Price: DEPEND ON QUANTITY Specification: 80% Brand Name : Chemcohealth Place Of Origin : China Moq : 1 FCL Color : White or slight yellow
Ethylene glycol (IUPAC name: ethane-1,2-diol) is an organic compound with the formula (CH2OH)2. It is mainly used for two purposes, as a raw material in the manufacture of polyester fibers and for antifreeze formulations. It is an odorless, colorless, sweet-tasting, viscous liquid. Ethylene glycol is a high-production-volume chemical; it breaks down in air in about 10 days and in water or soil in a few weeks.It enters the environment through the dispersal of ethylene glycol-containing products, especially at airports, where it is used in de-icing agents for runways and airplanes. While prolonged low doses of ethylene glycol show no toxicity, at near lethal doses(â?¥1000 mg/kg per day) ethylene glycol acts as a teratogen. "Based on a rather extensive database, it induces skeletal variations and malformations in rats and mice by all routes of exposure." This molecule has been observed in outer space. Commodity Ethylene Glycol Production batch number 3703W7120620 Inspection date 20201218 Items Unit Result Standard Appearance _ Colorless, transparent, no visible impurities GB/T 4649-2018 Density g/cm3 1.114 ASTM D4052-18a Purity % 99.9 GB/T 14571.2-2018 Water Content % 0.01 GB/T 4649-2018 Ash % 0.001 GB/T 4649-2018 Distillation range(760mmHg) C Distillation range 1.0 GB/T 4649-2018 C IBP 197 C DP 198 UV transmittance % 240nm 87.0 ASTM E2193-16 (Option A) % 260nm 92.0 % 275nm 94.0 % 350nm 99.9
Chemicals.
Amino acid, methionine, lysine, threonine tryptophan 98.5%, chlortetracycline 15%, tylosin phosphate 98.5%, tiamulin fumarate 10% tiamuline 98 100%.
We Can Supply Barium Carbonate From Our Dubai Ware House Interested Parties May Contact Us
Industrial Grade Powder Form Purity - 99%
Industrial Grade Powder Form. Purity up to 99%.
Ammonium sulfate is a common inorganic salt. It contains two ammonium ions and one sulfate ion. This salt is widely used in various applications, including agriculture, industrial processes, and laboratory settings. Here are some key points about ammonium sulfate: Nitrogen and Sulfur Content: Ammonium sulfate is a good source of both nitrogen and sulfur. The nitrogen is in the ammonium form, making it readily available for plants. Solubility: Ammonium sulfate is highly soluble in water, allowing it to be easily dissolved for use in liquid fertilizers or irrigation systems. Fertilizer Use: It is commonly used as a nitrogen and sulfur fertilizer in agriculture to provide essential nutrients for plant growth. The nitrogen in ammonium sulfate is gradually released, providing a sustained nutrient supply to plants. Acidity: Ammonium sulfate is acidic in nature, and its application can contribute to lowering the pH of the soil. This can be beneficial in alkaline soils or for crops that prefer slightly acidic conditions. Soil Amendment: In addition to providing nutrients, ammonium sulfate can also serve as a soil amendment for improving certain soil characteristics. Industrial Applications: Ammonium sulfate is used in various industrial processes, including the production of textiles, dyes, and flame retardants. It is also employed in certain chemical reactions and as a precipitant in laboratories. Yeast Nutrient: In the brewing industry, ammonium sulfate is sometimes used as a yeast nutrient in the fermentation process. Compatibility: Ammonium sulfate is generally compatible with other fertilizers, and it can be used in combination with them to provide a balanced nutrient profile. Safety Considerations: When handling ammonium sulfate, it's important to follow safety guidelines and use appropriate protective equipment to prevent skin or eye contact and inhalation. Storage: Ammonium sulfate should be stored in a cool, dry place to prevent moisture absorption.
