Product Details:
Minimum Order Quantity | 50 Unit |
Physical State | Liquid |
Grade Standard | Medicine Grade, Technical Grade, Chemical Grade, Industrial Grade |
State of Matter | Liquid |
Usage | Laboratory, Commerical, Industrial |
Functions | Surfactants |
Features | Heat Resistant, Oil Resistant, Cold Resistant |
Packaging Type | Drum |
Solubility | Insoluble in water |
Color | Transparent |
Viscosity (Degree Celsius) | 2000cps |
Concentration (%) | 55% |
pH Value | 11.5 - 12.5 |
Appearance | Amber Viscous Liquid (2000cps 75F (Crystallizes less then 60F)) |
Quantity Per Pack | 50 Kg |
Odour | Characteristic - Surfactant |
Chemical Name | Coco Glucoside |
Packing | Tightly Sealed, Protected from Heat / Cold |
Form of Chemicals | Liquid |
Packaging Size | 50 Kg |
Coco Glucoside is a natural, non-ionic, surfactant. Like Decyl Glucoside it is ultra mild, and one of the most gentle of the cleansing agents, making it ideal for all foaming and cleansing products, especially those designed for fragile or sensitive skin. Our Coco Glucoside, obtained from renewable raw materials, is a combination of coconut based fatty alcohols (c8-16) and glucose (sugar / starch). Like our Decyl Glucoside, Coco Glucoside, being ultra mild and gentle, does not dry the skin which makes it an excellent choice for the formulation of personal hygiene and toiletry products. Coco Glucoside is comparable to the other Alkyl Polyglucoside Surfactants (Caprylyl/Capryl Glucoside (c8-10), Coco Glucoside (c8-16), and Lauryl Glucoside (c12-16)) all being the combination of the glucoside and select fatty alcohols. Coco Glucoside generates an exceptional foam in almost any conditions. It produces a very satisfactory level of foam, comparable with that obtained using conventional anionic surfactants. Moreover, the foam obtained is particularly stable, which is an advantage for the formulation of bubble baths and shower gels. The foam generated is fine and stable. In contrast, its touch is not comparable with that of a foam obtained using anionic surfactants. For this reason it is advisable to combine Coco Glucoside with our Cocamidopropyl Betaine or Foaming Soy in order to improve the smoothness of the foam. Furthermore, because of its wide range of compatibility, Coco Glucoside can be combined with all types of surfactants without reducing foam volume or stability. Coco Glucoside, used as a co-surfactant, can reduce the total active requirements of other foaming ingredients, without altering their performance; cleansing effectiveness, foam volume, and ease of thickening, are all maintained while improving on the mild, and gentle, nature of the final formulation. Coco Glucoside does not contain any impurities. Its chemical nature and the production process results in a surfactant without ethylene oxide or 1,4-dioxane and is suitable for baby, and pet, products.
Attributes:
Obtained from 100% renewable vegetable origin Tolerant of high electrolyte formulations (aloe)Improves skin tolerance of the formulationFully Compatible with other Surfactants Maintains skin balance without drynessEasy to thicken with natural polymersReadily BiodegradableEnvironmentally friendly Maintains skin balanceGood foaming powerethylene oxide free1,4-dioxane free Proven MildnessGUIDELINES add to the oil phasemix into formulations preventing excessive foammaintain pH of finished product between 3.0 and 5.02.0 to 30.0%Coco Glucoside is easily thickened with anionic surfactantsnatural polymers xanthan gum 10 to 0.3% (1300)carageenan gum 10 to 1.0% (1100)carboxy methyl cellulose 10 to 0.8% (1300)synthetic polymers carbomer 940 10 to 0.5% (3600)
Applications:
coloring products (compatible with ammoniacal media, dyes, and cationic agents)shampoos (anti-dandruff, anti-seborrheac, conditioners, frequent use, etc...)straightening products (compatible with sodium / potassium hydroxides)permanent wave products (compatible with fixers and reducers)dermatological liquid soapssensitive skin cleansersshaving foamsbubble bathsshower gelscleansersbath oilswipes
Additional Information:
Product Details:
Minimum Order Quantity | 60 Kg |
Usage | Personal |
Packaging Size | 60kg,200kg hdpe drum carboy |
Grade Standard | Bio-Tech Grade |
Functions | Surfactants |
Packaging Type | 60kg,200kg hdpe drum carboy |
Physical State/Form | paste |
Chemical Name | Dodecyl glucoside, Lauryl polyglucoside |
Form of Chemicals | Liquid |
Categories | Cosmetic Chemicals |
Usage/Application | Industrial |
Formula | C18H36O6 |
Solubility | Insoluble in water |
Color | Transparant |
Physical State | Liquid |
Molar Mass | 348.48 g/mol |
Cas-No | 59122-55-3 |
A mild non-ionic surfactant that offers low foal and natural, gentle cleansing particularly for oily skin in shampoos and body washes (HLB 11-12) Lauryl Glucoside is well suited for a use in a range of cosmetic and dermatological applications. Lauryl Glucoside generates an exceptional foam for a nonionic surfactant. It produces a very satisfactory level of foam, comparable with that obtained using conventional anionic surfactants. Moreover, the foam obtained is particularly stable, which is an advantage for the formulation of bubble baths and shower gels. The foam generated is fine and stable. Lauryl Glucoside can be combined with all types of surfactants without reducing foam volume or stability. Used as co-surfactant, Lauryl Glucoside can reduce the total active ingredients content of foaming formulas without altering their performance. Cleansing effectiveness and foam volume are maintained as well as ease of thickening is maintained.
