Specification: Ash Content (mass %) 0.01 Free fatty acids 3 % Max M.I.U(Moisture and Impurities) 0.1 % max Saponification value: 18185-1955-195 Iodine value: 120 Titre C (melting point) 13.75 C Specific Gravity a 25 C 0.915 Density (kg/m3) 920 Flashpoint by P.-M. (Degree C) 220 Calorific Value (kj/kg) 36,000 Kinematic Viscosity (40 deg.C) (mm2/s) Carbon Residue (mass-%) 0.4 Sulphur Content (mg/kg) 18 Contamination (mg/kg) 24 Acid Value (mg KOH)/g) 7.0 Oxidation Stability (110 deg.C)(h) 5.0 (min) Phosphorus Content (mg/kg) 15
High density polyethylene HDPE for non-toxic, tasteless, no smelly white particles, melting point is about 130 C, relative density of 0.941 - 0.960. It has good heat resistance and cold resistance, chemical stability, but also has high rigidity and toughness, good mechanical strength. Dielectric properties, and environmental stress cracking resistance.
Product pictures Properties: PP has the advantages of excellent comprehensive properties, good chemical stability, good shape processing performance and relatively low cost. PP can adapt to a wider range of application requirements through modifying, copolymerization, grafting,blending, reinforced filling, transparency, filling, weather resistance. Commonly used reference for Pp grade (due to market factors and production schedule, the actual model may be different, please contact us for specific grade confirmation) Category Grade MFI Density Major Applications Homopolymer - Extrusion F103 3.3 0.9 BOPP Film Grade - General Purpose, Lamination & Metallizable films T30S 3.3 0.9 Raffia Tapes ,Woven Sacks for Packaging Fertilizers, Cement, Polymers, Carpet Backing ,FIBC etc. T103 3.3 0.9 Thermoformed Cups, Containers & Other disposable items F110 11 0.9 TQ and Cast Films for General Purpose Packaging etc. Homopolymer â?? Injection Molding M103 3 0.9 General Purpose Injection Molding M106 6 0.9 General Purpose Injection Molding M108 8 0.9 General Purpose Injection Molding M110 10 0.9 General Purpose Injection Molding, Furniture etc. Impact Copolymer â?? Injection Molding M304 3.5 0.9 Automotive Components, Crates, Pails, Furniture etc. M307 7 0.9 General Purpose Injection Molding M310 10 0.9 Battery Boxes M311T 10 0.9 Compounding, Automotive Components, Luggage and Industrial Components M312 12 0.9 Compounding, Industrial Components, Automotive Components, Luggage, Pails, Houseware, Sanitary Wares etc. M315 15 0.9 General Purpose Injection Molding M325 25.0 0.9 Compounding, Automotive Components, Houseware, Appliances parts, Extrusion Coating M340 40 0.9 Appliance & White Goods, Automotive component, Compounding,TWIM Random Copolymer â?? Blow Molding B202S 1.9 0.9 Bottle & Containers for Medical and Transparent Products (e.g. IV Fluid Bottles) etc B200 1.9 0.9 General Purpose Blow Molded & Thermoformed Items, Sheets for Files & Folders. M212S 12 0.9 High Clarity Containers, Household items,Injection Syringe, Laboratory products & ISBM Bottles
Ethanol Alcoholic Beverages: Ethanol is the primary alcohol found in alcoholic beverages such as beer, wine, and spirits. It is produced through fermentation of sugars by yeast. Industrial Applications: Solvent: Ethanol is widely used as a solvent in various industries, including pharmaceuticals, cosmetics, paints, and inks. It can dissolve a wide range of substances, making it valuable in extraction processes and as a cleaning agent. Fuel: Ethanol is used as a biofuel additive in gasoline (usually referred to as ethanol fuel or E85), promoting cleaner combustion and reducing emissions. Medical and Pharmaceutical Uses: Antiseptic: Ethanol is an effective disinfectant and antiseptic agent used in healthcare settings for cleaning skin and medical instruments. Preservative: Used in pharmaceutical preparations and cosmetics to improve stability and shelf life. Food and Flavorings: Ethanol is used in food processing as a solvent for extracts, flavorings, and as a carrier for food additives. Laboratory Applications: Chemical Reagent: Ethanol is commonly used in laboratories as a solvent and reagent in various chemical reactions and synthesis processes.
