to produce chewing gum 2. Paints & Coating Industry - Rosin is a basic material for paint industry because rosin is easy to dissolve in alcohol,turpentine and others organic solvent. Rosin always is converted to resinate, and then refine with drying oil such as tung oil and mix with volatility solvent to produce various lacquers. Rosin also take important role in producing road coating, rosin firstly converted to rosin malefic ester or polymerized rosin or disproportionated rosin Polyols ester, and then used to make thermoplastic coating for road sign inunction. 3. Metal Processing Industry - Rosin mainly is used as solding aid and metal polishing agent. Rosin is a kind of weak acidity matter, it can remove oxidation film from metal surface and slightly erode the surface of metal, and therefore, lots of solding aid agents contain rosin. 4. Construction Materials Industry - Rosin mainly is used as concrete frothing agent and floor tiling adhesive. 5. Papermaking Industry - Most rosin was applied to papermaking industry as sizing agent. Rosin paper sizing agent can prevent printing oil soaking and dispersing from paper, improves the strength and smoothness of paper; enhances the anti-abrasion of paper. But crystal rosin is unfit for making paper sizing agent due to difficulty of saponification, subsequently makes spot on the paper; sometimes even makes the pipe jam in paper sizing agent producing.
Pet Resin: A type of polyester resin widely used in the production of plastic containers, bottles, and packaging. Material Composition: Pet resin stands for polyethylene terephthalate, a thermoplastic polymer. Clear and Transparent: Known for its clarity, making it suitable for see-through packaging. Lightweight: Pet resin is lightweight yet durable, making it an ideal choice for various applications. Food and Beverage Safe: Often used for food and beverage containers due to its non-toxic and safe properties. Recyclable: Pet resin is recyclable, contributing to sustainability and eco-friendly packaging. High Strength: Offers good mechanical strength, making it suitable for storing liquids and solids. Resistance to Moisture: Pet resin has low moisture absorption, maintaining product integrity. Versatile Applications: Used for water and soft drink bottles, food containers, cosmetic packaging, and more. Barrier Properties: Provides a barrier against oxygen, carbon dioxide, and moisture, preserving freshness. Clarity and Gloss: Pet resin maintains a glossy appearance and transparent quality. Production Efficiency: Easily molded into various shapes using injection molding or blow molding techniques. Environmental Impact: Recycling initiatives help reduce the environmental impact of pet resin usage. FDA Approved: Compliant with food and drug regulations, suitable for packaging consumable goods. Packaging Innovation: Pet resin allows for creative and functional packaging designs. Retail and Convenience: Commonly found in retail settings due to its versatility and attractive appearance. Sustainable Choices: Recyclable nature encourages manufacturers and consumers to opt for sustainable packaging solutions.
V4 Borewell Submersible Pumpset Falcon Premium 100 mm (4) Borewell Submersible pump is firmly coupled to a submersible electric motor and Operates by being submerged beneath the surface of the water. The optimal design of impeller and diffuser enables the best Possible hydraulic efficiency. Built-in check valve prevents back flow and reduces the risk of water hammering. All Vital components of these pumps are made up of corrosive resistance thermoplastic and the shaft is of SS 410. Pump Liquids - Clean - Thin - Non-Aggressive - Non-Explosive - Clear - Cold - Fresh water - Without abrasives - Solid particles. Salient Features - Motor portion covered with corrosive resistance Stainless steel J4 shell - More durability and hygiene - High operating efficiency - Specially designed thrust bearing to withstand high axial thrust load - Extremely hardwearing water lubricated bearing - Thread type motor construction ensures service feasibility - Specially designed Deep Drawn type pump ensures perfect alignment and Thereby increases the life of the pump set - Designed for wide voltage operation - Best alternative for JET & Compressor pump set - Additional intermediate bearing in higher stage pumps. Specification Power Range : 0.37 kW to 4.4 kW (0.50 HP to 6.0 HP) - Version : Single Phase 