Additional Information:
Product Details:
Minimum Order Quantity | 1000 Kilogram |
Packaging Type | Drum |
Categories | Agrichemicals, Food Additives, Construction Chemicals, Oil Field Chemicals, Adhesives |
State of Matter | Liquid |
Functions | Lubricants, Biocides, Antioxidants, Catalysts, Surfactants |
Color | Transparent |
Concentration (%) | 70 |
Item Code | BISLES |
Formula | CH3(CH2)11(OCH2CH2)nOSO3Na |
Grade Standard | Technical Grade |
Cas-No | 9004-82-4 |
Physical State | Liquid |
Usage | Industrial |
Packaging Size | In 170kg drum, 19.38MT in 20'GP |
Palm-derived, high foaming, anionic surfactant used in the chemical formulating and detergent manufacturing industries. It is a higher foaming variation of Sodium Lauryl Sulfate (SLS).
SLES 70% (Sodium Lauryl Ether Sulphate) has excellent detergency, emulsification,and foamability, it is easy to dissolve in water. As well as favorable hard-water resistant and high-biodegradation. Excellent decontamination, emulsification, dispersion, wetting, solubilizing performanceand foaming property. Good solvency, thickening effect, wide compatibility, anti-hard water and high biodegradable ability. Low irritation to skin and eyes.
Applications
Widely used in liquid detergent such as dishwashing detergent, shampoo, bubble bath,liquid, hand washing etc. In washing powder and detergent for heavy dirty, using it to partially replace LABSA, phosphate can be saved or reduced, and general dosage of active matter is reduced.
In textile, printing and dyeing industry, petroleum and leather industry, it can be used aslubricant, dyeing agent, cleanser, foaming agent and degreasing agent.
Features
Used in wetting agent formulations, liquid detergents, cleaners, shampoos and laundry detergents.SLES70% dissolves readily in hard and soft water and provides a consistent foam character.
Packaging
SLES70% is available inIBCs (1000kg bulk containers) and 200kg drums.
Safety
Please consult theSDSonSLES70% before use
Main Export Markets
AsiaAustralasiaCentral/South AmericaEastern EuropeMid East/AfricaNorth AmericaWestern EuropeSynonyms
Sodium lauryl ether sulfate
Sodium laureth sulphate
Sodium lauryl ether sulphate
SLES 70%
Additional Information:
Product Details:
Minimum Order Quantity | 50 Kilogram |
Packaging Size | 50 KG |
Packaging Type | Carboy And Barrel |
Color | Colorless |
pH Value | 5-7 |
Physical State | Liquid |
Usage | Industrial, Laboratory, Personal |
Sodium lauryl ether sulfate (SLES) is also known as sodium laureth sulfate. It acts as a detergent and surfactant, creating the ''lather'' in many personal care products, including shampoos and toothpastes. Sodium lauryl sulfate (SLS, note the "-yl" - not be be confused with the "-eth" of SLES) is also used for its lathering properties in personal care products. It is in fact the precursor to SLES - chemists first make it, using a chemical mixture that lists sulfuric acid among its ingredients, and then modify it to come up with the less harsh SLES.
Neither SLS, or subsequently SLES, are "natural" in the way we have come to know the word - neither are pure, unaltered plant extracts, for example! But you may see either SLS or SLES described as "coconut derived". This is because one of the ingredients used to make them, called lauryl alcohol or dodecanol, can be obtained from coconut oil (and also from palm oil).