We have uniquely positioned ourselves as a dependable firm, engaged in manufacturing and supplying Recycled Pet Flakes. These flakes are used for making carrier bags, jerry cans, plastic sheets, storage bins and many other items. We use recycled PET at our sophisticated production unit to process these flakes. Recycled Pet Flakes are available in different colors and specifications as per client's requirements. We offer these flakes at pocket friendly prices. Features: Thermal stability Vibrant colors Eco friendly 1. Product: PET Flakes 2. Grade: recycled Bottle Flake, Hot Washed 3. Color: 100% Clear, white 4. Form: Flake 12-14mm
Property Specification Density @ 15 C 775 - 840 kg/m Flash Point Minimum 38C Freezing Point Maximum -47C Viscosity @ -20C Maximum 8.0 mm/s (cSt) Smoke Point Minimum 25 mm Aromatics Content Maximum 25% by volume Sulfur Content Maximum 300 mg/kg Hydrogen Content Minimum 13.4% by mass Total Acidity Maximum 0.015 mg KOH/g Electrical Conductivity 50 - 600 pS/m (if required) Lubricity (BOCLE) Minimum 0.85 mm Thermal Stability (JFTOT) Minimum 260�°C (Filter Pressure Differential: Maximum 25 mm Hg) Water Content Maximum 70 mg/kg
Better grip and braking thanks to motorsport derived technology. Adaptive compound for a â??racingâ?? grip and improved braking performance. Massive outer shoulder block for increased stability and improved handling during cornering. The Dunlop SP Sport Maxx RT is a summer tyre which borrows from Dunlop's extensive knowledge in producing race tyres to provide you with motorsport level grip and braking. Dunlop have designed the SP Sport Maxx RT with intuitive compound technology that adapts to the conditions to deliver safe and responsive grip in both wet and dry conditions. The compound of the Dunlop SP Sport Maxx RT features polymers that conform to the contours of the road - helping to maximise the contact between the tyre and road, increasing the tyre's levels of grip. Around the shoulder of the tyre Dunlop have contructed 'Short Braking' blocks to ensure shorter braking distances when you are travelling at high speeds. When braking these blocks increase to allow more of the tyre to come into contact with the road. Keen to deliver a fuel efficient design, Dunlop have ensured the tyre is made with a lightweight construction - reducing the rolling resistance of the tyre and in turn the CO2 emissions when driving
Property Specification Appearance Clear and Bright Density @ 15C 820 - 845 kg/m Viscosity @ 40C 2.0 - 4.5 mm (cSt) Flash Point Minimum 55C Sulfur Content Maximum 10 mg/kg (10 PPM) Cetane Number Minimum 51 Cold Filter Plugging Point (CFPP) -5C (summer grade), -15C (winter grade) Distillation 95% Recovered Maximum 360C Total Aromatics Content Maximum 11% Polycyclic Aromatics Content Maximum 8% Ash Content Maximum 0.01% by mass Water Content Maximum 200 mg/kg Total Contamination Maximum 24 mg/kg Lubricity, corrected wear scar diameter @ 60C Maximum 460 micrometers Copper Strip Corrosion (3h @ 50C) Class 1 Oxidation Stability @ 110C Minimum 20 hours FAME (Fatty Acid Methyl Ester) Content Maximum 7% by volume Carbon Residue (on 10% distillation residue) Maximum 0.3% HFRR (High-Frequency Reciprocating Rig) Wear Scar Maximum 460 microns
Property Specification Appearance Clear and Bright Density @ 15C 820 - 845 kg/m Viscosity @ 40C 2.0 - 4.5 mm/s (cSt) Flash Point Minimum 55C Sulfur Content Maximum 10 mg/kg (10 PPM) Cetane Number Minimum 51 Cold Filter Plugging Point (CFPP) -5C (summer grade), -15C (winter grade) Distillation 95% Recovered Maximum 360C Total Aromatics Content Maximum 11% Polycyclic Aromatics Content Maximum 8% Ash Content Maximum 0.01% by mass Water Content Maximum 200 mg/kg Total Contamination Maximum 24 mg/kg Lubricity, corrected wear scar diameter @ 60�°C Maximum 460 micro Copper Strip Corrosion (3h @ 50�°C) Class 1 Oxidation Stability @ 110�°C Minimum 20 hour FAME (Fatty Acid Methyl Ester) Content Maximum 7% by volume Carbon Residue (on 10% distillation residue) Maximum 0.3% HFRR (High-Frequency Reciprocating Rig) Wear Scar Maximum 460 mi