160V to 230V, Three Phase 350 to 415V, 50Hz AC Supply. Single Phase available in 0.5 HP to 5.0 HP Three Phase available in 1.0 HP to 6.0 HP - Speed : 2880 RPM - Head Range : 10 Mtr. To 340 Mtr. - Discharge Range : 450 LPM to 12 LPM - Outlet Size in Inch : 1.0 , 1.25, 1.5 & 2.0 - Degree of Protection : IP 58 - Direction of Rotation Minimum Cooling : Counter clockwise from driving end -1ph: Electrically Reversible -3ph - Thrust Load : 0.37 kW â?? 0.75 kW- 650 lbs, 1.1 kW -1.5 kW -1000 lbs, 2.2kW, 7.5 kW -1500 lbs. - Flow Along the Motor : 0.15 m/sec. - Type of Duty : S1 (Continuous) - Method of Starting : 1ph-Capacitor Start Capacitor Run (CSCR): 3ph Direct Online (D.O.L) - Maximum Starts Per Hour : 20 Times
V3 Borewell Submersible Pumpset Falcon standard 73mm (3") Borewell Submersible pump is firmly coupled to a submersible electric motor which Operates by being submerged beneath the surface of the water. The optimal design of impeller and diffuser enables the best Possible hydraulic efficiency. Built-in check valve prevents back flow and reduces the risk of water hammering. All Vital components of these pumps are made up of corrosion resistance thermoplastic and the shaft is of SS 410. Pump Liquids - Clean - Thin - Non-Aggressive - Non-Explosive - Clear - Cold - Fresh water - Without abrasives - Solid particles. Salient Features - Motor portion covered with corrosive resistance Stainless steel (SS 204cu) shell - More durability and hygiene - High operating efficiency - Specially designed thrust bearing to withstand high axial thrust load - Extremely hardwearing water lubricated bearing - Thread type motor construction ensures service feasibility - Specially designed Deep Drawn type pump ensures perfect alignment and Thereby increases the life of the pump set - Designed for wide voltage operation - Best alternative for JET & Compressor pump set - Additional intermediate bearing in higher stage pumps. Specification - Power Range : 0.37 kW to 1.1 kW (0.50 HP to 1.5HP) - Version : Single Phase 160V to 230V, 50Hz, AC Supply - Speed : 2880 RPM - Head Range : 14 Mtr. to 96 Mtr. - Discharge Range : 70 LPM to 15 LPM - Outlet Size in Inch : 1.25" - Degree of Protection : IP 58 - Direction of Rotation : Counter clockwise from driving end -1 pH Minimum cooling 1pH - Flow Along the Motor : 0.15 m/sec. - Type of Duty : S1 (Continuous) - Method of Starting : 1ph-Capacitor - Maximum Starts Per Hour : 20 Times Characteristics Of Clear Cold Water - Maximum liquid temperature : 33C max - Permissible amount of sand : 25 g/m - Allowable solids : 3000 ppm (max.) - Chloride ion density : 500 ppm (max.) - Turbidity : 50 ppm silica scale (max.) - Hardness (Drinking Water) : 300 ppm (max.) - Specific gravity : 1.004 (max.) 6 - Viscosity : 6 1.75 x 10 m�²/sec (max.) - Ph Value : 6.5 to 8.5
V3 Borewell Submersible Pumpset Falcon standard 73mm (3") Borewell Submersible pump is firmly coupled to a submersible electric motor which Operates by being submerged beneath the surface of the water. The optimal design of impeller and diffuser enables the best Possible hydraulic efficiency. Built-in check valve prevents back flow and reduces the risk of water hammering. All Vital components of these pumps are made up of corrosion resistance thermoplastic and the shaft is of SS 410. Pump Liquids - Clean - Thin - Non-Aggressive - Non-Explosive - Clear - Cold - Fresh water - Without abrasives - Solid particles. Salient Features - Motor portion covered with corrosive resistance Stainless steel (SS 204cu) shell - More durability and hygiene - High operating efficiency - Specially designed thrust bearing to withstand high axial thrust load - Extremely hardwearing water lubricated bearing - Thread type motor construction ensures service feasibility - Specially designed Deep Drawn type pump ensures perfect alignment and Thereby increases the life of the pump set - Designed for wide voltage operation - Best alternative for JET & Compressor pump set - Additional intermediate bearing in higher stage pumps. Specification - Power Range : 0.37 kW to 1.1 kW (0.50 HP to 1.5HP) - Version : Single Phase 160V to 230V, 50Hz, AC Supply - Speed : 2880 RPM - Head Range : 14 Mtr. to 96 Mtr. - Discharge Range : 70 LPM to 15 LPM - Outlet Size in Inch : 1.25" - Degree of Protection : IP 58 - Direction of Rotation : Counter clockwise from driving end -1 pH Minimum cooling 1pH - Flow Along the Motor : 0.15 m/sec. - Type of Duty : S1 (Continuous) - Method of Starting : 1ph-Capacitor - Maximum Starts Per Hour : 20 Times Characteristics Of Clear Cold Water - Maximum liquid temperature : 33C max - Permissible amount of sand : 25 g/m - Allowable solids : 3000 ppm (max.) - Chloride ion density : 500 ppm (max.) - Turbidity : 50 ppm silica scale (max.) - Hardness (Drinking Water) : 300 ppm (max.) - Specific gravity : 1.004 (max.) 6 - Viscosity : 6 1.75 x 10 m/sec (max.) - Ph Value : 6.5 to 8.5