Additional Information:
Product Details:
Minimum Order Quantity | 50 Kilogram |
Packaging Type | Drum |
State of Matter | Liquid |
Form of Chemicals | Liquid |
Packaging Size | 50 KG |
Grade Standard | Hydrocarbon Gases, Industrial Grade, Chemical Grade |
Physical State | Liquid |
Color | Transparent, White Crystal |
Concentration (%) | 55% |
Odor | Characteristic - Surfactant |
pH Value | 11.0 - 12.0 |
Assay | 55% |
Appearance | Amber Viscous Liquid 2000cps 75F (Crystallizes less then 60F)) |
Gender | Unisex |
Quantity Per Pack | 50 Kg |
Decyl Glucoside is a, natural, non-ionic surfactant, ideal for all foaming and cleansing products. Like Coco Glucoside, Decyl Glucoside is , obtained from renewable raw materials, through a combination of plant based fatty alcohols (coconut c8-16) and glucose (sugar / starch). Decyl Glucoside is a mild, and gentle, surfactant and because it does not dry the skin it is ideal for the formulation of personal hygiene and toiletry products. Decyl Glucoside is comparable to the other Alky Polyglucoside Surfactants (Caprylyl/Capryl Glucoside (c8-10), Coco Glucoside (c8-16), and Lauryl Glucoside (c12-16)) all being the combination of the glucoside and select fatty alcohols. Decyl Glucoside generates an exceptional foam for a nonionic surfactant, whatever the conditions. It produces a very satisfactory level of foam, comparable with that obtained using conventional anionic surfactants. Moreover, the foam obtained is particularly stable, which is an advantage for the formulation of bubble baths and shower gels. The foam generated is fine and stable. In contrast, its touch is not comparable with that of a foam obtained using anionic surfactants. For this reason it is advisable to combine Decyl Glucoside with our Cocamidopropyl Betaine or Foaming Soy in order to improve the smoothness of the foam. Furthermore, because of its wide range of compatibility, Decyl Glucoside can be combined with all types of surfactants without reducing foam volume or stability. Decyl Glucoside, used as a co-surfactant, can reduce the total active requirements of other foaming ingredients, without altering their performance; cleansing effectiveness, foam volume, and ease of thickening, are all maintained while improving on the mild, and gentle, nature of the final formulation. Decyl Glucoside does not contain any impurities. Its chemical nature and the production process results in a surfactant without ethylene oxide or 1,4-dioxane and is suitable for baby, and pet, products.
Attributes:
Obtained from 100% renewable vegetable originTolerant of high electrolyte formulations (aloe)Improves skin tolerance of the formulationFully Compatible with other SurfactantsMaintains skin balance without drynessEasy to thicken with natural polymersReadily BiodegradableEnvironmentally friendlyMaintains skin balanceGood foaming powerethylene oxide free1,4-dioxane free Proven Mildness Decyl Glucosideis easily thickened with non-ionic surfactantsnatural polymers xanthan gum 10 to 0.3% (1300)carageenan gum 10 to 1.0% (1100)carboxy methyl cellulose 10 to 0.8% (1300)synthetic polymers carbomer 940 10 to 0.5% (3600)
Applications:
coloring products (compatible with ammoniacal media, dyes, and cationic agents)shampoos (anti-dandruff, anti-seborrheac, conditioners, frequent use, etc...)straightening products (compatible with sodium / potassium hydroxides)permanent wave products (compatible with fixers and reducers)dermatological liquid soapssensitive skin cleansersshaving foamsbubble bathsshower gelscleansersbath oilswipes
Additional Information:
Product Details:
Brand | chemical |
Functions | Surfactants |
Usage/Application | Industrial |
Grade Standard | Industrial Grade |
Material | liquid |
Chemical Name | decyl oleate |
PH Value | 7-9 |
Categories | Comsetics Chemica;s |
Solubility | Insoluble in water |
Molar Mass | 422.7272 g/mol |
Odour | orrdeless |
Molecular Formula | C28H54O2 |
Decyl oleate is an ingredient used to formulate a variety of cosmetics and personal care products, functioning as an emollient and skin-conditioning agent. It is comedogenic and should be avoided by those with acne prone skin.
Origin
Decyl oleate is an ester of decyl alcohol and oleic acid. Decyl alcohol, also known as 1-decanol, is a straight chain fatty alcohol with ten carbon atoms. Oleic acid is a monounsaturated omega-9 fatty acid that occurs naturally in various animal and vegetable fats and oils, for instance, olive oil. These two substances can be reacted together to form decyl oleate. Decyl oleate is a clear, yellow liquid that is soluble in most hydrophobic solvents such as silicones, esters, mineral oils, vegetable oils and mineral spirits.
Functions
In cosmetics and personal care products, decyl oleate functions as an emollient and skin-conditioning agent. Decyl oleate can be found in products such as facial moisturizers, body moisturizers, anti-aging treatments, sunscreens, makeup, makeup removers, hair conditioners, and aftershave products.
As an emollient, decyl oleate works to soften and soothe the skin by acting as a lubricant. Decyl oleate can be classified as an occlusive emollient because it forms a thin film on the skin that is neither greasy nor tacky. The film also helps to prevent evaporation of the skin’s natural moisture. Over time, this increases skin hydration by causing buildup of water in the stratum corneum (the uppermost layer of skin).
While all skin types can benefit from emollients like decyl oleate, emollients are especially helpful for those who have dry, rough, and/or flaky skin. Emollients can alleviate 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 conditions.