The CPI -1516 Series compressor lubricants are formulated using premium polyalkylene glycol (PAG), coupled with a high performance additive package. The lubricants are specifically formulated to ensure shear stability, corrosion protection, and excellent lubricity. These compressor lubricants feature excellent protection against yellow metal staining by careful selection of a combination of corrosion inhibitors. This, coupled with unparalleled oxidative and thermal stability ensures that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. The CPI -1516 Series are specifically advantageous in high-temperature applications, particularly as the low volatility and high viscosity index means that there is significantly reduced lubricant in the gas stream, ensuring that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. Applications and Compressor Type Flooded rotary screw compressors Propane refridgeration Features and Benefits Corrosion protection (yellow metals) Enhanced system reliability and reduced down-time Oxidatively stable Longer system life Extremely low volatility Reduced maintenance, reduced top-up Excellent lubricity Increased effi ciency, reduced cost of operation High viscosity index Satisfactory use over wide range of operational temperatures
The CPI -1516 Series compressor lubricants are formulated using premium polyalkylene glycol (PAG), coupled with a high performance additive package. The lubricants are specifically formulated to ensure shear stability, corrosion protection, and excellent lubricity. These compressor lubricants feature excellent protection against yellow metal staining by careful selection of a combination of corrosion inhibitors. This, coupled with unparalleled oxidative and thermal stability ensures that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. The CPI-1516 Series are specifically advantageous in high-temperature applications, particularly as the low volatility and high viscosity index means that there is significantly reduced lubricant in the gas stream, ensuring that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. Applications and Compressor Type Flooded rotary screw compressors Propane refridgeration Features and Benefits Corrosion protection (yellow metals) Enhanced system reliability and reduced down-time Oxidatively stable Longer system life Extremely low volatility Reduced maintenance, reduced top-up Excellent lubricity Increased effi ciency, reduced cost of operation High viscosity index Satisfactory use over wide range of operational temperatures
The CPI -1516 Series compressor lubricants are formulated using premium polyalkylene glycol (PAG), coupled with a high-performance additive package. The lubricants are specifically formulated to ensure shear stability, corrosion protection, and excellent lubricity. These compressor lubricants feature excellent protection against yellow metal staining by careful selection of a combination of corrosion inhibitors. This, coupled with unparalleled oxidative and thermal stability ensures that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. The CPI-1516 Series are specifically advantageous in high temperature applications, particularly as the low volatility and high viscosity index means that there is significantly reduced lubricant in the gas stream, ensuring that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. Applications and Compressor Type Flooded rotary screw compressors Propane refridgeration Features and Benefits Corrosion protection (yellow metals) Enhanced system reliability and reduced down-time Oxidatively stable Longer system life Extremely low volatility Reduced maintenance, reduced top-up Excellent lubricity Increased effi ciency, reduced cost of operation High viscosity index Satisfactory use over wide range of operational temperatures
The CPI-1507 Series compressor lubricants are formulated using a premium polyalkylene glycol (PAG) base fluid combined with a high-performance additive package. They are specifically formulated to give negligible dilution with hydrocarbon gases. These compressor lubricants feature excellent oxidative and thermal stability enabling the use of these lubricants over a wide range of temperatures without varnish or deposit formation. The high viscosity index (VI) and negligible hydrocarbon dilution enables the CPI-1507 Series lubricants to operate over wide ranges of temperature and gas composition with small changes in viscosity compared to other types of lubricants. The CPI-1507 Series fluids are especially advantageous in high temperature and heavy gas stream applications due to their excellent thermal and oxidative stability and negligible hydrocarbon dilution. Applications and Compressor Type Flooded rotary screw compressors Heavy hydrocarbon gas stream applications Centrifugal compressors Liquid ring vacuum pumps Features and Benefits Hydrocarbon insoluble Negligible dilution due to hydrocarbons in operation Excellent lubricity Increased efficiency and reduced cost of operation Oxidatively stable Longer system life High viscosity index Small viscosity changes over wide temperature ranges