TPV (thermoplastic vulcanizate) is also known as elastomeric alloys (EA). TPVs are formed in a reactive compounding process that is usually the combination of a polyolefin (Polypropylene or Polyethylene) with an elastomer (SBR, NR, EPDM, NBR or Butyl). In a reactive compounding process, the elastomer is completely cured. This dynamic vulcanization process in TPV production generates the webbed network in the elastomer domain while still retaining melt- processing capabilities. TPV consists of micron size cross-linked elastomer particles dispersed throughout a continuous matrix of thermoplastic material. Because of its thermoplasticity and melt flowability, TPV can be processed on standard thermoplastic equipments (such as injection molding, extrusion, blow molding, calendaring, overmolding etc.) with the efficiency and economy associated with thermoplastic materials. Further, the scrap from these processes can be recycled. Shanghai KUHOO Polymers Co.,Ltd. is professional manufacturer of TPE, TPV in China. TPE (Thermoplastic Elastomer or thermoplastic rubber ) has thermoplastic processing performance, but also has the physical properties of vulcanized rubber. It can be described as a combination of advantages of plastic and rubber. Injection, extrusion, blow molding, overmolding are all suitable. Meet REACH requirement. 100% recyclable. Please contact me if any questions.
TPE elastomer extruder granulator TPE elastomer extruder granulator company information: We, Nanjing GS-Plus, are professional in manufacturing plastic extruders pelletizing machine and other machines. Such as: --Single screw extruder pelletizing line --Twin screw extruder pelletizing line --Kneader-force feeder-Extruder pelletizing line --Two stage extruder pelletizing line --Concial twin screw force feeder --ABS/PLA filament extruder for 3D printing --Plastic washing line .... For All kinds of plastic& Rubber: PE, PP, PET, PVC, PC, PA, PS, ABS, PLA, TPE, TPR, TPU, TPV, EVA, EPDM... We sincerely advise you GS-75 TPE elastomer extruder granulator. Our TPE elastomer extruder granulator has good mixing, big output, high performance. TPE elastomer extruder granulator is very hot to customers. TPE elastomer extruder granulator description: TPE elastomer extruder granulator mainly uses Co-rotating Twin Screw Extruders. Parallel co-rotating twin screw extruders have excellent mixing performance, good self cleaning performance and flexible modular configuration characteristics which make them suitable for processing different types of material systems, and are extensively used in fields of polymer processing, foodstuff processing and chemical products, especially for various high molecular materials. In most cases, parallel co-rotating twin screw extruders are used as mixing equipments. ln processing high molecular materials, the modification process and master batch preparation of polyolefin materials and engineering plastics require sufficient and intensive mixing, which differs depending on material systems, Excellent equipment performance, reasonable mixing process, advanced combination technique and rich processing experience are the key factors determining the success and efficiency of mixing. TPE elastomer extruder granulator : TPE TPR twin screw extruder pelletizing machine mainly uses: Mixer---Twin screw extruder ---Water ring Cutting system. TPE elastomer extruder granulator is very popular and ecomonic. TPE elastomer extruder granulator has higher quality, fully automatic and better dispersion. Most advanced company use this type. TPE elastomer extruder granulator After-sale service: 1. Our engineer can fly to your country to install machine for you, and tell your workers how to run the machine. 2. We will provide you some tools and spare parts. 3. Before shipping, we will run the machine for you to make sure everything is okay. TPE elastomer extruder granulator: Designed as customer's request. This GS-75 type can make 500kg/h.