Decyl oleate can also be found in hair conditioners and other hair care products because of its emollient properties. Similar to how emollients work on the skin, an emollient for hair should easily form a smooth, even film on the surface of the hair. This film helps to seal in moisture and soften the hair. Emollients act as lubricants and provide increased slip between adjacent hair strands, which makes detangling much easier. Hair emollients also smooth and flatten the cuticle surface, which adds shine and gloss to the hair.
One drawback of decyl oleate is that it is highly comedogenic. Comedogenic means that an ingredient tends to cause blackheads by blocking the pores of the skin. Even if a single ingredient, such as decyl oleate, in a skin care or cosmetic product is comedogenic, the product as a whole is considered to be comedogenic. Decyl oleate is very likely to cause breakouts for those with acne prone skin. If your skin does not break out easily, it is still recommended to use caution with facial products containing this ingredient.
Safety
The safety of decyl oleate has been assessed by the Cosmetic Ingredient Review (CIR) Expert Panel. Clinical studies indicate that decyl oleate possesses low acute oral toxicity. Single application dermal and eye studies have shown that a 100% concentration of decyl oleate produces little or no irritation. Decyl oleate was also not found to be a skin sensitizer. After evaluating all scientific data, the CIR Expert Panel concluded that decyl oleate was safe at the reported use concentrations in cosmetics and personal care products.
The safety of decyl oleate has also been assessed by EWG’s Skin Deep Cosmetic Database. It is rated as a 1 on a scale of 1 to 10, with 1 being the lowest risk to health and 10 being the highest. However, the Database does indicate that there is limited data available regarding decyl oleate.
Additional Information:
Product Details:
Brand | KRU-BTAC |
Purity | 99 % |
Usage/Application | Industrial |
Packaging Size | 1 KG |
Packaging Type | Packet |
pH Value | 7 Ph |
Appearance | White |
Product Details:
Grade | Industrial |
Color | Yellow |
Form | Liquid, Powder |
Packaging Type | Bag |
Additional Information:
Product Details:
Functions | Surfactants |
Usage/Application | Industrial |
Material | Glass |
Categories | Adhesives |
Additional Information:
Product Details:
Minimum Order Quantity | 50 Kilogram |
Packaging Type | carboy,barrel |
Functions | Surfactants |
Physical State | Liquid |
Usage | Personal |
Packaging Size | 50kg,200Kg |
Grade Standard | Reagent Grade, Analytical Grade, Technical Grade, Bio-Tech Grade |
* A surfactant
Functions:
Sodium Xylene Sulfonate is a surfactant found in personal care products, primarily in shampoos, because of its ability to serve as a claritant or wetting agent that helps a formula spread more easily and ensure efficient cleansing, according to Johnson& Johnson. It is classified as a hydrotrope, or an organic compound that increases the ability of water to dissolve other molecules. Because of Sodium Xylene Sulfonate's dissolving abilities, it is often added to shampoos as a thickening agent that helps suspend other ingredients, clearing out the cloudy look of a formula
Additional Information:
Product Details:
Minimum Order Quantity | 50 Kilogram |
Physical State | Liquid |
Usage | Laboratory, Industrial, Personal |
Categories | Cosmetic Chemicals, Food Additives, Food Additives |
State of Matter | Liquid |
Packaging Size | 1KG,5KG,25KG,50KG |
Grade Standard | Technical Grade, Analytical Grade, Bio-Tech Grade, Reagent Grade |
Functions | Surfactants, Lubricants, Antioxidants |
Molecular Formula | Approx. 360 |
Solubility | Insoluble in water, Slightly soluble in water |
Color | Transparent |
PH Value (%) | 5-7 |
Form of Chemicals | Liquid |
Use of Cocamidopropyl betaine (CAB):
This product is widely used in shampoo, bath liquid, liquid soap and household detergents, thanks to the warm performance become good preparation baby shampoo, bubble bath, and the main components of the skin care products.In the skin and hair care formula is a kind of excellent softening conditioner, also can be used as a wetting agent, thickening agent, antistatic agent, fungicide and soft treatment agent in textile dyeing and printing industry etc.
