Water treatment for disinfection, odour control and maintaining B.O.D. levels
Pickling agent in steel industry for descaling and degreasing
Fumigation of Poultry farms, hatcheries and hospitals
Air purification for odour control and increased oxygen levels
Non-ferrous, metal and metal salts industry for removal of ferrous impurities
Oxidizing and removal of ferrous impurities from inorganic chemicals
Pharmaceutical intermediate manufacture
Organic intermediates and chemicals manufacture
Repacking industry for various institutional, medicinal and household uses
Disease control and disinfection in aquaculture and mushroom culture
Pre-treatment of wood and wooden furniture
Glass industry for coloring and removal of impurities
Welding electrode industry for manufacture of fluxes
Textile processing for bleaching and stain removal
Soil remediation
Forward integration to Sodium Permanganate
Aquaculture / fish culture
Sodium Saccharine
Glycerol (also called glycerine or glycerin) is a simple polyol compound. It is a colorless, odorless, viscous liquid that is sweet-tasting and non-toxic. The glycerol backbone is found in those lipids known as glycerides. Due to having antimicrobial and antiviral properties it is widely used in FDA approved wound and burn treatments. It can also be used as an effective marker to measure liver disease. It is also widely used as a sweetener in the food industry and as a humectant in pharmaceutical formulations. Owing to the presence of three hydroxyl groups, glycerol is miscible with water and is hygroscopic in nature.
APPLICATION:
It is an ingredient of processing aid in cosmetics, toiletries, personal care, drugs, and food products. Its functions act as a denaturant, humectant, solvent, and perfuming.
Diethylene glycol (DEG) is a clear, colorless, odorless liquid with a sweet taste, and is an excellent solvent for water-insoluble chemicals and drugs. DEG is used as a component of multiple different products including antifreeze preparations, cosmetics, lubricants, brake fluids, wallpaper strippers, heating/cooling fuel and as a plasticizer. DEG has also been inappropriately substituted in pharmaceutical preparations for nontoxic constituents, resulting in more than a dozen epidemics of human poisoning, with resultant high mortality rates. The hallmark of DEG toxicity is acute renal failure, and deaths have been reported despite aggressive treatment with hemodialysis.
APPLICATION:
Diethylene Glycol is used as a dehydrating agent for natural gas; a raw material for the production of plasticizers and polyester resins; a humectant; a textile lubricant and coupling agent; a solvent in textile dyeing and printing; a constituent of hydraulic fluids; a plasticizer for paper, cork and synthetic sponges; a solvent in printing inks; a raw material for the production of esters used as emulsifiers, demulsifiers, and lubricants; and a selective solvent for aromatics in petroleum refining.
It is an excellent cationic softener, cold water rapid soluble for cotton, terry cotton knitted blend fabrics, and for resin processing industry. It has a very good hand feeling and antistatic properties. Because of its low-yellowing specific characteristic, it is very suitable for blue and white jeans laundry or stone-washing processing.
HIGHLIGHTS
Gives very good surface smoothness & provides a non-greasy handle.
Imparts full and fluffy feel to garments and hosiery.
Exhibits lubricating properties thus improves liability.
Being economical and substantive can be incorporated in compatible finish recipes for achieving cost effective but rich feel. (E.g. with Silicon formulation)
Applicable for cellulosics and its blends by exhaust as well as padding method.
Cold water soluble.
A binder or binding agent is any material or substance that holds or draws other materials together to form a cohesive whole mechanically, chemically, by adhesion or cohesion.
In a more narrow sense, binders are liquid or dough-like substances that harden by a chemical or physical process and bind fibres, filler powder and other particles added into it. Examples include glue, adhesive and thickening.
APPLICATION
Pidicryl binder SUN is a new generation binder used for pigment printing on cotton, viscose, polyester blends and others. It is a Sun curable binder.
Pidicryl Binder PDN Special is a self-cross-linking acrylic copolymer emulsion used for pigment printing in textile industry.
Pidicryl Binder PDN is a self-cross-linking acrylic copolymer emulsion. It is specifically a kerosene based binder used for pigment printing in textile industry.
Pidicryl Binder N060 is a new generation binder formulated to give high precision and accurate print designs with excellent colour value. It is the finest emulsion to give an elastic, flexible, and transparent film.
Pidicryl Binder HS ECO is an extra soft binder used for pigment printing in textile industry. It gives brilliant and soft handle prints.
Pidicryl Binder CIL 100 is a special printing binder used for printing infant wears, cotton, blended fabrics, polyester, and others.
Pidicryl Binder BN is an acrylic emulsion with superior running properties. It is used for printing cotton, viscose material, cellulosic/polymer blends, and others.