About Meltblown Nonwove Melt blown is a one step process to make fabrics from polymer. The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. The main purpose of melt blown fabric is to provide barrier property for the liquid. Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: Adjustable Pores And Capillary Structure Excellent barrier properties Filament size 1 -3 �µm High Elasticity High Filtration capability Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). Large Area-to-weight ratio Self-bonding The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. Very good thermal insulation for apparel application Weak tensile properties Wicking Properties Application of spun-bond nonwoven fabrics: Sanitary and Hygiene: Sanitary napkins, Baby diapers and Incontinence diapers Medical and Surgical: Gowns, Face masks, Caps, Drapes, etc Other Miscellaneous Applications: Filtration Material, Agriculture, Oilsorbents Hot-melt adhesives Headliners, etc
About Meltblown Nonwoven Melt blown is a one step process to make fabrics from polymer. The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. The main purpose of melt blown fabric is to provide barrier property for the liquid. Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: Adjustable Pores And Capillary Structure Excellent barrier properties Filament size 1 -3 �?�µm High Elasticity High Filtration capability Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). Large Area-to-weight ratio Self-bonding The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. Very good thermal insulation for apparel application Weak tensile properties Wicking Properties Application of spun-bond nonwoven fabrics: Sanitary and Hygiene: Sanitary napkins, Baby diapers and Incontinence diapers Medical and Surgical: Gowns, Face masks, Caps, Drapes, etc Other Miscellaneous Applications: Filtration Material, Agriculture, Oilsorbents Hot-melt adhesives Headliners, etc
About Meltblown Nonwoven Melt blown is a one step process to make fabrics from polymer. The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. The main purpose of melt blown fabric is to provide barrier property for the liquid. Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: Adjustable Pores And Capillary Structure Excellent barrier properties Filament size 1 -3 �?�µm High Elasticity High Filtration capability Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). Large Area-to-weight ratio Self-bonding The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. Very good thermal insulation for apparel application Weak tensile properties Wicking Properties Application of spun-bond nonwoven fabrics: Sanitary and Hygiene: Sanitary napkins, Baby diapers and Incontinence diapers Medical and Surgical: Gowns, Face masks, Caps, Drapes, etc Other Miscellaneous Applications: Filtration Material, Agriculture, Oilsorbents Hot-melt adhesives Headliners, etc
About Meltblown Nonwoven â?¢ Melt blown is a one step process to make fabrics from polymer. â?¢ The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. â?¢ The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. â?¢ The main purpose of melt blown fabric is to provide barrier property for the liquid. â?¢ Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. â?¢ Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: â?¢ Adjustable Pores And Capillary Structure â?¢ Excellent barrier properties â?¢ Filament size 1 -3 �µm â?¢ High Elasticity â?¢ High Filtration capability â?¢ Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). â?¢ Large Area-to-weight ratio â?¢ Self-bonding â?¢ The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. â?¢ Very good thermal insulation for apparel application â?¢ Weak tensile properties â?¢ Wicking Properties Application of spun-bond nonwoven fabrics: â?¢ Sanitary and Hygiene: â?¢ Sanitary napkins, â?¢ Baby diapers and â?¢ Incontinence diapers â?¢ Medical and Surgical: â?¢ Gowns, â?¢ Face masks, â?¢ Caps, â?¢ Drapes, etc â?¢ Other Miscellaneous Applications: â?¢ Filtration Material, â?¢ Agriculture, â?¢ Oilsorbents â?¢ Hot-melt adhesives â?¢ Headliners, etc
This napkin holder holds up to 500 folded 5" x 6 1/2" napkins, and it's spring-loaded for continuous dispensing and easy napkin removal. The exclusive locking feature helps prevent staff from overfilling the dispenser which leads to torn napkins and prevents patrons from pulling out too many napkins at once, eliminating wasted product. Plus, it's easy to load so napkins can be refilled quickly before and during service. Mounting screws are included, ensuring that this dispenser is easy to install and load. Maintain an organized and efficient counter space with the help of this napkin dispenser! Features: Attribute Value Quantity 1/Each Material Plastic Width 7 1/8 Inches Depth 19 1/2 Inches Height 8 1/2 Inches Cutout Width 6 3/16 Inches Capacity 500 Napkins Color Black Installation Type In-Counter/Built-In Napkin Type Fullfold Type Dispensers