Additional Information:
Product Details:
Minimum Order Quantity | 50 Kg |
Grade Standard | Technical Grade |
Physical State | Liquid |
Color | Clear Liquid @30 C |
Hydroxyl Value | 188-192 |
Free Alcohol | 25 Max |
Product | Appearance @ 25 deg C | Hydroxyl Value | HLB | Acid Value | Colour (APHA) | Active |
LAL-2 | Clear, essentially colourless liquid | 195-203 | 6.3 | 1 | 20 | 100% |
LAL-2.5 | Clear, essentially colourless liquid | 180-187 | 7.3 | 1 | 20 | 100% |
LAL-3 | Colourless liquid | 168-175 | 8.17 | 1 | 20 | 100% |
LAL-4 | Colourless liquid | 148-154 | 9.6 | 1 | 20 | 100% |
LAL-5 | Colourless liquid | 132-137 | 10.7 | 1 | 20 | 100% |
LAL-6.5 | Colourless liquid | 114-120 | 12 | 1 | 50 | 100% |
LAL-8 | Colourless liquid | 100-106 | 12.98 | 1 | 50 | 100% |
LAL-9 | Colourless liquid | 92-98 | 13.49 | 1 | 50 | 100% |
LAL-10 | Colourless liquid | 86-72 | 13.94 | 1 | 50 | 100% |
LAL-15 | White soft paste | 64-70 | 15.5 | 1 | 100 | 100% |
LAL-20 | White to off white waxy solid | 51-56 | 16.43 | 1 | 100 | 100% |
LAL-23 | White to off white waxy solid | 44-51 | 16.83 | 1 | 100 | 100% |
LAL-25 | White to off white waxy solid | 42-47 | 17.04 | 1 | 100 | 100% |
LAL-30 | White to off white waxy solid | 36-42 | 17.47 | 1 | 100 | 100% |
LAL-40 | White to off white waxy solid | 25-32 | 18.03 | 1 | 100 | 100% |
Synonyms :Polyoxyethylene Lauryl Alcohol; Polyethylene Glycol Lauryl Ether Polyoxyethylene Lauryl Myristyl Alcohol; Polyethylene Glycol Lauryl Myristyl Ether; alpha-Lauryl-omega-hydroxy-poly (oxy-1,2-ethanediyl); Lauryl Alcohol Ethoxylated; Lauryl Myristyl Alcohol Ethoxylated
CAS # :9002-92-0
Mol. Formula : CmH 2m+1 (OCH2CH2)nOH --- ----m 12/14
Description:
Lauryl Alcohol Ethoxylates are biodegradable nonionic surfactants composed of ethylene oxide adduct of Lauryl Alcohol. Lauryl Alcohol Ethoxylates vary in physical appearance, from clear or slightly hazy, colorless liquids to white solids, depending upon the level of ethoxylation. In general, with increase in the ethylene oxide chain attached to the Lauryl Alcohol hydrophobe increases the HLB value (water solubility), pour point, cloud point, density, viscosity, and flash point of the ethoxylate.
Application:
Lauryl Alcohol Ethoxylates can be used “as is” in a wide range of applications, including:
Lauryl Alcohol Ethoxylates can also be used in ether sulfates and ether carboxylates, Cosmetics as well as other industrial and agricultural applications.
Additional Information:
Product Details:
Minimum Order Quantity | 1000 Kg |
Grade Standard | Technical Grade |
Type | AOS |
Physical State | Liquid |
Form | Liquid |
Usage | Industrial |
Packaging Form | Bottle |
Packing Type | Tanker or Carboy |
Organic | Organic |
Alpha olefin sulfonate is a type of anionic surfactant processed by alpha olefingas-phase sulfonation and continuous neutralization.It has excellent emulsifying,decontaminating and calcium soap dispersing performances. Advantages include goodsolvency and compatibility, rich and fine foam, easy to biodegradation, low toxicity and lowirritation to skin, etc.
Performance and application
-olefin sulfonate is a type of anionic surfactant processed by -olefin gas-phase sulfonation and continuous neutralization. It has excellent emulsifying, decontaminating and calcium soap dispersing performances. Advantages include good solvency and compatibility, rich and fine foam, easy to biodegradation, low toxicity and low irritation to skin, etc. Especially in the application of non-phosphorus detergents, it has not only the good washing ability, but also good compatibility with enzyme agents. Powder (grain) shape products have good fluidity, therefore they are widely used in non-phosphorus washing powder, liquid detergents and home washing products, textile, printing and dyeing industry, petrochemical products, and industrial hard surface cleaning agents, etc.