Pidicryl FL 9400 is a self-cross-linking and self-thickening acrylic emulsion. It is used for khadi printing on synthetic fabrics, khadi, pearl, flocking, and others.
Pidicryl Binder MMG is a self-cross-linking acrylic copolymer emulsion. It is specially developed for printing gold or silver powders on textile fabrics.
BINDER SLN - Properties: 28% - 30% Active Strength, Appearance: Bluish Tint Liquid, Application: Printing Of Pigment Emulsion.
GOLD BINDER
JARI BINDER Appearence : Milky White Liquid, Application : Silver Printing In Textile.
FOAM BINDER -
PAPER BINDER
Ammonium sulfate [(NH) SO] was one of the first and most widely used nitrogen (N) fertilizers for crop production. Its now less common but especially valuable where both N and sulfur (S) are required. Its high solubility provides versatility for a number of agricultural applications.
APPLICATION
Used as slow releasing nitrogenous fertilizer & reach source of Sulphur nutrient.
Used as a raw material for various chemicals, dyes and pharmaceuticals.
TECHNICAL PROPERTIES
Moisture % by wt. Max.1.0
Ammoniacal Nitrogen percent by weight, min.20.5
Arsenic (as As2O3) % by wt. Max.0.01
Free acidity (as H2SO4) % by Wt. Max.0.025
Sulphate Sulphur (as S), % by Wt. Min.23
Carboxymethyl cellulose (CMC) is water-soluble cellulose ether produced by the partial substitution of the cellulose hydroxyl groups with ionic hydrophilic moieties. It is a cellulose derivative that consists of the cellulose backbone made up of glucopyranose monomers and their hydroxyl groups bound to carboxymethyl groups. It is added in food products as a viscosity modifier or thickener and emulsifier. It is also one of the most common viscous polymers used in artificial tears, and has shown to be effective in the treatment of aqueous tear-deficient dry eye symptoms and ocular surface staining. The viscous and mucoadhesive properties as well as its anionic charge allow prolonged retention time in the ocular surface. Sodium carboxymethylcellulose is the most commonly used salt.
Besides controlling the rheology, CMC is known for its excellent water binding capacity, protein protection ability and film forming properties.
APPLICATION
Beverages
Papermaking
Mining
Household Products
Health & Personal Care
FUNCTION
Rheology Modification
Water-Binding
Film-Forming
Protein Protection
Particle Stabilization
Sodium metabisulfite appears as a white crystalline or powder solid with a slight sulfur odor. The substance is sometimes referred to as disodium metabisulfite. It is used as a disinfectant, antioxidant, and preservative agent.
Sodium metabisulphite is used as an antioxidant agent in many pharmaceutical formulations. It is extensively used as a food preservative and disinfectant. It has been demonstrated that sulphite exposure can affect some organs.
APPLICATION
Food preservation and additive
Sanitization and cleaning agent
Photography
Fungicide
Preservatives and Antioxidants
MEDICATION
Bleaching agents
Fillers
Functional fluids (open systems)
Laboratory chemicals
Solvents (for cleaning and degreasing)
Water treatment
Propylene glycol is a synthetic liquid substance that absorbs water. Propylene glycol is also used to make polyester compounds, and as a base for deicing solutions. Propylene glycol is used by the chemical, food, and pharmaceutical industries as an antifreeze when leakage might lead to contact with food.
It is a solvent for food colors and flavors, and in the paint and plastics industries. Propylene glycol is also used to create artificial smoke or fog used in fire-fighting training and in theatrical productions. Other names for propylene glycol are 1,2-dihydroxypropane, 1,2-propanediol, methyl glycol, and trimethyl glycol. Propylene glycol is clear, colorless, slightly syrupy liquid at room temperature. It may exist in air in the vapor form, although propylene glycol must be heated or briskly shaken to produce a vapor. Propylene glycol is practically odorless and tasteless.
An ingredient found in many personal-care products like shampoo, hair conditioner, and styling product, propylene glycol is widely used because of its relatively low cost and versatile nature. Its inclusion in a formula can fulfill a variety of purposes, which makes it a popular choice by the cosmetics chemist. However, some manufacturers have recently made the decision to no longer include propylene glycol in their products.
Optical brighteners, optical brightening agents (OBAs), fluorescent brightening agents (FBAs), or fluorescent whitening agents (FWAs), are chemical compounds that absorb light in the ultraviolet and violet region (usually 340-370 nm) of the electromagnetic spectrum, and re-emit light in the blue region (typically 420-470 nm) by fluorescence. These additives are often used to enhance the appearance of color of fabric and paper, causing a "whitening" effect; they make intrinsically yellow/orange materials look less so, by compensating the deficit in blue and purple light reflected by the material, with the blue and purple optical emission of the fluorophore.
