Product Details:
Physical State | Powder |
Functions | Biocides, Antioxidants |
Molecular Formula | C8H16O8 |
Form of Chemicals | Solid |
Molecular Weight (g per mol) | 240.208 g/mol |
Packaging Size | 50 Kg,25 kg |
Grade Standard | Industrial Grade |
Categories | Food Additives |
Solubility | Insoluble in water |
Packaging Type | Bag |
Appearance | White or lightly yellow powder with no odor, no flavor and no poison |
Color | Light Yellow powder |
CAS Number | 9000-11-7 |
1.Structure-Sodium carboxymethylcellulose is typical ionic-type cellulose ether and the frequently used product is its sodium salt, as well as ammonium and aluminum salts. Sometimes, Sodium carboxymethylcellulose acids can be produced. When degree of substitution (that is, the average value of hydroxyl groups reacted with the substitution of each anhydrous glucose monomer) is 1, its molecular formula is [C6H7O2 (OH) 2OCH2COONa] n. With drying at the temperature of 105℃ and constant weight, the content of sodium is 6.98-8.5%.
2. Appearance and Solubility- The pure Sodium Carboxymethyl Cellulose is white or milk white fibrous powder or particles, odorless and tasteless. It is insoluble in organic solvents such as methanol, alcohol, diethyl ether, acetone, chloroform and benzene but soluble in water. Degree of substitution is an important factor influencing water solubility and the viscosity of Sodium carboxymethylcellulose also has a great effect on the water solubility.In general when the viscosity is within 25-50Pa•s and the degree of substitution is about 0.3, it shows alkaline solubility and while the degree of substitution is over 0.4, it shows water solubility. With the rise of DS, the transparency of solution improves accordingly. In addition, the replacement homogeneity also has an great effect on the solubility.
3. Hygroscopicity-Sodium carboxymethylcellulose equilibrium water content will increase with the rise of air humidity but decrease with the rise of temperature. At room temperature and average humidity of 80-85%, the equilibrium water content is more than 26% but moisture content in the products is lower than 10%, lower than the former. As far as its shape is concerned, even if the water content is about 15%, there seems no difference in appearance.
However, when the moisture content reaches above 20%, inter-particle mutual adhesion can be perceived and the higher the viscosity is, the more evident it will become. For these polarized high-molecular compounds like Sodium carboxymethylcellulose, the hygroscopic degree is not only affected by the relative humidity but also by the number of polarity. The higher the degree os substitution is, that is, the larger the number of polarity, the stronger the hygroscopicity will be. Moreover, crystallinity also affects it and the higher the crystallinity is, the smaller the hygroscopic will be.
4. Compatibility-Sodium carboxymethylcellulose has good compatibility with other kinds of water-soluble glues, softeners and resin. For example, it is compatible with animal glues, dimethoxy dimethylurea gel, Arabic gum, pectin, tragacanth gum, ethylene glycol, sorbitol, glycerol, invert sugar, soluble starch and sodium alginate. It is also compatible with casein, the compound of melamine- formaldehyde resin and ethylene glycol, urea formaldehyde ethylene glycol resin, methyl cellulose, polyvinyl alcohol (PVA), phosphate nitrilotriacetic acid, and sodium silicate but the degree is slightly poorer. 1% Sodium carboxymethylcellulose solution is compatible with most inorganic salts.
5. Dissociation Constant
In the giant polymer matrix of Sodium carboxymethylcellulose, there are plenty of electrolyzing groups (carboxymethyl groups). The acidity is similar to that of acetic acid and the dissociation constant is 5×10-5. The dissociation strength has an considerable effect on the electrical properties of Sodium carboxymethylcellulose.
names
Additional Information:
Product Details:
Minimum Order Quantity | 38 Kg |
Grade Standard | Industrial Grade |
Packaging Type | Drum |
State Of Matter | Liquid |
CAS Number | 126-97-6 |
Color | Transparent |
Concentration (%) | 95.00 to 100.00 |
Molecular Formula | C4 H11 N O3 S |
Molecular Weight (g per mol) | 153.20127000 |
Boiling Point (deg. Celsius) | 225.50 C. 760.00 mm Hg (est) |
Einecs-No | 204-815-4 |
Pressure Mpa | 0.031400 mm/Hg 25.00 C. (est) |
Synonyms | acetic acid,2-mercapto-,compd. with 2-aminoethanol (11) acetic acid,mercapto-,compd. with 2-a |
Thioglycolic Acid as an active material for cold wave permanents. Today mainly TGA salts are used in cosmetic applications for hair perms, straighteners and depilatories.
Ammonium Thioglycolate or Monoethanolamine Thioglycolate are used in cosmetics for hair perms and straigtheners whereas Calcium Thioglycolate and Potassium Thioglycolate are used in depilatories.
PropertiesMonoethanolamine Thioglycolate''s unique reducing properties of the SH-group opens the sulfur bridges in the ceratine structure of the hair. If this is done when the hair is wrapped around hair rollers, the hair structure is weakened. After rinsing in a second step the sulfur bridges are reconnected with an oxidizing chemical like hydrogenperoxide and the hair fibre gets its desired curled shape. These properties allow the use in hair perms as well as in hair straighteners. In the latter case the pH-value of the formulations is higher.