ApplicationEspecially in the application of non-phosphorus detergents, it has not only thegood washing ability, but also good compatibility with enzyme agents. Powder (grain) shapeproducts have good fluidity, therefore they are widely used in non-phosphorus washing powder,liquid detergents and home washing products, textile, printing and dyeing industry, petrochemicalproducts, and industrial hard surface cleaning agents, etcSynonyms
Bio-Terge AS-40K;- olefin sulfonate;SODIUM A-OLEFIN SULFONATE;Alpha Olefin Sulfonate(AOS);SODIUMC14-16OLEFINSULPHONATE;sodium c14-16 olefin sulfonate;SODIUMC14-16ALPHAOLEFINSULFONATE;Sodium olefin-(C14-C16)-sulfonate;Sodium Alpha Olefin Sulphonate 92%;Sodium Alpha Olefin Sulfonate 35%, 92%
Additional Information:
Product Details:
Minimum Order Quantity | 50 Kilogram |
Physical State | Liquid |
Form | Powder, Liquid |
Purity | 98%, 90%, 99%, 64% |
Grade Standard | Technical Grade |
Packaging Type | Bag,Bottle,Packet |
Usage/Application | Antistatic Cleansing Foam boosting Hair conditioning Hydrotrope Surfactant Viscosity controlling Per |
Molar Mass | 229.41 g mol-1 |
Molecular Formula | C14H31NO |
CAS Number | 1643-20-5 |
Density (g per Cube cm) | 0.996 g/ml |
Boiling Point (deg. Celsius) | 132-133 C (270-271 F; 405-406 K) |
Usage | Commercial |
Einecs | 216-700-6 |
Additional Information:
Product Details:
Physical State | Liquid |
Usage/Application | Industrial |
Grade Standard | Bio-Tech Grade |
Packaging Size | Standard |
Packaging Type | Glass Bottles |
Color | Dark Grey |
Additional Information:
Product Details:
Packaging Size | 1 Kg |
Purity | 90 % |
Usage/Application | Industrial |
Brand | KRU-BTAc |
Color | White |
Packaging Type | Packet |
Product Details:
Packaging Details | 50 kg Bag |
Usage/Application | Pharmaceutical chemicals |
Antioxidants type | Isothiocyanates |
Physical State | Solid |
Brand | KRU-BTAC |
Color | White |
Butylated Hydroxytoluene (BHT) comes in the form of white crystals or crystalline powder. It is insoluble in water, but freely soluble in toluene and hydrocarbon solvents, alcohol, and acetone.
BHT is used as an antioxidant and can be a food additive. It is also found in some cosmetics, pharmaceuticals, rubbers, and is often used in the oil industry.
We have helped multiple customers, from small end users to large Fortune 500 customers, with their Butylated hydroxytoluene supply requirements and can ship bulk and various packaged products to meet such needs.
Product Details:
Minimum Order Quantity | 1 Kilogram |
Packaging Size | 1 L |
Usage/Application | Industrial |
Type | Compressor Oil |
Color | Yellow |
Unit Pack Size | 1 |
Packaging Type | Jar |
Pour Point | 240 V |
For people with curly hair, silicones elicit many emotions. For some, they are a holy grail ingredient, while others shy away from them for fear they will dry out their hair.
It is evident that there exists a considerable amount of confusion in the curly community in regard to whether silicones are good for curly hair and compatible with shampoo free hair care routines.
In this column, we'll take a look at amodimethicone and other similar molecules, such as bis-aminopropyl dimethicone and trimethyl silylamodimethicone. And we'll talk about the pros and cons of using them, especially if you shy away from sulfates.
These are being used more often by chemists as conditioning agents in hair product formulations. They are popular because of their ease of use in processing and manufacturing products as well as for their many benefits to the hair.
Amodimethicone is an abbreviation of “amine-functionalized silicone,” which is a family of silicones modified to have specific properties. The simplest, and perhaps most well-known silicone, polydimethylsiloxane (dimethicone, by INCI naming standards), consists of methyl groups (-CH3) as the pendant group along the backbone of the polymer chain (Figure 1). Amine-functionalized silicones have been chemically modified so that some of the pendant groups along the backbone have been replaced with various alkylamine groups (-R-NH2). These amine groups become positively charged in aqueous solutions because of their electron-donating (basic) tendencies, yielding an inorganic, cationic polymer.
Check here for sulfate-free shampoos.
These inorganic cationic polymers deposit onto the hair because of the electrostatic attraction between the polymer and the negatively-charged protein surface of the cuticle. In this manner, they behave much like polyquaternium materials (organic cationic polymers), which are excellent conditioning agents as well. The charge density of the polymer can be varied by changing the placement and quantity of the amine groups. A polymer with greater charge density will be more substantive to the hair than one with lesser charge density.
This reduces heat transfer through the hair surface to the cortex of the hair. Very high temperatures found when styling or processing hair (sometimes as high as 100°C to 160°C) are capable of vaporizing water contained within the cortex. It is extremely important to maintain proper hydration of the hair because water has a very high specific heat which helps protect the hair from getting too hot. Hair that reaches too high temperatures can suffer permanent damage to the delicate keratin fibrils in the cortex..