Optical brightening agents (OBAs) are chemicals that are added to everything from linen slacks and silk blouses to socks and underwear. They use the process of fluorescence to trick your eyes into believing your clothes are whiter and brighter than they actually are. To ensure your garments enhance and retain this whiter than white appearance, many laundry detergents contain optical brighteners, too.
APPLICATION
Clear and pigmented lacquers
Paints
Molded thermoplastics
Films and sheets
Printing inks
Synthetic leather
Ultraviolet tracer
Photo processing solutions
Adhesives
Fibers
Thin layer chromatography (TLC)
Overprint varnishes
Printing inks
Silicone Softener is a reactive cationic silicone softner designed for use on cotton, synthetics and blends, wovens, non-wovens, knits and flocked goods, apparel, sheeting and upholstery fabrics. It is non-yellowing and is compatible with other typical resin finishing bath components, including durable press resins, organic softeners, etc. The product imparts a silky, slick hand to treated fabrics.
APPLICATION
Polyester finishing - For disperse / cationic dyed polyester fabric /yarn / fiber, dosage is 2 to 15 gpl or 0.2% to 1.5% at 70% expression. It gives bouncy, soft and smooth result with good fall to polyester varieties.
PC / PV fabric - Combination of other finishing agents + VELVETROL 5 to 10 gpl or 0.5% to 1.0% at 70% expression will give good slippery feel with bounce.
Shirting - Combination of cationic softener (Lush feel/local ) + VELVETROL 6 to 10 gpl
Velvet fabric - 2 gpl to 10 gpl
PEG 400 (polyethylene glycol 400) is a low-molecular-weight grade of polyethylene glycol. It is a clear, colorless, viscous liquid. Due in part to its low toxicity, PEG 400 is widely used in a variety of pharmaceutical formulations.
TECHNICAL PROPERTIES
Density:1.13 g/cm³
Formula:C2nH4n+2On+1,n=8.2to9.1
Molar mass:380-420 g/mol
Viscosity: 90.0 cSt at 25 °C, 7.3 cSt at 99 °C
Melting point:4 to 8 °C (39 to 46 °F; 277 to 281 K)
Flash point:238 °C (460 °F; 511 K)
CELLOSIZE hydroxyethyl cellulose (HEC) is a nonionic, water-soluble polymer that can thicken, suspend, bind, emulsify, form fi lms, stabilize, disperse, retain water, and provide protective colloid action. It is readily soluble in hot or cold water and can be used to prepare solutions with a wide range of viscosities. It has outstanding tolerance for dissolved electrolytes.
CELLOSIZE HEC offers narrow viscosity ranges, consistent viscosity reproducibility, and excellent solution clarities.
25KG BAG PACKING
MIN ORDER - 100KGS
1.Disperse dyes are nonionic dyes. So they are free from ionizing group.
2.They are ready made dyes and are insoluble in water or have very low water solubility.
3.They are organic coloring substances which are suitable for dyeing hydrophobic fibers.
4.Disperse dyes are used for dyeing man made cellulose ester and synthetic fibers specially acetate and polyester fibers and sometimes nylon and acrylic fibers.
5.Carrier or dispersing agents are required for dyeing with disperse dyes.
6.Disperse dyes have fair to good light fastness with rating about 4-5.
7.The wash fastness of these dyes is moderate to good with rating about 3-4.
8.Of all dyestuffs disperse dyes are of smallest molecular size.
9.Generally disperse dyes are derivatives of azo, anthroquinone, nitro and quinine groups.
10.They do not undergo any chemical change during dyeing.
11.In presence of nitrous oxide, textile materials dyed with certain blue and violet disperse dyes with an anthraquinone structure will fade. This is called gas fading of disperse dyes which is a defect of this dye.
Acid dyes are highly water soluble, and have better light fastness than basic dyes. The textile acid dyes are effective for protein fibers such as silk, wool, nylon and modified acrylics. They contain sulphonic acid groups, which are usually present as sodium sulphonate salts. These increase solubility in water, and give the dye molecules a negative charge. In an acidic solution, the -NH2 functionalities of the fibres are protonated to give a positive charge: -NH3+. This charge interacts with the negative dye charge, allowing the formation of ionic interactions. As well as this, Van-der-Waals bonds, dipolar bonds and hydrogen bonds are formed between dye and fibre. As a group, acid dyes can be divided into two sub-groups: acid-leveling or acid-milling.
We are importer and supplier of flock powder in india since 1980,for textile,paper plastic and many application use,we have always 20 color ready in 0.4 to 2.5 mm size. Owing to our years of industry experience and precise knowledge in this domain, we are offering an outstanding assortment of Velvet Powder for velvet bindi, velvet gift items & to make velvet pencil.