If the ammonia smell of a formulation with high pH-value containing Ammonium Thioglycolate (like in hair straighteners) is not desirable then the use of the nearly odorless Monoethanolamine Thioglycolate instead of Ammonium Thioglycolate is advantageous.
Additional Information:
Product Details:
Minimum Order Quantity | 100 Kg |
Usage/Application | All kinds of hair care products including shampoos,hair conditioners,hair balms,hair pomades and |
CAS Number | 96690-41-4 |
Color | Yellow |
Grade | COMSETICS |
Form | LIQUID |
Gender | Unisex |
CAS: 96690-41-4
INCI Name: Hydrolyzed silk protein
Benefits:
Use: Can be added to formulas as is; add to water-phase of formula or at the end of the formula. Recommended use level 0.5 - 10%. Store in refrigerator. For external use only.
Applications: All kinds of hair care products including shampoos, hair conditioners, hair balms, hair pomades and also skin care products including lotions and creams.
Country of Origin: INDIA
Raw material source: Cocoons of the silkworm moth
Manufacture: Hydrolyzed silk protein is made by isolating silk thread from the cocoon and cleansing and degumming the fibers. The individual silk fiber is then wound with other silk fibers to create one long thread. The threads are then combed to remove noils which are then used in the production of hydrolyzed silk proteins through controlled hydrolysis.
Animal Testing: Not animal tested
GMO: GMO free. Gluten-free.
Vegan: Derived from silk worms
Product Details:
Minimum Order Quantity | 16000 Kg |
Form | Powder, Liquid |
Source | Natural |
Concentration | 0.3, 0.32, 0.33, 0.35, 0.1 |
Packaging Type | Drum, Bottle, Barrels |
Grade Standard | Industrial Grade |
Hydrochloric acid (HCl), also known as muriatic acid, is a colorless or slightly yellow liquid that is toxic and corrosive. It is used in many different applications, including the production of chlorides, the refinement of ore and the production of metals like tantalum and tin. Because HCl is a powerful acid, it is often used to neutralize a basic system of several different varieties.
There are several places HCl is used and found industrially, and its specific use can help to determine potential storage challenges.
Hydrochloric Acid In NatureInterestingly enough, HCl can be found in the human stomach. It's part of our gastric acid and forms an important part of our digestive system. Although it is quite damaging, the stomach is protected from damage by a secretion of a thick layer of mucous as well as a hormone called secretin. In some cases, people might suffer from indigestion or even a stomach ulcer as a result of this acid that is not handled properly by the built-in mechanisms of the body
This is not the only place we find it working, it has a variety of uses across multiple industries.
What is Hydrochloric Acid Used ForHere are the top 10 industrial Hydrochloric Acid uses
Manufacturing organic compounds like dichloroethane and vinyl chloride, which are used to manufacture PVC (Poly Vinyl Chloride)Regulating the pH level of a wide variety of manufacturing processes including the production of drinking water, foods and pharmaceuticalsLowering the pH or total alkalinity of the water in swimming pools to optimal levels for swimmers.Purifying table saltPickling Steel - removing rust and scale from a steel coil or sheetProcessing leathers in the leather tanning industryRegenerating ion exchangersProducing inorganic compounds such as ferric acid and aluminium chlorohydrate for water treatmentAssisting oil well productionProcessing various additives like fructose, citric acid and hydrolyzed vegetable proteinHow Do you Effectively Store Hydrochloric AcidPoly Processing provides a complete chemical storage tank system for all the industries mentioned above and more, and our storage tanks are certified to NSF/ANSI Standard 61. This is a set of standards that relates to water treatment as well as the stringent requirements for the control of equipment used in water products and potable water. Since correct storage methods are so important, we offer various storage tank systems to best meet your needs, depending on where it is stored and what it is used for.
Additional Information:
Product Details:
Functions | Biocides |
Packaging Size | Standard |
Packaging Type | Standard |
Grade Standard | Industrial Grade |
Color | Yellow |
Additional Information:
Product Details:
Minimum Order Quantity | 1000 Kg |
Form | Powder |
Packaging Size | 20Kg |
Grade Standard | Cosmetic Grade |
Packaging Type | Bag |
Colour | White |
Usage/Application | Gelling agent |
We deal in both organic and inorganic chemicals, and therefore our horizon of trade in the market has widened. Gradually, Trading on the industrial know-how and commitment towards excellence, we evolved as one of the leading suppliers of organic and inorganic chemicals catering to a number of domestic and international clients.
