Liquid Ethyl Acetate: Ethyl Acetate is an ester of Ethanol and Acetic Acid, (systematically Ethyl Ethanoate, commonly abbreviated EtoAc or EA) an organic compound having formula CH3COOCH2CH3. Liquid Ethyl Acetate is a colorless solvent has a characteristic sweet / fruity smell. We are a distinguished Liquid Ethyl Acetate Exporter based in India. Liquid Ethyl Acetate, offered by us, is perfect in formulation is well-tested. Further, we welcome bulk orders for Liquid Ethyl Acetate with complete sense of responsibility. Applications: - Ethyl Acetate is used in a variety of coating formulations such as epoxies, urethanes, cellulosic, acrylics and vinyl’s. - Applications for these coatings are numerous wood furniture and fixtures, agricultural, construction and mining equipment, auto refinishing, and maintenance and marine uses. - Ethyl Acetate has applications as a solvent in inks for flexographic and rotogravure printing. - It is used as an extraction solvent in the production of pharmaceuticals and food, and as a carrier solvent for herbicides. - High purity product can be used as a viscosity reducer for resins used in photoresist formulations in the electronics industry.
During Hindalco's copper production process, by-products such as sulphuric acid and copper slag are formed. Sulphuric acid is partly converted into phosphoric acid, which is then made to react with ammonia to make di-ammonium phosphate (DAP) fertiliser. During the process of making phosphoric acid, phosphogypsum and hydrofluosilicic acid (HFA) are formed. HFA is partly utilised to make aluminium fluoride, and rest is sold in the market. Sulphuric acid Hindalco produces sulphuric acid of IS 266/1993 technical grade. The sulphuric acid plants use the double contact double absorption (DCDA) process, and are designed by Monsanto Envirochem (USA). Phosphoric acid Hindalco's phosphoric acid plant is based on the Prayon Mark IV dihydrate technology provided by SNC Lavalin (Belgium). Phosphogypsum Phosphogypsum is a by-product of Hindalco's phosphoric acid plant. Copper slag (iron silicate) Copper slag is produced during the smelting process at Hindalco's copper smelter located at Dahej. Aluminium fluoride Hindalco produces aluminium fluoride by reacting HFA (a by-product of the phosphoric acid plant) with aluminium hydroxide (from Hindalco's aluminium manufacturing facilities).
Chemicals.
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.
Properties Typical Values Appearance Clear uniform white powder free of foreign matter Assay as KB5O8.4H2O 99.4 % - 101.1 % min. B2O3 59.0 % - 60.0 % min. K2O 15.9 % - 17.0 % min. Sodium as Na 1000 ppm max. Chloride as Cl 500 ppm max. Sulphate as SO4 500 ppm max. Iron as Fe 20 ppm max. Particle Size : +70 mesh 8.0 % max.
Features : Soft flow,Wood flour filled Phenolic Moulding Powder with good surface & mechanical and electrical properties,suitable for Injection Moulding & Transfer Moulding. Colour : Black Applications : Appliances Properties Test Method Typical Value Appearance - Black Apparent Density ISO 60 0.65 g/cm3 Specific Gravity ISO 183 1.40 Tensile Strength ISO 527-1/2 52 MPa Flexural Strength ISO 178 85 MPa Compressive Strength ISO 604 200 MPa Charpy Impact Strength(notched) ISO 179 1.80 KJ/m2 Deflection Temperature , 8 Mpa ISO 75 1300 C Surface Resistivity IEC 60093 1.00E+10.5 Ohm Volume Resistivity IEC 60093 1.00E+11.5Ohm.cm Di Electric Strength IEC 60243 8.00 Kv/mm Proof Tracking Index IEC 60112 130 V Water Absorption ISO 62 55 mg Shelf Life - 6 months
Features : Straight Phenol Formaldehyde Resin with Cream to Pink Colour, in Free Flowing Powder Form. Colour : Cream Applications : Automotives, Industrial, Machine Tools, Motors, Power Tools. Components : Grinding Wheels and Abrasives. Properties Typical Value Appearance Cream To Pink Colour Melting Point 950 C Norton Flow @ 1250 C 57 mm GEL Time @ 1600 C 45 seconds Hexamine Content 8% Sieve Analysis + 200# 1% Shelf Life @ 250 C 6 months
Parameter Standard Specification Appearance Crystalline Free Flowing Flakes Colour White Para Dichloro Benzene % area (By GC) 99.80% Min Other Chloro Benzene % area (By GC) 0.20% Max Solidifying Point 52.80 C Boiling Point 1740 C Flash Point 65.50 C Moisture 0.03% Max Solubility Insoluble In Water & Soluble In Alcohol, Benzene & Ether