Features:-
Precisely processed
Balanced composition
Moisture proof packaging
APPLICATION:
100% Nylon Flock Powder For Velvet Flocked Hanger
Viscose Flock Powder For Electrostatic Flock Printing
Cotton Flocking Powder For Textile
New Colors Fashion Nail Decoration Fuzzy Flocking Velvet Nail Powder For Nail Art Tips
Dye fixer is a chemical called sodium carbonate or soda ash. Highly proven polymeric dye fixing agents impart bleed free dyeing on cotton.
APPLICATION
Wear gloves to keep it from irritating your skin and avoid splashing it into eyes to avoid irritation and burning; treat it as you would a strong soap. Step 3: Soak Fabric. Soak the material to be dyed in the dye fixer solution.
TECHNICAL PROPERTIES
Appearance: Colourless liquid
Mild viscosity
Chemical composition: Modified melamine formaldehyde resin condensate
TYPES
Pidifix 361 is a cross-linking polymer fixer used as in pigment printing.
Pidifix 471 is a fixer used in pigment printing. It is a cross-linking agent used for product finishing.
Urea resin derivative - Very low formaldehyde dye fixing chemical for direct and reactive dyed on printed fabrics
Urea resin derivative - Cationic formaldehyde free fixing agent for direct and reactive dyeing and prints.
Epoxy resin derivative - Conventional cationic fixing agent for direct and reactive dyeing and prints
Epoxy resin derivative - Non formaldehyde fixative for reactive and direct.dyed or printed goods. Protect reactive dye covalent bonding from hydrolysis and thermal cracking.
Basic Dyes are cationic soluble salts of coloured bases. Basic dyes are applied to substrate with anionic character where electrostatic attractions are formed. Basic dyes are not used on cotton as the structures are neither planar nor large enough for sufficient substantivity or affinity. Basic dyes are called cationic dyes because the chromophore in basic dye molecules contains a positive charge. The basic dyes react on the basic side of the isoelectric points. Basic dyes are salts, usually chlorides, in which the dyestuff is the basic or positive radical. Basic dyes are powerful colouring agents.Its applied to wool, silk, cotton and modified acrylic fibres. Usually acetic acid is added to the dyebath to help the take up of the dye onto the fibre. Basic dyes are also used in the coloration of paper.
ADVANTAGES:-
High Tinctorial strength
Moderate substantively
Relatively economical
Wide shade range
Includes some of the most brilliant synthetic dyes
Shows good brightness
Solvent dyes for Inks for rotogravure and rubber stereo printing; for coating copying paper and typewriter ribbons; for ball point pens, and in printing inks as shading and brightening agents and for double tone effects.
2.Solvent dyes for Petrol & Fuel Oils
3.Solvent dyes for Wax & Candles
4.Solvent dyes for Cosmetics
5.Solvent dyes for Wood Stain, Spirit & Varnishes.
6.Solvent dyes for Coloration of molding powders, construction material of cellulose acetate, celluloid, polystyrene, polymethacrylates, PVC, P/F, U/F.
7.Solvent dyes for Leather- spray finishing of dyed & undyed leather.
8.Solvent dyes for Aluminum foil printing, transparent lacquers, nitrocellulose, cellulose acetate, vinyl, alkyd, other synthetic resins or shellac.
Yellow 2RLSYellow 62
Yellow RYellow 82
Yellow GLYellow 90
Brown 2RLBrown 43
Orange GOrange 56
Orange RLOrange 58
Fire Red GLSRed 89
Fire Red GRed 119
Pink 5BLGRed 127
Red 2BLRed 132
Blue 2GLNBlue 48
Blue FLEBlue 70
Black REBlack 27
Black RLBlack 29
1.Reactive dyes are anionic dyes, which are used for dyeing cellulose, protein and polyamide fibres.
2.Reactive dyes are found in power, liquid and print paste form.
3.During dyeing the reactive group of this dye forms covalent bond with fibre polymer and becomes an integral parts of the fibre.
4.Reactive dyes are soluble in water.
5.They have very good light fastness with rating about 6. The dyes have very stable electron arrangement and can protect the degrading effect of ultra-violet ray.
6.Textile materials dyed with reactive dyes have very good wash fastness with rating Reactive dye gives brighter shades and has moderate rubbing fastness.
7.Dyeing method of reactive dyes is easy. It requires less time and low temperature for dyeing.
8.Reactive dyes are comparatively cheap
9.Reactive dyes have good perspiration fastness with rating 4-5.
10.Reactive dyes have good perspiration fastness.