Bitumen penetration grade 40/50 bitumen means the penetration value is in the range 40 to 50 at standard test conditions which commonly used as a Paving Grade. Bitumen is applicable for the production of hot mix asphalt for bases and pavements and for road construction. Penetration Grade Bitumen supplied by RABIT (RAHA BITUMEN) Co. This bitumen is produced through aeration on vacuum bottom (the raw material used for making bitumen left in vacuum distillation column in oil refineries) in bitumen production units. Its penetration grade ( the measure of bitumen hardness) is between 40 to 50. Bitumen is specified by the penetration and softening point test. Designing is by penetration range only. The penetration grade bitumen has a thermoplastic property which causes the material to soften at high temperatures and to harden at lower temperatures. This unique temperature-viscosity relationship is important when determining the performance parameters such as the adhesion, rheology, durability and application temperatures of bitumen.
Bitumen penetration grade 60/70 is semi-hard penetration grade bitumen using as paving grade bitumen suitable for road construction and repair conjointly for the production of asphalt pavements with below technical specifications. This grade of bitumen is mainly used in the manufacture of hot combine asphalt for bases and wearing courses. Bitumen 60/70 is the most used bitumen grade and basic material for all alternative bituminous products. Bitumen Penetration Grade 60/70 is mainly used in the manufacture of hot mix asphalt for bases and wearing courses. Penetration Grade Bitumen supplied by RAHA GROUP is petroleum grade bitumen, manufactured from fractional / vacuum distillation of crude oil. The Bitumen supplied by RAHA GROUP is produced from vacuum residue (short residue) feedstock. RAHA Penetration Grade bitumens are specified by the penetration and softening point test. The designation is by penetration range only. The penetration grade bitumens have a thermoplastic property which causes the material to soften at high temperatures and to harden at lower temperatures. This unique temperature/ viscosity relationship is important when determining the performance parameters such as the adhesion, rheology, durability and application temperatures of bitumen.
Bitumen Penetration Grade 85/100 is a standard penetration grade Bitumen usually used as a Paving Grade Bitumen suitable for road construction and for the production of asphalt pavements with superior properties. This grade of Bitumen is mainly used in the manufacture of hot mix asphalt for bases and wearing courses. is petroleum grade bitumen, manufactured from fractional / vacuum distillation of crude oil. This bitumen is produced through aeration on vacuum bottom (the raw material used for making bitumen left in vacuum distillation column in oil refineries) in bitumen production units. Its penetration grade ( the measure of bitumen hardness) is between 85 to 100. Penetration Grade bitumens are specified by the penetration and softening point test. The designation is by penetration range only. The penetration grade bitumens have a thermoplastic property which causes the material to soften at high temperatures and to harden at lower temperatures. This unique temperature/ viscosity relationship is important when determining the performance parameters such as the adhesion, rheology, durability and application temperatures of bitumen. The Bitumen mode is dependent on temperature. The temperature-vs-stiffness relationship of bitumen is dependent on the type of crude oil and its refining method. Bitumen penetration grade 85/100 is semi hard penetration grade bitumen used as a paving grade bitumen which is suitable for road construction and repair. It is also used for the production of asphalt pavements with the below technical specification. This grade of bitumen is mainly used in the manufacturing of hot mix asphalt for bases and wearing courses. Bitumen 85/100 is one of the most used bitumen grades and a basic material for all other bituminous products. Penetration determines the hardness of bitumen by measuring the depth to which a standard loaded the needle will vertically penetrate in 5 seconds, in a sample of bitumen maintained at a temperature of 25 degrees Celsius.