Additional Information:
Product Details:
Minimum Order Quantity | 100 Kilogram |
Usage/Application | Adhesive, Ceramic,Coating inks ,Membran,metalurgy,Paper |
Packaging Size | 25Kgs Bag |
Form | Powder |
Packaging Type | Bag |
Product Details:
Grade Standard | Reagent Grade |
Packaging Size | Standard |
Packaging Type | Bag |
Physical State | Powder |
Additional Information:
Product Details:
Form | Powder |
Usage/Application | Industrial |
Grade Standard | Technical Grade |
Product Details:
Physical State/Form | Liquid |
Usage/Application | Personal |
Panthenol is an active ingredient for sophisticated cosmetic skin care and hair care products. It improves the appearance of skin, hair and nails as well as being a soothing agent in oral care produts. D-Panthenol 75W is the provitamin of D-Pantothenic acid (Vitamin B5). D-Pantothenic acid plays a key role in the human intermediary metabolism. It is a part of the Coenzym A. Deficiency of Vitamin B5 results in many dermatological disorder. Coenzym A is important for:
Role in the skin:
Role in the hair: •
Role in nail care:
Additional Information:
Attributes
Guidelines
Decyl Glucoside Is Easily Thickened With::
Applications
Product Details:
Form | Liquid |
Usage/Application | Industrial |
Color | White |
Additional Information:
Product Details:
Minimum Order Quantity | 50 Kilogram |
Packaging Type | Drum |
CAS Number | 1310-65-2 |
Color | White Crystal |
Usage/Application | grease & Batteries other industrial purpose |
Molecular Formula | LiOH |
Melting Point | 462 C (864 F; 735 K) |
Density | 1.46 g/cm3 (anhydrous) 1.51 g/cm3 (monohydrate) |
Boiling Point | 924 C (1,695 F; 1,197 K) decomposes |
Molar Mass | 23.95 g/mol (anhydrous) 41.96 g/mol (monohydrate) |
Brand | Imported America |
Grade Standard | Technical Grade |
Physical State | Powder |
Appearance | hygroscopic white solid odorless |
Usage | Industrial |
Packaging Size | 25kg bag |
Synonyms | Lithine |
Lithium hydroxide monohydrate is a strong base that is only moderately soluble in water. The crystalline, hygroscopic substance is extracted from lithium carbonate or spodumene. Lithium hydroxide-based lubricating greases are highly water-resistant and have outstanding properties – both at very high and very low temperatures.
Examples of applicationsLithium hydroxide monohydrate plays an important role, especially in the production of lubricating greases. It is also used in the manufacture of cathode material for Li-ion batteries, and in the manufacture of glass as well as certain ceramic products. Thanks to its carbon dioxide-binding properties, it also finds application in air purification.
PackagingCompound Formula | H3LiO2 |
---|---|
Molecular Weight | 41.96 |
Appearance | White crystalline solid |
Melting Point | 462 °C (864 °F) |
Boiling Point | N/A |
Density | 1.51 g/cm3 |
Exact Mass | 42.029308 |
Monoisotopic Mass | 42.029308 |
Additional Information:
Product Details:
Minimum Order Quantity | 10 Unit |
Density (g/cm Cube) | 0.8153 g/cm3 (-20 C) |
Usage | Industrial |
Boiling Point (deg. Celsius) | -19 C (-2 F; 254 K) |
Physical State | Colorless gas |
Melting Point (deg. Celsius) | -92 C (-134 F; 181 K) |
Packaging Size | Customized |
Packaging Type | HDPE Bag |
Grade Standard | Technical Grade |
Molar Mass | 30.03 g mol -1 |
Formula | CH2O |
Other Name | Methyl aldehyde Methylene glycol Methylene oxide Formalin (aqueous solution) Formol Carbonyl hydride |
Our company has been successful in winning appreciation from the clients as one of the most prominent names in the trading of Embalming Fluid
Specialized pre-mixed embalming solutions.Arterial & cavity solutions available separately.Arterial fluid applies to all kind of cases and provides natural coloration and excellent preservation thorough tissue impregnation and saturation .Dilution 1:10.Cavity fluid ensures total saturation of thoracic & abdominal cavities.Provides effective cavity protection significantly reduces the development and proliferation of emphysema. Dilution 1:2Embalming chemicals are a variety of preservatives, sanitising and disinfectant agents, and additives used in modern embalming to temporarily prevent decomposition and restore a natural appearance for viewing a body after death. A mixture of these chemicals is known as embalming fluid and is used to preserve bodies of deceased persons for both funeral purposes and in medical research in anatomical laboratories. The period for which a body is embalmed is dependent on time, expertise of the embalmer and factors regarding duration of stay and purpose
Additional Information:
Product Details:
Minimum Order Quantity | 25 Kg |
Usage/Application | Industrial |
Packaging Size | 25 |
Grade Standard | Technical Grade |
Physical State | Powder |
Form | Powder |
Usage | Beverage ingredients Food ingredients Food preservatives Personal care ingredients Skin care ingredi |
Solubility In Water | Soluble in ethanol 100 mg/ml,chloroform,DMSO 30 mg/ml),and DMF 30 mg/ml). Insoluble in wat |
Appearance | Crystalline |
Chemical Formula | C15H24O |
Density | 1.05 g/cm3 at 20 C |
Melting Point | 69-73 C lit. |
Additional Information:
Product Details:
Raw Material | Wheat |
Brand | BODAR INDUSTRIES |
Packaging Size | AS |
Usage/Application | COMSETIC FORMULATION |
Ingredient Type | Wheat |
Speciality | SKIN CARE |
Product Details:
Functions | Surfactants |
Packaging Size | Standard |
Packaging Type | Glass Bottles |
Grade Standard | Industrial Grade |
Color | Yellow |
Material | Glass |
Additional Information:
Product Details:
Minimum Order Quantity | 25 Kilogram |
Form | Powder |
Types | Preventive |
Packaging Size | 25 kg |
Packaging Type | Bag |
Product Type | API |
tearamidopropyl dimethylamine sounds scary for two reasons: one, the -propyl ending is reiminiscent of isopropyl alcohol, that naughty drying alcohol that lends itself to snapping damaging and breaking natural hair.
Two, the dimeth- shares the same first 6 letters as dimethicone, a common silicone used in hair products. Anti-cone naturals may mistakenly associate this ingredient with a cone, when in fact, it is not.
In actuality, stearamidopropyl dimethylamine is touted as a silicone replacement, often used in place of or in conjunction with silicones in many conditioners. It is a cationic surfactant (positively charged) made from the rapeseed (more canola!).
What does it do
Stearamidopropyl dimethylamine binds to the hair, helps correct the negative charge of shampooing (like most conditioners), helps detangle, reduce flyaways and static, and helps smooth the cuticle. Unlike some silicones, it does not cause buildup
Additional Information:
Product Details:
Minimum Order Quantity | 16 Kilogram |
Type | Concentrated, Dilute |
Physical State | solid, Powder, Granules, Crystals, Liquid |
Purity | 0.98, 0.7, 0.93, 0.96, 0.99 |
Usage | Industrial |
Category | spent, Pure |
Grade Standard | Medicine |
Uses of Sulfuric Acid
Sulfuric acid is one of the most important industrial chemicals. More of it is made each year than is made of any other manufactured chemical; more than 40 million tons of it were produced in the United States in 1990. It has widely varied uses and plays some part in the production of nearly all manufactured goods. The major use of sulfuric acid is in the production of fertilizers, e.g., superphosphate of lime and ammonium sulfate. It is widely used in the manufacture of chemicals, e.g., in making hydrochloric acid, nitric acid, sulfate salts, synthetic detergents, dyes and pigments, explosives, and drugs. It is used in petroleum refining to wash impurities out of gasoline and other refinery products. Sulfuric acid is used in processing metals, e.g., in pickling (cleaning) iron and steel before plating them with tin or zinc. Rayon is made with sulfuric acid. It serves as the electrolyte in the lead-acid storage battery commonly used in motor vehicles (acid for this use, containing about 33% H2SO4 and with specific gravity about 1.25, is often called battery acid).
History of Sulfuric Acid
Although sulfuric acid is now one of the most widely used chemicals, it was probably little known before the 16th cent. It was prepared by Johann Van Helmont (c.1600) by destructive distillation of green vitriol (ferrous sulfate) and by burning sulfur. The first major industrial demand for sulfuric acid was the Leblanc process for making sodium carbonate (developed c.1790). Sulfuric acid was produced at Nordhausen from green vitriol but was expensive. A process for its synthesis by burning sulfur with saltpeter (potassium nitrate) was first used by Johann Glauber in the 17th cent. and developed commercially by Joshua Ward in England c.1740. It was soon superseded by the lead chamber process, invented by John Roebuck in 1746 and since improved by many others. The contact process was originally developed c.1830 by Peregrine Phillips in England; it was little used until a need for concentrated acid arose, particularly for the manufacture of synthetic organic dyes.
Additional Information:
Product Details:
Minimum Order Quantity | 16000 Kg |
Grade Standard | Technical Grade |
Usage | Industrial |
Physical State | Liquid |
Density (g/ml) | 867 |
Color | Colorless liquid |
CAS Number | 108-88-3 |
Boiling Point (deg. Celsius) | 110.6 |
Viscosity (cP) | 0.590 |
Molar Mass | 92.14 |
Melting Point | -95 |
Have you ever used or smelled paint or even paint thinner That scent is the smell of toluene. Toluene is a liquid chemical compound utilized in the manufacturing of many commercial products, including paints and glues.
Colorless and insoluble in water, toluene can be dangerous when its fumes are inhaled, causing neurological damage and intoxication. Because of this, toluene is sometimes abused as an inhalant drug. Individuals who use paints and thinners frequently, like those who work with such products professionally, wear face masks in order to minimize the inhalation of toluene.
Beyond its uses, however, toluene''s chemical structure is quite interesting of its own accord.
Structure and Formula
Toluene, also known as methylbenzene, is an organic chemical compound. It is categorized as such because of the presence of carbon (C) atoms in its chemical formula, C7H8. You may notice that the chemical formula of toluene (C7H8), has seven carbon (C) atoms and eight hydrogen (H) atoms. This is significant because it means that it is classified as ahydrocarbon, a compound that only contains carbon (C) and hydrogen (H) atoms.
Additionally, toluene is considered anaromatic compoundbecause a benzene ring is present in its chemical structure. Abenzene ringis present when there are six carbon (C) atoms that connect to one another with alternating double bonds, creating a hexagonal ''ring''. In the case of toluene, the carbon atoms are at each edge of the hexagon.
Because toluene is both an aromatic compound and a hydrocarbon, these name qualifiers may be combined, making the compound an aromatic hydrocarbon. The chemical structure also shows that there is a methyl group, which is -CH3 attached to the benzene ring, the reason why it is also called methylbenzene.
To make it a little clearer, here''s the chemical structure for toluene. The benzene ring is highlighted by the red box.
The following illustration shows two ways of drawing the structure of toluene; both are possibilities of how the benzene ring can be illustrated. On the left, the benzene ring is shown as a hexagon that has three double bonds, and on the right, the benzene ring is shown also as a hexagon, but with a circle inside.
Common Uses of Toluene
Toluene has many uses in a lot of commercial products and industrial applications. Let''s take a look at the common uses of toluene in various fields.
Toluene is a very good solvent because, unlike water, it can dissolve many organic compounds. In many commercial
Additional Information:
Product Details:
Minimum Order Quantity | 16000 Kg |
Form | Liquid |
Purity | 90-95%, 80-90%, 60-70%, 40-60%, 70-80% |
Category | Spent, Pure |
Molar Mass | 97.994 |
Soluble In | water |
Boiling Point | 158 |
Density | 1.88 |
Grade Standard | Industrial Grade |
Phosphoric acid, also called orthophosphoric acid, (H3PO4), the most important oxygen acid of phosphorus, used to make phosphate salts for fertilizers. It is also used in dental cements, in the preparation of albumin derivatives, and in the sugar and textile industries. It serves as an acidic, fruitlike flavouring in food products.
Pure phosphoric acid is a crystalline solid (melting point 42.35 Degree C, or 108.2 Degree F); in less concentrated form it is a colourless syrupy liquid. The crude acid is prepared from phosphate rock, while acid of higher purity is made from white phosphorus.
Phosphoric acid forms three classes of salts corresponding to replacement of one, two, or three hydrogen atoms. Among the important phosphate salts are sodium dihydrogen phosphate (NaH2PO4), used for control of hydrogen ion concentration (acidity) of solutions; disodium hydrogen phosphate (Na2HPO4), used in water treatment as a precipitant for highly charged metal cations; trisodium phosphate (Na3PO4), used in soaps and detergents; calcium dihydrogen phosphate or calcium superphosphate (Ca[H2PO4]2), a major fertilizer ingredient; calcium monohydrogen phosphate (CaHPO4), used as a conditioning agent for salts and sugars.
Phosphoric acid molecules interact under suitable conditions, often at high temperatures, to form larger molecules (usually with loss of water). Thus, diphosphoric, or pyrophosphoric, acid (H4P2O7) is formed from two molecules of phosphoric acid, less one molecule of water. It is the simplest of a homologous series of long chain molecules called polyphosphoric acids, with the general formula H(HPO3)nOH, in which n = 2, 3, 4, . . . . Metaphosphoric acids, (HPO3)n, in which n = 3, 4, 5, . . ., are another class of polymeric phosphoric acids. The known metaphosphoric acids are characterized by cyclic molecular structures. The term metaphosphoric acid is used also to refer to a viscous, sticky substance that is a mixture of both long chain and ring forms of (HPO3)n. The various polymeric forms of phosphoric acid are also prepared by hydration of phosphorus oxides.
Fertilizers are the dominant use of phosphoric acid. Other far smaller but still significant uses include food additive, cleaning products, and water treatment.
The most common source of phosphoric acid is an 85% aqueous solution; such solutions are colourless, odourless, and non-volatile. The 85% solution is a syrupy liquid, but still pourable. Although phosphoric acid does not meet the strict definition of a strong acid, the 85% solution is acidic enough to be corrosive. Because of the high percentage of phosphoric acid in this reagent, at least some of the orthophosphoric acid is condensed into polyphosphoric acids; for the sake of labeling and simplicity, the 85% represents H3PO4 as if it were all in the ortho form. Dilute aqueous solutions of phosphoric acid exist in the ortho form
Application
Pre-treatment chemicals for metal surfaces, detergents and cleaners, sugar refining, phosphates, edible oils, colas, bakery, cheese, pharmaceuticals, yeast formation, etc
Additional Information:
Product Details:
Minimum Order Quantity | 10 Kilogram |
Purity | 98 % |
Usage/Application | Industrial |
Brand | KRU |
Packaging Size | 5 kg |
Packaging Type | Packet |
Physical Form | Powder |
3V Sigma brand - made in italy.
we are leanding importer of these product.
Cationic quat conditioning agent, adheres readily to hair proteins. Provides superb wet combatibility, good manageability & curl retention. Builds viscosity making the use of an auxiliary thickener unnecessary.
Description: Thickening quat conditioner of the polymeric quaternary ammonium salt of hydroxyethyl cellulose. Light-yellowish powder, faint odor. Viscosity 1,000-2,500 cps. Easy soluble in water. pH value: 5.5 - 6.5 (2% solution).
Product Details:
Packaging Size | Standard |
Packaging Type | Standard |
Physical State | Liquid |
Usage/Application | Industrial |
Additional Information:
Product Details:
Functions | Surfactants |
Packaging Size | Standard |
Packaging Type | Glass Bottles |
Color | Yellow |
Grade Standard | Industrial Grade |
Material | Glass |
Additional Information:
Product Details:
Form | Crystal |
Additional Information:
Product Details:
Usage/Application | Easy incorporation in formulations due to complete water solubility.Compatible with a wide range of |
A derivative of Urea, that works as a strong moisturizer and humectant meaning that it helps the skin to cling onto water and thus to make it hydrated and elastic.
According to manufacturer''s data, Hydroxyethyl Urea has a similar moisturizing ability to glycerin (measured at 5%), but it feels nicer on the skin as it is non-sticky and non-tacky and gives a lubricous and moist feeling to the skin.
Glycerin is widely considered to be the industry bench mark for skin moisturization. It has been demonstrated by numerous methods to be an effective moisturizer when used at levels above 3%, although the choice of vehicle can influence performance. Glycerin is also associated with undesirable aesthetic characteristics such as tackiness, greasiness, residue and gloss during and after application.
Is there an alternative ingredient that moisturizes as well as glycerin but also has more favorable sensory attributes? The research suggests one such candidate is hydroxyethyl urea. A series of evaluations compared the two ingredients on the basis of water uptake and retention, moisturizing efficacy, sensory attributes and long-term moisturization. The two ingredients were also compared in formulation for their moisturizing efficacy and sensory characteristics. The result: hydroxyethyl urea was found to deliver moisturization efficacy comparable to glycerin, while offering some advantages in terms of sensory perception in skin care products.
The Ingredients Glycerin is a colorless and odorless moisturizing agent typically supplied at 86% or 99% active level. Traditionally, glycerin, also known as glycerol, is obtained through the saponification of triglyceride oils (derived from animal or vegetable sources) in soap manufacturing. Some major suppliers of glycerin are Cognis Corporation and Uniqema, the latter of whom provided the 99.???5% glycerin used in this research. Hydroxyethyl urea is a colorless and odorless moisturizing agent supplied as a 50% aqueous solution. Hydroxyethyl urea is created through a synthetic process. The hydroxyethyl urea used in these studies is a proprietary producta made by National Starch and Chemical, the only company that supplies this raw material to the personal care industry. Figure 1 shows the structures of glycerin and hydroxyethyl urea. For the complete article, click on "Purchase this article."
Product Details:
Minimum Order Quantity | 100 Kg |
Functunality | Low odor,low color cosmetic grade ethoxylated polydimethylsiloxane. It is a water-soluble silicone |
Product Details:
Minimum Order Quantity | 200 Kilogram |
Grade Standard | Technical Grade |
Physical State | Liquid |
Usage/Application | Industrial |
he peak occurred when parabens were the subject of widespread finger-pointing. To replace them and remove their names from increasingly scrutinized labels, manufacturers were looking for preservatives that would be effective in preserving products from microbiological damage, not too expensive, and… preferably unknown to the general public not to be likely to be rejected. MIT and MCIT filled all these criteria, even though their allergic potential was already well documented.
Both belong to the chemical family of isothiazolinones, biocidal substances whose effectiveness is known to halt bacterial development in preparations containing water, which is the case for the overwhelming majority of cosmetic products.
MIT (2-methyl-4-isothiazolin-3-one) can be used alone, but initially, it was more often used in combination with MCIT (5-chloro-2-methyl-4-isothiazolin-3-one), particularly in rinse-off personal hygiene products (shower gels, shampoos, body wash for babies, etc.). Like all preservatives officially listed in European laws, their use was regulated and limited to a maximum concentration of 0.0015% of the finished product, at a MCIT:MIT ratio of 3:1.
Later, the use of MIT alone became widespread in face and body care products and in wipes, and then in almost all cosmetic product types. Again, regulations set a limit of 0.01% of the finished product.
Product Details:
Treatment | Non-ionic, multi-purpose emulsifier (enables water and oil to mix) |
CAS: 9005-65-6
INCI Name: Polysorbate-80
Benefits:
Use: Can be added to formulas as is. Typical use level is 1 - 10%. For external use only.
Applications: Body washes, hair shampoos, hair loss treatments, lotions, creams, bath oils, solubilizates.
Manufacture: Polysorbate 80 is obtained by esterification of sorbitol with one or three molecules of a fatty acid including stearic, lauric, oleic, and palmitic acid.
Animal Testing: Not animal tested
GMO: Not tested for GMOs
Product Details:
Minimum Order Quantity | 500 Kg |
Material | White Powder |
Types | High Cal Lime, Type S, Type Sa, Type N, Type Na |
Packaging Size | 25 Kg |
Purity | 0.95, 0.9, 0.7, 0.85, 0.8 |
Packaging Type | Packet |
State | Powdered |
Form | Powder |
Color | White Powder |
Chemical Formula | Ca(OH)2 |
CAS Number | 1305-62-0 |
Density | 2.211 g/cm3,solid |
Flash Point | Non-flammable |
Molar Mass | 74.093 g/mol |
Odor | Odorless |
Calcium hydroxide is an inorganic compound used for many purposes. It is also called slaked lime, and its aqueous solution is called limewater.
Formula and structure: The chemical formula of calcium hydroxide is Ca(OH)2 and its molar mass is 74.09 g/mol.
This ionic compound has the calcium metal cation bonded to two hydroxide anions. In the solid form, calcium hydroxide exists in a polymeric structure facilitated by hydrogen bonding between the layers.
Occurrence: Calcium hydroxide occurs naturally, but rarely, in its mineral form as portlandite, which is found in some volcanic and metamorphic rocks.
Preparation: Calcium hydroxide is produced commercially by reacting calcium oxide (lime or quicklime) with water:
CaO + H2O → Ca(OH)2
It is also prepared on smaller scales by the reaction between aqueous calcium chloride and sodium hydroxide.
Physical properties: It is obtained as colorless crystals or a white powder with a density of 2.21 g/cm³ and melting point of 580 °C.
Chemical properties: Calcium hydroxide is relatively soluble in water. It partially dissolves in water to produce a solution called limewater, which is a moderate base. Limewater or aq. Ca(OH)2 reacts with acids to form salts, and it can attack some metals such as aluminum. Limewater readily reacts with carbon dioxide to form calcium carbonate, a useful process called carbonatation:
Ca(OH)2 + CO2 → CaCO3 + H2O
Uses: Calcium hydroxide has many industrial uses, such as in the Kraft paper process, as a flocculent in water and sewage treatment, in the preparation of ammonia, and as a pH modifier. It is also an important ingredient in cement, plaster and mortars. As a fairly non-toxic and mild base, it has many uses in the food industry, including pH adjustment, calcium fortification, digestion aid, and baking soda substitute.
Calcium oxide, CaO, also known as lime or more specifically quicklime, is a white or grayish white solid produced in large quantities by roasting calcium carbonate so as to drive off carbon dioxide. At room temperature, CaO will spontaneously absorb carbon dioxide from the atmosphere, reversing the reaction. It will also absorb water, converting itself into calcium hydroxide and releasing heat in the process. The bubbling that accompanies the reaction is the source of its name as “quick,” or living, lime. The reaction of quicklime with water is sometimes used in portable heat sources. One of the oldest known products of a chemical reaction, quicklime is used extensively as a building material. It is sometimes used directly as a fertilizer, although calcium carbonate is usually preferred for that purpose. Large quantities of quicklime are used in various industrial neutralization reactions. Limelights, used in the 19th century in stage lighting, emit a very brilliant white light upon heating a block of calcium oxide to incandescence in an oxyhydrogen flame, hence the expression “to be in the limelight.”
Additional Information:
Product Details:
Minimum Order Quantity | 100 Kilogram |
Grade Standard | Technical Grade |
Packaging Size | PCC is packed in 25/50/1000 kg inner liner HDPE Bags. It can also be customized as per individual re |
Usage/Application | Industrial |
Packaging Type | PCC is packed in 25/50/1000 kg inner liner HDPE Bags. It can also be customized as per individual re |
Precipitation State | Precipitated |
Bulk Density (g/L) | 0.40 to 0.9 gm /ml |
Physical State | Powder |
Form | CaCO3 |
Color | Bright White |
Solubility | Insoluble in water |
Density (Gram/Cm Cube) | 2.711 g/cm3 |
Grade | GSC / Gulcal |
pH value | 9.5- 10.2 |
Boiling Point (deg. Celsius) | decomposes |
Melting Point (deg. Celsius) | 1,339 C (2,442 F; 1,612 K) |
Precipitated Calcium Carbonate (PCC) from long back. Keeping track with market development GPL produces the valued products which are well appreciated in its market due to its quality.
PCC is synthetically processed from naturally occurring high grade lime stone.The major advantage of the product is its availability in different bulk densities from 0.40 gms/cc to 0.9 gms/cc, with brilliant white color, depending upon the requirement of end user.The assay (purity) of material is around 98.0 % as CaCO3. The material is fluffy and free from inclusions.
PackagingPCC is packed in 25/50/1000 kg inner liner HDPE Bags. It can also be customized as per individual requirements.
Additional Information:
Product Details:
Minimum Order Quantity | 16000 Kilogram |
Purity | 33 to 37 |
Purity/Concentration | 33-37% |
Volume Grade | V40, V10, V20, V30 |
Boiling Point | 150 152 |
Melting Point | 0.4 |
Formula | Pure H2O2 |
Brand | Any |
Grade Standard | Industrial |
Form | Liquid |
Hydrogen peroxide, (H2O2), a colourlessliquidusually produced as aqueoussolutionsof various strengths, used principally for bleachingcottonand othertextilesandwoodpulp, in the manufacture of other chemicals, as arocketpropellant, and forcosmeticandmedicinalpurposes. Solutions containing more than about 8 percenthydrogenperoxideare corrosive to theskin.
First recognized as achemical compoundin 1818, hydrogen peroxide is the simplest member of the class ofperoxides. Of the several processes of manufacture, the principal ones involvereactionsofoxygenfrom theairwith certainorganic compounds, especiallyanthraquinoneorisopropyl alcohol. Major commercial grades are aqueous solutions containing 35, 50, 70, or 90 percent hydrogen peroxide and small amounts of stabilizers (oftentinsalts andphosphates) to suppress decomposition.
Hydrogen peroxide decomposes intowaterand oxygen upon heating or in the presence of numerous substances, particularly salts of suchmetalsasiron,copper,manganese,nickel, orchromium. It combines with manycompoundsto formcrystallinesolids useful as mild oxidizing agents; the best-known of these issodiumperborate (NaBO2H2O23H2O or NaBO34H2O), used in laundrydetergentsandchlorine-freebleachproducts. With certain organic compounds, hydrogen peroxide reacts to form hydroperoxides or peroxides, several of which are used to initiatepolymerizationreactions. In most of its reactions, hydrogen peroxide oxidizes other substances, although it is itself oxidized by a few compounds, such aspotassiumpermanganate.
Pure hydrogen peroxide freezes at 0.43 DegreeC (+31.3 DegreeF) and boils at 150.2 DegreeC (302 DegreeF); it is denser than water and is soluble in it in all proportions.
Hydrogen peroxide - watersolutions. Commercially supplied as a 33-37% aqueous solution. Common stabilisers include phosphoric or other mineral acid (to keep the product acidic), pyrophosphate salts (complexing agents to inhibit metal-catalysed decomposition) and stannate (a colloid-forming inhibitor).