Acrylic (Cationic) Dyes are specially developed for dyeing Acrylic Fibre which is widely used in the manufacturing of Blankets, Carpets, Knitting Goods, Decorative Fabrics, Fur Toys, Dress Materials, Sarees, etc. These dyes are characterized by their strong tinctorial power, outstanding brightness and excellent fastness properties. They are also suitable for Dyeing and Printing which are free from German Banned Amines. They are water soluble mainly applied to acrylic fibres, but some use for wool and silk. Usually acetic acid is added to the dyebath to help the uptake of the dye onto the fibre.
APPLICATION:
Please refer to our technical for further information.
Sr. No.Product NameC.I. NameC.I. No.CAS No.
1 Yellow 10GFBasic Yellow 40-35869-60-4
2 Golden Yellow GLBasic Yellow 284805454060-92-3
3 Yellow 5GBasic Yellow 5148053883949-75-1
4 Yellow GRLBasic Yellow 2948053955777-80-5
5 Brilliant Red 5BLBasic Red 241108812899186
6 Red GTLBasic Red 18110854454925
7 Red 2BBasic Violet 16480136359-45-1
8 Red FLBasic Red 15--
9 Blue BBasic Blue 1-3251-6-0
10 Brilliant Blue 5GBasic Blue 3510044444-00-3
11 Blue RLBasic Blue 541105215000-59-6
12 Blue GRLBasic Blue 4111105
1115412270-13-2
13 Blue FGRLBasic Blue 41:1--
14 OrangeBasic Orange 22480404657-0-5
15 Briliant BrownBasic Orange 3011085512217-45-7
16 Red NV Basic Violet 11:1451747339889-7
APPLICATION:
Finishing Powders - COATING
Face Masks
Skin Lotions
Oral Supplements
Toothpaste
Printing & Printing Ink
Plastic
*Please refer to our technical for further information.
ADVANTAGES:-
1. Color changing by angles, magical color with a high mirror effect
2. Inorganic, Multilayer coating, Light bright and color
3. Nontoxic, odorless, good light/heat/weather resistance.
4. Free of heavy metal.
SHADES
White
Red
Golden
Copper
Two-tone colors
*ALSO, we can develop Pearlescent color based FLEXO INKS-WATER BASE.
In the pharmaceutical industry, it acts as a wetting agent, stabilizing agent and a choline enrichment carrier, helps in emulsification and encapsulation, and is a good dispersing agent. It can be used in manufacture of intravenous fat infusions and for therapeutic use.
In animal feed, it enriches fat and protein and improves pelletization.
In the paint industry, it forms protective coatings for surfaces with painting and printing ink, has antioxidant properties, helps as a rust inhibitor, is a colour-intensifying agent, catalyst, conditioning aid modifier, and dispersing aid; it is a good stabilizing and suspending agent, emulsifier, and wetting agent, helps in maintaining uniform mixture of several pigments, helps in grinding of metal oxide pigments, is a spreading and mixing aid, prevents hard settling of pigments, eliminates foam in water-based paints, and helps in fast dispersion of latex-based paints.
Lecithin also may be used as a release agent for plastics, an antisludge additive in motor lubricants, an antigumming agent in gasoline, and an emulsifier, spreading agent, and antioxidant in textile, rubber, and other industries.
Food additive - The nontoxicity of lecithin leads to its use with food, as an additive or in food preparation. It is used commercially in foods requiring a natural emulsifier or lubricant.
Dietary supplement - Because it contains phosphatidylcholines, lecithin is a source of choline, an essential nutrient.
Laminates of fabrics, and fabrics with other substrates, are a recent development in the long history of fibers, textiles and fabrics. Woven cloth has been known since antiquity; fabric laminations have become widely used only in the past forty yearswith the development of synthetic fibers and the adhesives needed to provide functional bonding.
End uses range from the purely decorative, as in a variety of fashion applications, to the highly functional as, for example, in the fabric/film composite increasingly used for industrial, agricultural and marine coverings. The range of substrates and the diversification of end uses grows constantly. Because of this diversity, an appreciation of the substrates, the adhesives available, and the processes used to combine them becomes of increasing importance for converters intent on obtaining optimum properties through lamination.
We at RITU DYE CHEM have invested lot of years in gaining expertise in adhesives for all types substrates with rise in technology.
Textile industry sizing, finishing and printing
Paper industry improved sheet formation, folding and denser surface for printing
Explosives industry as waterproofing agent mixed with ammonium nitrate, nitroglycerin, etc.
Pharmaceutical industry as binder or as disintegrator in tablets; main ingredient in some bulk-forming laxatives
Cosmetics and toiletries industries thickener in toothpastes, conditioner in shampoos (usually in a chemically modified version)
Hydraulic fracturing - Shale oil and gas extraction industries consumes about 90% of guar gum produced from India and Pakistan
Food industry - ice cream, yogurt, salad dressing, gluten-free baked goods, gravies, sauces, kefir, breakfast cereals, vegetable juices, pudding, soup, cheese.