Molecular Formula C8H9ClO Molecular Weight 156.61 CAS No. 88-04-0 Description White Or Creamy White Crystals Or Crystalline Powder,Characteristic Odour, Volatile In Steam Solubility Insoluble In Water, Soluble In Methanol, Acetone,& Alkali Solution Related Impurities Total 1.5 % max. 3,5 Dimethyl Phenol
1,2,3-bezotriazol 1,2,4-tri Chloro Benzene 1,3,4-xylidine-5-sulphonic Acid 1,4-sulphophenyl-3-methyl-5-pyrazolone (Spmp) 2-aminophenol-4-sulphonic Acid(Oapsa) 2-chloro-4-nitro Aniline[ortho Chloro Para Nitro Aniline](Ocpna) 2-nitro-4-amino Diphenylene-4-sulphonic Acid(2-nadpsa) 2,4-di Nitro Aniline 2-4-di Nitro Chloro Benzene 2,4,5-tri Chloro Aniline 2,4,5-tri Chloro Nitro Benzene 2,5-dichloro Aniline(Scarlet Gg Base) 3-di Ethyl Amino Phenol (Demap) 3,3-di Chloro Benzedine Di Hydrochloride 3,3-di Chloro Benzene 3,4-di Chloro Aniline 3,4-di Chloro Nitro Benzene(3,4-dcnb) 4-chloro-2-amino Phenol[2-amino-4-chloro Phenol](4 Cap) 4-nitro-2-amino Phenol(4 Nap) 4-nitro-4-amino Diphemylene-2-sulphonic Acid(4-nadpsa) 4-sulpho Formazone Base 4,4 Diamino Sulphanilide 4,4 Diamino Benzsulphanilide (Dasa) 4,4-di Amino Benzidine-2,2-di Sulphonic Acid 4,4-di Amino Diphenyl-2,2-di Sulphonic Acid 4,4-di Amino Stilbene, 2:2 Di Sulphonic Acid (Dasda) 5-nitro-2-amino Phenol(5 Nap) 6-acetyl Amino-2-amino Phenol-4-sulphonic Acid 6-chloro Metanilic Acid 6-nitro 1-diazo 2-naphthol 4-sulphonic Acid 6-nitro-2-amino Phenol(6 Nap) Alpha Naphthylamine Amino G-acid Aniline-2,4-di Sulphonic Acid Anthranilic Acid Benzanthrone Benzyl Benzoate Chloranil Di Anisidine Base Di Mehtyl Sulphate F.c.acid(4,4-diamino Di Phenyl Amine 2-sulphonic Acid) Gamma Acid G-salt(2-hydroxy Naphthalene 6-8 Disulphonic Acid) H-acid(1-amino-8-napthol-3-6-di Sulphonic Acid) K Acid(Schaeffer's Acid )(2-hydroxy Napthalene-6-sulphonic Acid) Meta Phenylene Di Amine Di Sulphonic Acid (Mpddsa) Meta Phenylene Di Amine-4-sulphonic Acid(Mpdsa) Meta Ureido Aniline(Mua) Metanilic Acid N-methyl J-acid N-phenyl J-acid Ortho Amino Phenol 4 Sulfonamide (O.a.p.s.a Amide) Ortho Anisidine Para Sulphonic Acid (Oapsa) Ortho Chloro Para Nitro Aniline(Ocpna) Ortho Di Chloro Benzene[1,2-di Chloro Benzene](Odcb) Ortho Dianisidine Base Ortho Nitro Chloro Benzene (Oncb) Ortho Nitro Chlorobenzene 4-sulphonic Acid(Oncbsa) Ortho Tertiary Butyl Cyclo Hexyl Acetate Ortho Toluidine Para Amino Acetanilide-3-sulphonic Acid(Paa 3sa) Para Amino Azo Benzene 4 - Sulfonic Acid (Paab 4sa) Para Amino Azobenzene-3-4-di Sulphonic Acid(Oncbsa) Para Amino Azobenzene-4-sulphonic Acid Para Anisidine Ortho Sulphonic Acid Para Anisidine-3-sulphonic Acid Para Chloro Ortho Nitro Aniline[4 Chloro 2 Nitro Aniline](Pcona) Para Di Chloro Benzene(Pdcb) Para Nitro Aniline 2-sulphonic Acid Para Nitro Aniline(Pna) Para Nitro Chloro Benzene Ortho Sulfonic Acid(Pncbosa) Para Nitro Chloro Benzene(Pncb) Para Phenylene Diamine Di Sulphonic Acid(Ppddsa) Phenyl Hydrazine Para Sulphonic Acid R Salt Resist Salt Sodium Naphthionate Sodium Sulphanilate Sulphamic Acid Sulphanilic Acid Sulpho Tobias Acid Tertiary Butyl Catechol[1,2 Dihydroxy-4,tertiary Butyl Benzene] Vinyl Sulphone Ester Acetanilide Base Vinyl Sulphone Ester Ortho Anisidine Base Vinyl Sulphone Ester Para Base Ester
Product Metal Content Cobalt Octoate 3% / 6% / 8% / 10% / 12% Manganese Octoate 6% / 8% / 10% Lead Octoate 18% / 24% / 32% / 36% Calcium Octoate 3% / 5% / 10% Zinc Octoate 6% / 12% / 16% / 18% Zirconium Octoate 6% / 12% / 18% / 24% Copper Napthanate 6% / 8% / 8.6% / 10% Barium Octoate 12% Cadmium Octoate 15.5% Potassium Octoate 10% / 15% Cerium Octoate 6% / 8% / 10% / 12% Nickel Octoate 6% / 8% / 10% / 12% Strontium Octoate 6% / 10% Iron Octoate 6% We also offer Combination Driers
Appearance Pale yellow clear viscous liquid. Solids 35 % +/- 1 Sodium Chloride 6 % max. pH (5% aqueous solution in D.W.) 5.5 to 7.5 Applications: - It is used mainly for shampoo as conditioner
Carbon Chain Distribution by GLC (%) C14 C16 C18 1.0 max. 99.0 min. 1.0 max. Appearance Fused / Flakes Hydrocarbons (% by wt) 0.5 max. Moisture (% by wt) 0.10 max. (Fused) 0.15 max. (Flakes) Acid Value 0.05 max. Saponification Value 0.20 max. Iodine Value 0.20 max. Avg. Molecular Weight 238 - 246 Hydroxyl Value 227 - 235 Solidification Range (C) 47 - 50 Flash Point (C) Ca 175 Density (gms/cc) @ 60C 0.805 - 0.815 Colour (apha) 10 max. Boiling Range (C) 305 - 320 Carbonyl Value (as ppm CO) 50 max.