Potassium sulfate, often referred to as sulfate of potassium or SOP, is a chemical compound with the formula K2SO4. It is a colorless or white crystalline solid that is soluble in water. Potassium sulfate is commonly used in various applications, including agriculture, industry, and laboratory settings. Here are some key points about potassium sulfate: Chemical Formula: K2SO4 Solubility: Potassium sulfate is highly soluble in water, and its aqueous solution is neutral. Sources: Potassium sulfate can be obtained from natural sources, such as minerals like arcanite and aphthitalite. It can also be produced through chemical processes, including the reaction between potassium chloride and sulfuric acid. Agricultural Use: Potassium sulfate is a popular fertilizer in agriculture, providing essential potassium and sulfur nutrients to plants. It is often favored in situations where the addition of chloride is undesirable, as opposed to potassium chloride. Industrial Applications: Potassium sulfate is used in various industrial processes, including the production of glass and textiles. It is employed in certain types of glazes for ceramics. Laboratory Use: In laboratory settings, potassium sulfate can be used as a drying agent due to its hygroscopic nature. Compatibility with Plants: Potassium is an essential nutrient for plant growth and development. It plays a crucial role in various physiological processes, including enzyme activation, photosynthesis, and osmoregulation. Sulfur is also important for plant nutrition and is involved in the synthesis of amino acids and proteins.
Melamine formaldehyde resin is a type of thermosetting plastic that is formed by the polymerization of melamine and formaldehyde. This resin is commonly used in various applications, including laminates, coatings, adhesives, and molded products. When you refer to "Concentrated Melamine Formaldehyde Resin," it suggests a formulation with a higher concentration of the resin, which may be used in specific industrial processes. Composition: Melamine formaldehyde resin is typically produced by the reaction of melamine (a nitrogen-rich compound) and formaldehyde (a reactive aldehyde). The reaction results in a highly cross-linked polymer with excellent hardness, chemical resistance, and heat resistance. Properties: High Heat Resistance: Melamine formaldehyde resin exhibits high heat resistance, making it suitable for applications where exposure to elevated temperatures is a concern. Hardness and Durability: The resin imparts hardness and durability to the materials it is used in, making it valuable for products like laminates and molded items. Chemical Resistance: Melamine formaldehyde products are known for their resistance to chemicals and staining. Applications: Laminates: Melamine formaldehyde resin is commonly used as a coating for laminates, which are widely used in furniture, countertops, and decorative surfaces. Molded Products: It is used in the production of molded items, such as kitchenware, dinnerware, and electrical components. Adhesives: The resin is used in the formulation of adhesives for bonding wood and other materials. Concentration: The concentration of melamine formaldehyde resin can vary based on the specific formulation required for a given application. A concentrated form may be used to achieve specific performance characteristics or to facilitate easier handling and storage. Manufacturers and Suppliers: Different manufacturers may produce concentrated melamine formaldehyde resins with varying specifications. It's essential to consult with the specific manufacturer or supplier for detailed information about the product's formulation, recommended uses, and handling guidelines.
Reverse Osmosis Membrane Antiscalant - NSF Certified and Food Grade, effective in controlling deposition of inorganic scales. Effective in presence of chlorine and hardness upto 1000ppm and TDS upto 3000ppm Free from phosphates and other chelants, non-toxic
Glutaraldehyde is an exceptional disinfectant which is a transparent, colorless, water-soluble and oily liquid. AREAS OF APPLICATIONS Water treatment industry Oil industry Textile industry Leather industry Paper making Plastic industry Biochemistry applications Adhesives Preservatives Fuels Perfumes Medical care PRODUCT FEATURES Eco-friendly High performance Highly effective Reduced toxicity Easy to use Fast acting Long shelf-life Cost competitive
Naphthols Naphthol As Naphthol Asbo Naphthol Asbs Naphthol Asd Naphthol Ase Naphthol Asg Naphthol Asol Naphthol Assw Naphthol Astr Fast Bases Fast Blue B Base Fast Blue Bb Base Fast Bordeaux Gp Base Fast Orange Gc Base Fast Red B Base Fast Red Gl Base Fast Red Rl Base Fast Scarlet Ggs Base Fast Scarlet R Base Fast Scarlet Rc Base Fast Yellow Gc Base Fast Salts Fast Black K Salt Fast Blue B Salt Fast Blue Bb Salt Fast Bordeaux Gp Salt Fast Orange Gc Salt Fast Orange Rd Salt Fast Red 3gl Salt Fast Red B Salt Fast Red Rc Salt Fast Red Tr Salt Fast Scarlet G Salt Fast Scarlet Ggs Salt Fast Scarlet R Salt Fast Scarlet Rc Salt Fast Yellow Gc Salt
Chemical Name P Amino Benzene Sulfonic Acid CAS No. 121 57 3 Molecular Weight 173.2 Molecular Formula C6H7NO3S Physical Appearance Grey Powder Form Fine (Dry) Powder Assay 98% min. Insolubles 0.30% max. Aniline By HPLC 5000 ppm Ash Content 0.5% max. Chromatography On 100% Basis
Properties Value Synonym Amido Sulphonic Acid CAS No. 5329 -14 -6 Chemical Formula H3NO3S Molecular Weight 97.09 Physical Appearance White Crystalline Powder Purity 99.0% min. Moisture 0.5% max. Melting Point 2050 C Vapour Density 3.3 Sulphate 0.1% Iron as Fe < 50 ppm Ammonical Nitrogen as NH4HSO4 0.15% max. UN No. 2967 Hazard Class 8 Packing Group III
Carbon Chain Distribution by GLC (%) C16 C18 C20 1.0 max. 99.0 min. 1.0 max. Appearance Flakes / Fused Hydrocarbons (% by wt) 0.3 max. Moisture (% by wt) 0.1 max. (Fused) 0.3 max. (Flakes/Pastilles) Acid Value 0.1 max. Saponification Value 0.2 max. Iodine Value 0.2 max. Avg. Molecular Weight 267 - 274 Hydroxyl Value 205 - 210 Solidification Range (C) 56-59 Flash Point (�°C) Ca 195 Density (gms/cc) @ 60C 0.805- 0.815 Colour (apha) 10 max. Boiling Range (C) 330 -355 Carbonyl Value (as ppm CO) 50
Carbon Chain Distribution by GLC (%) C14 C16 C18 C20 C22 0.2 max. 2.0 max. 98.0 min. 1.0 max. 0.1 max. Appearance Flakes / Fused Hydrocarbons (% by wt) 0.5 max. Moisture (% by wt) 0.1 max. (Fused) 0.3 max. (Flakes/Pastilles) Acid Value 0.1 max. Saponification Value 0.3 max. Iodine Value 0.3 max. Avg. Molecular Weight 267 - 275 Hydroxyl Value 204 - 210 Solidification Range (C) 55 - 58 Flash Point (C) Ca 195 Density (gms/cc) @ 60C 0.805 - 0.815 Colour (apha) 10 max. Boiling Range (C) 330 - 355
Carbon Chain Distribution by GLC (%) C14 C16 C18 C20 C22 0.5 max. 5.0 max. 95.0 min. 2.0 max. 0.2 max. Appearance Flakes / Fused Hydrocarbons (% by wt) 0.5 max. Moisture (% by wt) 0.1 max. (Fused) 0.3 max. (Flakes/Pastilles) Acid Value 0.1 max. Saponification Value 0.3 max. Iodine Value 0.3 max. Avg. Molecular Weight 267 - 280 Hydroxyl Value 200 - 210 Solidification Range (C) 55 - 58 Flash Point (C) Ca 195 Density (gms/cc) @ 60C 0.805 - 0.815 Colour (apha) 10 max. Boiling Range (C) 330 - 360
Sodium Lauryl Ether Sulphate Liquid 28%(2 MOLE) (Natural Based) Appearance Colourless to Pale Yellow Active Matter % 28 min. pH (1% Aqueous Solution) 6.5 - 8.5 Sodium Sulphate % 1.0 Max Sodium Chloride % 0.5 Max Un-Sulfated Matter % 1.0 Max 1- 4 Dioxane ppm 30 Max
Properties Typical Values Appearance Clear uniform white granules free of foreign matter Assay as K2B4O7.4H2O 99.50 % min. B2O3 45.10 % min. K2O 30.30 % min. Insoluble Matter 0.01 % max. Chloride (Cl) 0.005 % max. Sulphate (SO4) 0.02 % max. Heavy Metals as Pb 0.005 % max. Iron (Fe) 0.001 % max. Calcium Magnesium Precipitate 0.01 % max. Particle Size : +8 mesh 0.1 % max. Particle Size : +30 mesh 1 % max. Particle Size : +170 mesh 80 % min.