" The CPI-1507 Series compressor lubricants are formulated using a premium polyalkylene glycol (PAG) base fluid combined with a high performance additive package. They are specifically formulated to give negligible dilution with hydrocarbon gases. These compressor lubricants feature excellent oxidative and thermal stability enabling the use of these lubricants over a wide range of temperatures without varnish or deposit formation. The high viscosity index (VI) and negligible hydrocarbon dilution enables the CPI-1507 Series lubricants to operate over wide ranges of temperature and gas composition with small changes in viscosity compared to other types of lubricants. The CPI-1507 Series fluids are especially advantageous in high temperature and heavy gas stream applications due to their excellent thermal and oxidative stability and negligible hydrocarbon dilution. Applications and Compressor Type Flooded rotary screw compressors Heavy hydrocarbon gas stream applications Centrifugal compressors Liquid ring vacuum pumps Features and Benefits Hydrocarbon insoluble Negligible dilution due to hydrocarbons in operation Excellent lubricity Increased efficiency and reduced cost of operation Oxidatively stable Longer system life High viscosity index Small viscosity changes over wide temperature ranges
"The CPI-1005 Series compressor lubricants are formulated using highly hydrocracked and is dewaxed mineral oil coupled with an additive package that is specifically designed to give superior performance in compressor systems. These compressor lubricants feature excellent protection against hydrogen sulfide (H2S) in the gas stream. Corrosion protection, low pour point, and excellent shear stability ensure that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. The CPI-1005 Series lubricants are especially advantageous in compressors operating with harsh chemical environments, particularly with sour gas (H2S present) applications, due to their robust formulation. Applications and Compressor Type Flooded rotary screw compressors Reciprocating compressors Sour gas applications Applications with harsh chemical environments Features and Benefits Corrosion protection (H2S) Resistance against H2S corrosion Low pour point Suitable for use in low temperature environments Excellent lubricity Increased efficiency, reduced cost of operation Shear stability Increased service life "
Solest 68 is a formulated ISO VG68 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 68 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminium surfaces for increased system life and improved efficiency. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Soles lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Rotary, Centrifugal, Scroll Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 68, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest 68 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 220 is a formulated ISO VG220 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 220 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminium surfaces for increased system life and improved efficiency. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 220, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest 220 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 220 is a formulated ISO VG220 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 220 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminium surfaces for increased system life and improved efficiency. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 220, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Soles 220 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 180 is a formulated VG180 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 180 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminium surfaces for increased system life and improved efficiency. This grade offers excellent resistance to dilution in HFC refrigerants. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPIs laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 180, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Soles 180 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 180 is a formulated VG180 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 180 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminum surfaces for increased system life and improved efficiency. This grade offers excellent resistance to dilution in HFC refrigerants. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI's laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 180, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest 180 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