Commercialsolutionscontain low (
Pure H2O2(not commercially available in EU)
Melting point-0.4 DegreeC
Boiling point150-152 DegreeC
Density 1.4425 g/cm3
Vapour pressure3 hPa
Function and uses
Hydrogen peroxideis capable of undergoing numerous reactions (e.g., molecular additions, substitutions, oxidations and reductions). It is a strong oxidant and can form free radical by homolytic cleavage.Carbamide peroxideis an adduct ofureaand hydrogen peroxide which on contact with water break down to urea and hydrogen peroxide. For example, a 10% carbamide peroxide gel would yield a maximum of 3.6% hydrogen peroxide. 750,000 tonnes hydrogen peroxide (calculated as 100% H2O2) were produced in Europe in 1995. About 300 tonnes of carbamide peroxide were used.
The main usage ofhydrogen peroxideis in production of chemicals (approx. 40%), bleachingpulpand paper (approx. 30%) and bleaching textiles (approx. 20%). Small quantities are used in cosmetics. Hydrogen peroxide is used for hair bleaching and for oxidation in permanent hair dyes and in oral hygiene products such as mouth-rinses and dentifrices as well as in tooth bleaching products.
Additional Information:
Product Details:
Minimum Order Quantity | 16000 Kilogram |
Grade Standard | Technical Grade |
Physical State | Powder |
Usage | Industrial |
Non-ferric alum is the purer form of ammonium sulfate. It has no ferric ions in its chemical composition. This substance is manufactured using aluminum trihydrate as the raw material. The raw material is reacted with sulfuric acid under suitable conditions to produce non-ferric alum.
Non-ferric alum has 0.02-0.03% of insoluble matter by mass. Although it has no ferric ions, there can be iron in the form of Fe (around 0.004%). Non-ferric alum lacks the violet color in ferric alum. Instead, non-ferric alum is colorless. It is opaque.
on-ferric alum is soluble in water. Therefore it can be used as a chemical reagent for water purification. But there can be primary hazards for the environment. It is used as a chemical reagent in chemical analysis. Non-ferric alum is also used in paper manufacturing as a loading material.
The raw material used for manufacturing of non-ferric alum is aluminum trihydrate.
Non-ferric alum has about 0.004% of iron as Fe
Non-ferric alum has about 0.02-0.03% of insoluble matter.
Additional Information:
Product Details:
Form | Liquid |
Grade | Industrial Grade |
Usage/Application | Industrial |
Packaging Type | Standard |
Packaging Size | Standard |
Application | Industrial |
Physical Form | Liquid |
Additional Information:
Product Details:
Minimum Order Quantity | 50 Kg |
Usage/Application | Skin-Conditioning Agent - Emollient; ANTIMICROBIAL; SKIN CONDITIONING |
Grade Standard | Technical Grade |
C12-15 alkyl benzoate is a synthetic ingredient that is used as an emollient and texture enhancing agent in a variety of cosmetics and personal care products.
Origin
C12-15 alkyl benzoate is a low molecular weight ester of benzoic acid and long chain alcohols. Benzoic acid is a natural ingredient that can be obtained from several types of fruits and vegetables, such as cranberries, prunes, plums, cinnamon, ripe cloves, and apples. The “C12-15” in the ingredient name indicates that the alcohols have carbon chain lengths from 12 to 15. C12-15 alkyl benzoate is a clear, oil-soluble, low viscosity liquid.
Function
In cosmetics and personal care products, C12-15 alkyl benzoate functions as an emollient, texture enhancer, and antimicrobial agent. It is used in a wide variety of products, such as sunscreens, baby products, bath products, antiperspirants and deodorants, eye makeup, lipstick, foundations and tinted moisturizers, shaving products, hair styling products, and more.
As an emollient, C12-15 alkyl benzoate helps to keep the skin moist and supple by reducing water loss from the epidermis (the outer layer of skin). Emollients act as lubricants and occlusive agents. A lubricant reduces friction when anything rubs against the skin, while an occlusive agent forms a protective, invisible film on the surface of skin that helps to slow down water loss. These functions allow C12-15 alkyl benzoate to keep the skin moisturized and also help the skin to repair.
While all skin types can benefit from emollients like C12-15 alkyl benzoate, emollients are very beneficial for those who have dry, rough and/or flaky skin. Emollients can treat these symptoms, leaving the skin looking and feeling soft and smooth. In addition, emollients can benefit those that suffer from conditions such as eczema, psoriasis, or other inflammatory skin condition.
C12-15 alkyl benzoate can also be classified as a texture enhancer. It imparts a soft and velvety feel to skin and has excellent spreadability. C12-15 alkyl benzoate also functions as an effective thickener when added to gels, creams, and lotions. It is added to pressed powders because of its ability to bind other ingredients together. C12-15 alkyl benzoate has excellent solubility in oil and is often used in sunscreens because it helps keep the active ingredients dispersed throughout the formula. Lastly, C12-15 alkyl benzoate can be used for the extension and fixation of fragrance.
It is also claimed that C12-15 alkyl benzoate has antimicrobial properties, however, there is limited data on which microorganisms this ingredient is effective against.
Additional Information: