CAS 8028-89-5 Raw Materials Caramel and sucrose EINECS 232-435-9 Chemical formula C7H10O2 Appearance Brown Viscous Liquid Or Powder
CAS 585-88-6 EINECS 209-567-0 Appearance Colorless Transparent Crystal Melting Point135 Use Sweetening Agent Water Solubility Soluble In Water
CAS 87-99-0 EINECS 201-788-0 Melting Point 92 Boiling Point 212 Water Solubility Freely Soluble Appearance White Crystal
CAS 636-61-3 Density 1.609 g/cm³ Boiling Point 306.4 Melting Point From 130 to 132 Molecular Formula C4H6O5 Molecular Weight 134.09
CAS 50-99-7 EINECS 200-075-1 Melting Point 146C Boiling Point 527.1 Water Solubility Freely Soluble Appearance White odorless crystalline particles
CAS 50-21-5 EINECS 200-018-0 Melting Point 53 C Boiling Point 122 Water Solubility Freely Soluble Density 1.209 g/cm³ Appearance A yellowish viscous liquid
CAS 56038-13-2 EINECS 259-952-2 Chemical Formula C12H19Cl3O8 Molecular Weight 397.64 Melting Point 125 Water Solubility Soluble In Water Appearance White to nearly white crystalline powder
CAS 24634-61-5 EINECS 246-376-1 Appearance White to pale yellow scaly crystals Melting Point 270 Density 1.36 g/cm Use Used To Make Food Preservatives
CAS 128-44-9 EINECS 204-886-1 Boiling Point 438.9 water solubility soluble appearance White crystalline powder Use Synthetic Sweetener, Electroplating Industry, Daily Cosmetics
CAS 1948-33-0 EINECS 217-752-2 Chemical Formula C10H14O2 Molecular Weight 166.217 Appearance Grey Or Yellow Crystalline Powder
Tetrabutylurea, TBU CAS NO: 4559-86-8 TBU is one of most important solvent in the production of Hydrogen Peroxide. Weifang Menjie Chemical Co.,ltd have been produced Tetrabutylurea and 2-ethylanthraquinone from 1993. AppearanceClear LiquidClear Liquid Purity % â?¥99.599ï¼?52 Density (20â??)g/cm30ï¼?877±0.0030ï¼?877 Sulphur PPM â?¤10.9 Water % â?¤0.10.09 Color,APHA â?¤3029 Surface tension (25â??) â?¥ mN/m19.520 Dibutylamine %â?¤0.10.06 Flash point â?? â?¥140142
DDP is a heterocyclic phosphorus flame retardant, it has high thermal stability and resistance to oxidation, excellent water resistance. It is both reactive and additive flame retardant used in epoxy resin, PET, PEN, PBN and so on.
Refined & Crude Glycerine 99.5% Refined and Crude Glycerine 99.5% Food Grade Raw Crude/Refined Glycerine Oil Suppliers Price Refined Glycerine is useful in a variety of applications, glycerol is used as a solvent, plasticizer and humectant. In polyacrylamide gel electrophoresis, glycerol is used in sample preparation and gel formation. At a concentration of 5-10%, glycerol is used to increase the density of a sample so that it will layer at the bottom of a sample well. Additional uses include as an aid in casting gradient gels, a protein stabilizer and storage buffer component. Item Standard Purity % 99.5 Moisture 0.13 Relative Density 20C (g/cm³) 1.035-1.039 Color(APHA) 5 Distillation (95%) C 184-190 Refractive Index 1.431-1.433 Residue on ignition % 0.008 Sulfate(mg/kg)% 0.006 Chloride(mg/kg)% 0.007
Acrylamide is made by microbiological method. With the characteristics of higher purity and no copper and lower iron content, it is especially suitable for polymer production and uniform molecular weight spread. It is mainly used to produce different kinds of homopolymers and modified polymers and also is widely applied to medicine, dyestuff, painting and daily chemicals industries. Usage: its polymer or co-polymer can be used as flocculant, mud conditioner, blocking agent, mineral dressing agent, textile treatment agent, intensifier and water treatment agent. Most acrylamide is used to synthesize polyacrylamides, which find many uses as water-soluble thickeners. These include use in wastewater treatment, gel electrophoresis (sds-page), papermaking, ore processing, and the manufacture of permanent press fabrics. Some acrylamide is used in the manufacture of dyes and the manufacture of other monomers. Cas:79-06-1 Loading: 15500kgs no pallets 14000kgs with pallets Port qingdao, china
Refined glycerin offers moisturizing and emulsifying functionalities; these properties make it aneffective additive in various personal care and home care formulations. Crude glycerin can reduce freezing point and raise viscosity in a variety of industrial formulations.
Soap noodles are the main ingredient used in the production of soap bars. Soap noodles are the sodium salt of fatty acids from vegetable oil or animal fats. Applications include soaps for toilet, laundry and multi-purpose products.Soap noodles also vary in colour from white to yellow.
Palm oil, obtained from the fruits, is used in making soaps, cosmetics, candles, biofuels, and lubricating greases and in processing tinplate and coating iron plates.Palm kernel oil, from the seeds, is used in manufacturing such edible products as margarine, .ice cream, chocolate confections, cookies, and bread, as well as many pharmaceuticals
Diethylene glycol (DEG) is an organic compound with the formula (HOCH2CH2)2O. It is a colorless, practically odorless, and hygroscopic liquid with a sweetish taste. It is a four carbon dimer of ethylene glycol. It is miscible in water, alcohol, ether, acetone, and ethylene glycol. DEG is a widely used solvent. It can be a contaminant in consumer products; this has resulted in numerous epidemics of poisoning since the early 20th century.
Monoethylene glycol (MEG) in its pure form, it is an odorless, colorless, syrupy liquid with a sweet taste. It can be used for applications that require chemical intermediates for resins, solvent couplers, freezing point depression, solvents, humectants and chemical intermediates. These applications are vital to the manufacture of a wide range of products, including resins; deicing fluids; heat transfer fluids; automotive antifreeze and coolants; water-based adhesives, latex paints and asphalt emulsions; electrolytic capacitors; textile fibers; paper and leather
Polyethylene glycol (PEG) is a polyether compound derived from petroleum with many applications, from industrial manufacturing to medicine. PEG is also known as polyethylene oxide (PEO) or polyoxyethylene (POE), depending on its molecular weight. The structure of PEG is commonly expressed as H (OCH2 CH2) OH.