Xanthan Gum is a high molecular weight polysaccharide, produced through the fermentation of carbohydrates such as corn, using a microbe called xanthomonas campestris. Xanthan gums unique molecular structure imparts special functional characteristics in aqueous systems, such as stabilizing and thickening, suspending, rheology modification, bonding and foam enhancement. Xanthan gum is a widely used GRAS food ingredient, with proven functionality and safety in a wide range of food and beverage products, offering these characteristics:
Hot and cold water solubility
High viscosity at low concentrations
Pseudoplastic rheological flow viscosity recovery after shear ceases
Emulsion stabilization
pH stability over a broad range
Stability in high-salt systems
Stability in wide temperature range
Freeze/thaw stability
Compatibility with other gums
APPLICATION:
Food Products
Salad dressings
Bakery products
Fruit juices
Soups
Ice creams
Sauces and gravies
Syrups
Gluten-free products
Low-fat foods
Personal Care Products
Toothpaste
Creams
Lotions
Shampoo
Industrial Products
Fungicides, herbicides and insecticides
Tile, grout, oven and toilet bowl cleaners
Paints
Fluids used in oil drilling
Adhesives like wallpaper glue
Monoethylene Glycol (MEG) or ethylene glycol is one of the important commercially available glycol. It is produced industrially from ethylene or ethylene oxide. In this process of manufacturing MEG two co-products are obtained, diethylene glycol (DEG) and triethylene glycol (TEG).
It is an important raw material for the number of industrial applications including manufacturing of polyester fiber, fabrics and polyethylene terephthalate used to manufacture bottles. Other industrial uses comprise of being used as a coolant, heat transfer agents, antifreeze and also as a hydrate inhibitor in gas pipelines.
APPLICATION:
Chemical Intermediate for Resins - Polyester resins, Resin esters as plasticizers, Alkyd-type resins
Solvent Coupler - Stabilizer against gel formation, Freezing point depression, Heat transfer fluids, All weather anti-freeze and as coolants, Water-based formulation
Solvent - Medium for suspending conductive salt in electrolytic capacitors
Humectants - Textile Fibers, Paper & Leather, Adhesives & Glue
Chemical Intermediate - Used as Solvents
A defoamer or an anti-foaming agent is a chemical additive that reduces and hinders the formation of foam in industrial process liquids. The terms anti-foam agent and defoamer are often used interchangeably. Strictly speaking, defoamers eliminate existing foam and anti-foamers prevent the formation of further foam. Commonly used agents are insoluble oils, polydimethylsiloxanes and other silicones, certain alcohols, stearates and glycols. The additive is used to prevent formation of foam or is added to break foam already formed.
In industrial processes, foams pose serious problems. They cause defects on surface coatings and prevent the efficient filling of containers. A variety of chemical formulae are available to prevent formation of foams.
APPLICATION
Pharmaceuticals
Textile Industry
Paints & coatings
Paints & coatings
Detergents
Surfactants
Paper and pulping industry
Oil refining and crude oil
Microbiological fermentation
TECHNICAL PROPERTIES
Anti-foaming agents
Contain silicone oil and surfactants
Reduce the formation of foam
Control the generation of foam on surface of liquid
Used in industrial processing liquids
Low viscosity & surface active properties
Affinity to the air-liquid surface
A biocide is a type of chemical or microorganism that can deter, render harmless or exert a controlling effect on harmful organisms by chemical or biological means. They are industrially important as disinfectants, oxidizing agents and preservatives.
APPLICATION
Medicine
Agriculture
Forestry
Industry
Anti-fouling agents & disinfectants
Consumer products - e.g. building materials, cosmetics, household cleaning products, furniture, textiles, and wallpaper, cosmetics, cleaning products
Food production
Water treatment
Container disinfection in transport
SAFOLITE is the Sodium salt of Hydroxymethanesulphinic Acid. The key uses of this product are, as a discharge agent in textile printing, as redox catalyst in polymerisation process for manufacturing polymer/synthetic rubber such as ABS, SBR, NBR, and as an antioxidant in drug formulations.
The pure form of Safolite, we process are also known as Sodium Formaldehyde Sulphoxylate. Owing to features like effectiveness, accurate composition and precise pH value, these chemicals are widely used in Textile and Pharmaceutical & Formulation Industries. Furthermore, we have the provision to offer all our products with customized facility as per the specifications of the clients.
APPLICATION
Textile - Used as a colour discharge printing agent on cotton and synthetic fabrics.