The short answer is that these polymers are not water soluble. The silicone is provided to product manufacturers as a mixture of silicone/cationic surfactant/nonionic surfactant, which enables it to be readily dispersed into an aqueous formulation because this mixture is water soluble. However, once the product is used and the amodimethicone is deposited onto the surface of the hair and forms a film, it is not water soluble
CONCLUSIONS
Amodimethicone and other similarly modified silicone polymers are considered to be among the best high-performance conditioning polymers currently available to the hair-care product formulator. They provide many unique benefits, including the following:
Additional Information:
Product Details:
Usage/Application | Industrial |
Physical State | Powder |
Packaging Type | Packet |
Brand | KPU-BTAC |
Color | White |
Purity | 98 % |
Product Details:
Packaging Size | In 200kg drum, 16MT in 20'GP |
Packaging Type | Drum |
Grade Standard | Technical Grade |
Physical State | Liquid |
Usage | Industrial |
Formula | RCON(C2H4OH)2 |
Coco Diethanolamide (CDEA) uses include viscosity builder and foam booster for soapy material. The product is a non-ionic surfactant and is popular for its features of outstanding solvency and cleansing rate. It is added in hand washing soaps and shampoos, for its properties of stabilizing foams and thickening the liquid. The CDEA is also very beneficial in minimizing the irritation to the skin. Furthermore, the product is also used in fiber textiles for softening it. Toe the line, it is appropriate for washing animal's fiber like thread and hair, to name a few.Some of the general applications areBody WashDishware DetergentElectric PlatingFace WashFiber ModifierHand WashLiquid DetergentLiquid SoapMetal RinsePrinting InkShampooShoe PolishWool CleanserCharacteristicsOutstanding performances of anti-hard water, antistatic, decontamination, dispersion, and wetting.Par excellence properties of derusting, foam-stablizing, foaming, and thickening.Can be compounded with anionic surfactants to increase the foaming ability. The resultant foam is more stable, affluent, which increases the washing effect as well.
Cocodiethanolamide is used as a foam stabilizer & viscosity builder used in detergents, shampoos, bubble baths & other personal care products. It is used as a lubricant agent, thickening agent and wetting agent. It is also used as an emulsifier & corrosion inhibitor
Use
If added in shampoo and hand cleaner, CDEA can not only stablize foam and thicken the liquid, but also reduce the irritation to skin. In addition, CDEA can soften fiber textile. Thus, CDEA is especially suitable for washing animal fibers, such as hair and thread. Its applications are in liquid detergent, shampoo, dishware detergent, liquid soap, fiber modifier, wool cleaner etc.
Synonyms
Coconut Oil Acid Diethanolamine Condensate, Coconut fatty acid amide of diethanolamine, coconut diethanolamide, cocamide DEA, coconut oil diethanolamine, n,n-Bis(2-hydroxyethyl) cocoamide, n,n-Bis(2-hydroxyethyl) coconut(fatty acid amide, n,n-Bis(2-hydroxyethyl)coconut oil amide, coconut fatty acids diethanolamide
Additional Information:
Product Details:
Brand | Perma Chemicals |
Functions | Antioxidants |
Usage/Application | Industrial |
Material | Plastic |
Additional Information:
Product Details:
Usage/Application | Industrial |
Color | Transparent |
Packaging Type | Standard |
Form | Liquid |
Packaging Size | Standard |
Additional Information:
Product Details:
Purity | 80% |
Packaging details | 25 Kg Bag |
Grade Standard | Industrial Grade |
Synonyms | Dioxomanganese |
Color | Black |
Brand | KRU-BTAC |
Product Details:
Minimum Order Quantity | 25 Kilogram |
Packaging Size | 10 Kg |
Soluble In | Benzene |
Grade Standard | Industrial Grade |
Type | Hydrocarbon Solvents |
Usage/Application | Industrial |
COLOR | White |
Brand | KPU-BTAC |
Product Overview
INCI: Stearamidopropyl Dimethylamine (SPA)
Description: Vegetable-Derived Conditioning Agent
SPA 18-S is fatty Amido-functional tertiary amine in flaked form. SPA 18-S
may be neutralized with a variety of acids to form a cationic amine salt.
SPA 18-S is produced from a high purity vegetable-derived grade of stearic acid.
SPA 18-S is useful as the primary ingredient for a conditioner, finishing
rinse, or cream rinse. Amine salts offer a major advantage over quaternary
ammonium compounds in that they can more easily be rinsed from
the hair and reduce conditioner buildup. Blended with a proper coemulsifier,
both opaque or pearly conditioner formulations can be
commercially developed.
Active content100 %APPLICATION
Recommended use levels for SPA 18-S:
Liquid Conditioners 0.5%-1%
Leave-in Conditioners 1%-2%
Cream -Hair Conditioners 1% - 3%
SPA 18-S can also improve wet and dry Combability and will reduce static fly-away.
Simple, high viscosity, conditioning emulsions are achieved by combining neutralized SPA 18-S with fatty alcohol.
By neutralizing SPA 18-S in situ with a low molecular weight organic acid,
it becomes Water soluble and acts as cationic conditioner.
Neutralization with lactic acid can provide additional conditioning
benefits.