Pharmaceuticals - Used as a stabilizer / antioxidant in a wide range of drug formulations
Polymer - Used as a redox catalyst in emulsion polymerisation process for manufacturing ABS, SBR, X-SBR, NBR, CR, PVC-latices, PVA, EVCL, PCE, Vinyl Acrylate and Styrene Acetate
Denim Discharge is used to achieve a white discharge effect on indigo dyed fabrics with reduced health and safety issues compared to Potassium Permanganate, with no degradation of the fabric.
APPLICATION:
Paste - can be used as paste which can be directly applied to fabric
Liquid can be used in the form of liquid for different requirement.
Spray can be used in the form of spray for lower application.
*Please refer to our technical for further information.
Advantages:-
Cost effective
Easy to use
Easy to handle
Long shelf life
Fluorescent pigment for paper coating.
Fluorescent pigment for Textile.
Fluorescent pigment for Ink.
Fluorescent Pigments For Murti Coloring.
Fluorescent Pigments For Rubber Coloring.
Fluorescent Pigments For Wax Coloring.
Fluorescent pigment for Plastic.
Fluorescent Pigments For Paint Industries.
Shades Red, Green, Yellow, Orange, Magenta, Pink, Violet
Pigment Paste
An aqueous pigment dispersion used for pigment printing on textiles.
Pigment Paste caters to diverse needs of paper, plastic, textile industry sectors. Made by dispersing dry pigment powders in unsaturated polyester resin, manufactured from GOOD quality raw materials.
ALL SHADES AVAILABLE.
STANDARDIZED PRODUCTS.
SHADES MARKED UNDER INTERNATIONAL STANDARDS.
FINE MESH SIZE. GOOD QUALITY INGREDIENTS.
1KG BOTTLE PACKING
5KG JERRY CAN PACKING
30/50KG OPEN TOP DRUM
It is thick, highly covering paste for Direct printing, prints have a soft hand finish, Generally plastisol prints should be cured at 170o C -180o C the amount of time it takes for curing depend upon the color and thickness of the ink deposit, an initial test to determine cure is, after curing and cooling, the print should feel dry and firm when rubbed with your thumb, It should be able to stretch and relax without excessive cracking.
Shelf Life: PVC Plastisol ink is not subject to a particular limitation of its shelf life but have tendency to increase in viscosity when stored for longer period, care must taken to store in cool dry place away from direct sunlight.
TECHNICAL INFORMATION:
Main Composition: Admixture of PVC resin, Titanium Dioxide Colourants & Plasticizer
Appearance : Thick Paste.
Squeegee : Medium Durometer
Fabric : 60 to 140 cm for Direct Printing
Stencil : Direct, Indirect, Capillary film
Wash-up : Mineral spirits / non-hazardous screen washes
Reducer : Sofnol 40 upto 0.25% -0.5%
Curing / Fusion : 360o f / 180o C
Offset ink is a specific type of ink used in conjunction with offset printing presses such as those used to produce letterpress or lithography prints. Such ink must be specially formulated to resist other chemicals it will come in contact with on the printing press. It is crucial that offset ink resist water-in-ink emulsification. Offset ink needs to be very rich in pigment so that its full color vibrancy is perceptible, even in minute quantity.
SHADES - ALL COLOURS available.
We aim to develop better Printing Inks and Print Raw Materials that can successfully meet the changing industrial requirements. To ensure high standard production and customer satisfaction, these products are manufactured by using quality assured base materials that focuses on the flawlessness and quality attributes of our products.
Our inks possess different features like
High Color ViscosityExcellent Leveling
Fast DryingPerfect Gloss
Chemical ResistanceScuff Resistance
Water ProofingPerfect Mileage
We have the facility to develop customized color shades for our customers on demand.
Being one of the renowned firms in the industry, we are decidedly involved in providing a premium quality array of Stretch Khadi Chemicals. With our in-depth knowledge of this domain, we are actively engaged in offering an excellent quality assortment of Cotton Khadi Chemicals.
Stretch Khadi is an electrifying white ink used for fast and soft printing on Polyester, Nylon, Acrylic, Silk, Cellulosic and blended fabrics. The offered product is processed and formulated as per the set industry norms using pioneering procedures and premium grade chemical compounds at our advanced unit. Our given product is highly acknowledged for its accurate composition and long shelf life. The offered Stretch Khadi is stringently checked against different predefined parameters in order to ensure quality and flawlessness. Highly effective, long shelf life and balanced composition are qualities of offered product.
Water based FORMALDEHYDE, PVC, PHTHALATE, TIN and LEAD FREE white paste, for knitted and woven garments.
Types :-
Cotton Khadi-Self Curing Khadi For T-shirt And Non-woven
Stretch Khadi-For Knited Hoisery
Polyester Khadi-Exellent Fastness Soft Khadi For Polyester & Knited Fabrics
We aim to develop better Printing Inks and Print Raw Materials that can successfully meet the changing industrial requirements. To ensure high standard production and customer satisfaction, these products are manufactured by using quality assured base materials that focuses on the flawlessness and quality attributes of our products.
Our inks possess different features like
High Color Viscosity Excellent Leveling
Fast Drying Perfect Gloss
Chemical Resistance Scuff Resistance
Water Proofing Perfect Mileage
We have the facility to develop customized color shades for our customers on demand.
Fumed silica (CAS number 112945-52-5), also known as pyrogenic silica because it is produced in a flame, consists of microscopic droplets of amorphous silica fused into branched, chainlike, three-dimensional secondary particles which then agglomerate into tertiary particles. The resulting powder has an extremely low bulk density and high surface area. Its three-dimensional structure results in viscosity-increasing, thixotropic behavior when used as a thickener or reinforcing filler.
Fumed silica has a very strong thickening effect. Primary particle size is 550 nm. The particles are non-porous and have a surface area of 50600 m2/g. The density is 160190 kg/m3.
APPLICATION
Paints and coatings
Unsaturated polyester resins, laminating resins and gel coats
HTV- and RTV-2K-silicone rubber
Adhesives and sealants
Printing inks
Cable compounds and cable gels
Plant protection
Adhesives and sealants
Chemical mechanical planarization (CMP)
Coatings
Composites
Food additives
Greases
Pharmaceuticals
Printing and packaging
Silicone sealants
Skin and beauty care product
1.Economical dyeing with excellent tinctorial value and good build up properties.
2.Good overall colorfastness properties such as wash fastness, light fastness, perspiration fastness etc. Moderate fastness to crocking and poor fastness to chlorines bleaching agents such as bleaching powder and sodium hypochlorite.
3.Limited shade range to produce only dull shades and there is no true red dye in the range.
4.These dyes can be applied by exhaust, semi continuous or continuous dyeing methods on garment, yarn, knits, fabric as well as loose stock etc.
5.Available in powder, granules and liquid forms.
6.Sulphur black 1 is the major black dye used worldwide for dyeing of cellulosics.
7.The conventional dyeing process is not environment friendly due to pollution problems of sodium sulphide as well as sod/pot. Dichromates.
8.When dyed by using non polluting reducing and oxidizing agents the process is environment friendly.
Wetting agent (OT Paste) used for textile industry. Dioctyl sodium sulfosuccinate as OT Paste is a white wax like solid with characteristic odor. It is sparingly soluble in water and freely soluble in alcohol, glycerol, Carbon tetrachloride, acetone xylene.
It saponification value varies from 240-253 and is stable in acid and neutral solution. it hydrolyzes in alkaline solution.
OT Paste is used as a wetting Agent in textile industries. OT Paste Wetting Agents is anionic product, thick paste, 0.5% of weight of cotton fiber or cloth instantaneously wets it. These products are used in various chemical industries and are highly demanded by our clients.
It is also known as Docusate sodium salt sodium bis (2-ethyl hexyl) sulfosuccinate or BIS (2-ethylhexyl) sulfosuccinate, sodium salt surface. Active Agents are those that modify interfacial tension of water, usually substances that have one lipophillic and one hydrophillic group in the molecular and include soap, detergents emulsifier and wetting agents.
We are engaged in formulating quality RDCOT (OT Paste) for our reputed clients. Prepared using superior components, this paste is appreciated for accurate composition and stability. Owing to our sound infrastructure, we are able to formulate fine OT paste within the stipulated time frame. Used in various industries, we offer these to our clients at reasonable prices.
Our O.T. is a low foaming surface active agent. It is very powerful wetting & re-wetting agent. O.T. Finds extensive use in textile processing operation such as dyeing, bleaching, etc.
Features:
OT paste is an anionic wetting agent.
It is Transparent Gel
It finds application as rapid wetting agent in wetting of cotton yarn, rugs, carpets etc.
Chemically it is Dioctyl sulfosuccinate.
It is used to remove surface tension in water.
Titanium dioxide (TiO2) is a bright white substance used primarily as a vivid colorant in a wide array of common products. It also has a number of lesser-known qualities that make it an extremely useful and important ingredient in our battle to fight climate change and prevent skin cancer.
Prized for its ultra-white color, ability to scatter light and UV-resistance, TiO2 is a popular ingredient, appearing in hundreds of products we see and use every day, bringing significant benefits to our economy and overall quality of life.
APPLICATION
Pigment-grade Titanium Dioxide
Paints and Coatings
Plastics, Adhesives and Rubber
Cosmetics
Paper
Food Contact Materials and Ingredients
Ultrafine-grade, or Nanoscale Titanium Dioxide
Sunscreen
Catalysts