Product Details:
Usage/ Application | Industrial |
Color | Mustard |
State | Liquid |
Additional Information:
Product Details:
Form | Powder |
Additional Information:
Product Details:
Usage/Application | Industrial |
Grade Standard | Reagent Grade |
Additional Information:
Product Details:
Packaging Size | Standard |
Packaging Type | Plastic Bottles |
Color | White |
Usage/Application | Industrial |
Additional Information:
Product Details:
Form | Liquid |
Color | Transparent |
Packaging Size | Standard |
Additional Information:
Product Details:
Usage/Application | Industrial |
Additional Information:
Product Details:
Purity | 96 % |
Physical State/Form | Liquid |
Packaging Type | Jar |
Usage/Application | Industrial |
Brand | KRU-BTAC |
Shelf Life | 2 Years |
pH Value | 7 Ph |
Product Details:
State/Form | Liquid |
Grade Standard | Technical Grade |
Usage/Application | Industrial |
Additional Information:
Product Details:
Brand | Kru |
Usage/Application | Industrial |
Grade Standard | Technical Grade |
Product Details:
Usage/Application | Industrial |
Additional Information:
Product Details:
Brand | BRU-BTAC |
Purity | 90 % |
Usage/Application | Industrial |
Packaging Type | Packet |
Packaging Size | 1kg |
pH Value | 8 Ph |
Disodium EDTA is in many products as a preservative, to stabilise it, or to enhance the foaming action. It’s also used as a chelating agent, which means it us used to precipitate out metals from the formulation (if tap water were used to make the formulation instead purified water, for example, and it can bind with metals dissolved in your shower water).
One reason we recommend to NOT use products containing Disodium EDTA, is because it is a ‘penetration enhancer’. Although it doesn’t absorb particularly well into the skin, it disrupts the surface of skin cells so that other chemicals can get in more easily – ie other chemicals in your product, and chemicals in your shower water, etc.
So if you see Disodium EDTA, then look at what else is in the ingredients list, because you might not be too thrilled at those chemicals getting a free ride.
For example, here are the ingredients for a hand balm from a ‘natural’ brand:
Water, Glycerin, Prunus amygdalus dulcis (sweet almond) oil, Stearic Acid, Cetearyl Alcohol, Ceteareth-20, Cocos nuciferus (coconut) oil, Macadamia ternifolia seed oil, d-limonene, Citrus nobilis (mandarin orange) peel oil, Glyceryl stearate, Cerus Atlantica (cedarwood) bark oil, Lavandula angustifolia (lavender) oil, Tocopherol, Aloe barbadensis leaf juice, Butyrospermum parkii (shea) butter, Theobroma cacao (cocoa) seed butter, Citrus aurantium dulcis (orange) oil, Phenoxyethanol, Rosmarinus officinalis (rosemary) leaf oil, Citrus grandis (grapefruit) seed extract, Triticum vulgare (wheat) germ oil, Glycine soja (soybean) oil, linalool, Disodium EDTA, Daucus carota sativa (carrot) root extract, Betacarotene.
Have a think about whether or not you’d like the surface of your skin cells disrupted to allow these chemicals to get in more easily…
The ethoxylated chemical Ceteareth-20. I wrote recently about ethoxylation – so ICYMI, I will add extra information at the end of this post. Suffice to say now, that the process introduces problematic chemicals to personal care products, in particular Ethylene Oxide and 1,4-dioxane. Ethylene Oxide scores 10 on a scale of 1-to-10 of hazardous chemicals. It’s carcinogenic, shown to induce tumours in mammary glands. It’s also linked with developmental and reproductive toxicity, immunotoxicity and allergies. 1,4-dioxane is included on California’s Proposition 65 list of chemicals known or suspected to cause cancer or birth defects. Readily penetrating the skin, it is a known carcinogen with evidence suggesting a possible link to breast cancer. While pregnant women, infants and teenagers are considered to be most vulnerable, it’s more than reasonable to suggest this is a chemical best avoided more widely.
The preservative phenoxyethanol, which is a known irritant for skin, eyes and lungs. In the US, the FDA (Food and Drug Administration) has warned that phenoxyethanol can cause shut down of the central nervous system, vomiting and contact dermatitis. There are several animal studies that demonstrate that it is toxic – with effects on the brain and the nervous system – at moderate concentrations. In Japan, there is a concentration limit for its use in cosmetics. The European Union classifies it as an irritant and there are various studies (on rabbit skin, for example) that demonstrate reactions at low doses. Although presumably not regarded as bad enough to be banned outright, toxicity concerns are sufficient for the EU to flag phenoxyethanol as a chemical to avoid getting on your lips or around your mouth.
On balance, you don’t want these in your products (or on your body, or in the waterways or elsewhere in our environment). You definitely don’t want these chemicals in your product WITH Disodium EDTA to help them get in more easily.
Product Details:
Usage/Application | Industrial |
Packaging Size | Standard |
Grade Standard | Bio-Tech Grade |
Packaging Type | Plastic Bottle |
Flammable | Combustible |
Additional Information:
Product Details:
Usage/Application | Industrial |
Packaging Type | Plastic Bottle |
Packaging Size | Standard |
Form | Liquid |
Additional Information:
Product Details:
Grade Standard | Technical Grade |
Color | White |
Additional Information:
Product Details:
Functions | Surfactants |
Usage/Application | Industrial |
Grade Standard | Industrial Grade |
Material | Glass |
Additional Information:
Product Details:
Usage/Application | Industrial |
Additional Information: