Climbazole Introduction Climbazole is a topicalantifungal agent commonly used in the treatment of human fungal skin infections such asdandruff and eczema. Climbazole has shown a high in vitro and in vivo efficacy against Malassezia spp that appear to play an important role in the pathogenesis of dandruff. Its chemical structure and properties are similar to other fungicides such as ketoconazole. Application Climbazole for shampoo Low dosage and high efficiency. Climbazole for shampoo Control and killing effect on fungus. Climbazole for shampoo Control and killing effect on candida albicans caused periodontitis. Climbazole for shampoo Compatible with positive ion, negative ion and non-ionic surface-active agent. Climbazole for shampoo Widely used in shampoo, bath gel, soap, drugs, mouthwash. Climbazole for shampoo Recommended dosage: .4%~0.8%. Function Climbazole has strong inhibitory effect on the dandruff-producing fungus (Pytyrosponcim ovale); it is soluble in surfactants, simple to use, no delamination; stable to metal ions, no yellowing, no discoloration. Climbazole has broad-spectrum sterilization performance, mainly used for anti-itch and anti-dandruff conditioning shampoo, hair care shampoo; also, can be used in antibacterial soap, shower gel, drug toothpaste, mouthwash and other high-end detergents.
Carbopol, also called CarbCarbopol, also called Carbomer or Carboxypoly-methylene is a generic name for synthetic high molecular weight polymers used as thickening, dispersing, suspending and emulsifying agents in pharmaceuticals and cosmetics. They may be homopolymers , Carbomers are found in the market as white and fluffy powders. They have the ability to absorb, retain water and swell to many times their original volume. Carbomers codes (910, 934, 940, 941 and 934P) are an indication of molecular weight and the specific components of the polymer .
The product is a colorless and transparent new polymer materials, a variety of different viscosities (5cps ~ 2million cps), the liquid from flowing easily into a thick semi-solid material. This product has a special smoothness, softness, hydrophobicity, good chemical stability, excellent electrical insulation and resistance to high temperature. High flash point, low freezing point, long-term using between -50 �ºC ~ +200 �ºC, low viscosity-temperature coefficient, high compression ratio, low surface tension, water-repellent moisture resistance, low heat conduction coefficient. Because it has special and excellent physical and chemical function, it can be used in many different industries: 1. Cosmetic industry for skin care cream, bath gel, shampoo and other cosmetic formulations with excellent softness and silky feel. 2. Rubber, plastic, latex, polyurethane, light industry: as a model release agent, brightener agent and release agent of some rubber, plastic, latex, polyurethane products and handicraft production. 3. Machinery, automotive, instrumentation, electronics and other industries used as high-grade lubricants, liquid springs, cutting fluids, buffers oil, transformer oil, high temperature brake fluid, brake fluid, instrumentation damping oil, mold release agents and other modeling framework. 4. Textile, apparel industry as a softener, water repellent, feel modifiers, sewing thread lubrication, chemical fiber spinneret pressure lubrication and clothing lining additives. 5. Add it to other additives in leather and leather chemicals industry, it can be used as softeners, water repellent, feel agents, defoamers, brighteners. 6. Pharmaceutical, food, chemical, paint, building materials industry as defoamers, lubricants, and other weather-resistant paint. 7. Other specific purposes and other new materials.
CAS NO. 6375-55-9
CAS NO 8005-64-9
Diethylene glycol (DEG) is an organic compound with the formula (HOCH2CH2)2O. It is a colorless, practically odorless, and hygroscopic liquid with a sweetish taste. It is a four carbon dimer of ethylene glycol. It is miscible in water, alcohol, ether, acetone, and ethylene glycol. DEG is a widely used solvent. It can be a contaminant in consumer products; this has resulted in numerous epidemics of poisoning since the early 20th century.
Monoethylene glycol (MEG) in its pure form, it is an odorless, colorless, syrupy liquid with a sweet taste. It can be used for applications that require chemical intermediates for resins, solvent couplers, freezing point depression, solvents, humectants and chemical intermediates. These applications are vital to the manufacture of a wide range of products, including resins; deicing fluids; heat transfer fluids; automotive antifreeze and coolants; water-based adhesives, latex paints and asphalt emulsions; electrolytic capacitors; textile fibers; paper and leather
Polyethylene glycol (PEG) is a polyether compound derived from petroleum with many applications, from industrial manufacturing to medicine. PEG is also known as polyethylene oxide (PEO) or polyoxyethylene (POE), depending on its molecular weight. The structure of PEG is commonly expressed as H (OCH2 CH2) OH.
Triethylene glycol is a member of a homologous series of dihydroxy alcohols. It is a colorless, odorless and stable liquid with high viscosity and a high boiling point. Apart from its use as a raw material in the manufacture and synthesis of other products, TEG is known for its hygroscopic quality and its ability to dehumidify fluids. This liquid is miscible with water, and at standard atmospheric pressure (101.325 kPa) has a boiling point of 286.5 �°C and a freezing point of -7 C. It is also soluble in ethanol, acetone, acetic acid, glycerine, pyridine, aldehydes; slightly soluble in diethyl ether; and insoluble in oil, fat and most hydrocarbons.
Butyl di glycol (also known as BDG, butyl dioxitol, diethylene glycol monobutyl ether, 2(-2butoxyethoxy) ethanol and butoxydiethylene glycol) is a colourless, clear organic compound with a faint characteristic odour that has the formula C8H18O3. It is soluble in water and miscible with many common solvents, and also has low volatility and a high boiling point. These are the factors that make butyl di glycol most useful in the paint industry.
Butyl glycol (also known as BG, 2-butoxyethanol, glycol monobutyl ether and ethylene glycol monobutyl ether, butyl cellosolve, butoxyethanol) is a clear, colourless, oily liquid with a unique sweet yet mild odour and has the formula C6H14O2. It is a butyl ether of ethylene glycol and is miscible with water and common organic solvents. It has been produced industrially for over half a century and is used primarily as a solvent in paints and surface coatings but also in inks and cleaning products.
Butyl di glycol (also known as BDG, butyl dioxitol, diethylene glycol monobutyl ether, 2(-2butoxyethoxy) ethanol and butoxydiethylene glycol) is a colourless, clear liquid with a faint characteristic odour, and the formula C8H18O3. It is soluble in water and miscible with many common solvents, and also has low volatility and a high boiling point. These are the factors that make butyl di glycol most useful in the paint industry.
DCM, an organic compound, is a colourless volatile liquid with a sweet smell. It is miscible with a variety of solvents. Its volatility makes it useful as a solvent in various chemical processes. It is used in a wide variety of industrial applications. DCM is the least toxic compound of the simple chlorohydrocarbons and is not flammable. It is even used in the food industry to decaffeinate coffee and tea.
Bitumen is known for its waterproofing and adhesive properties and is commonly used in the construction industry, notably for roads and highways. Production occurs through distillation, which removes lighter crude oil components like gasoline and diesel, leaving the heavier bitumen behind. Bitumen deposits can also occur naturally at the bottom of ancient lakes, where prehistoric organisms have decayed and been subjected to heat and pressure.
Soda Ash Light is one of the most important basic industrial chemicals and the most widely used fixed alkali for the manufacture of other Alkali Products. It is used in the manufacturing of Detergents, Sodium silicates, Bicarbonates, bichromates, Pulp & Paper, cellulose, rayon, iron and steel, aluminum, cleaning compounds, water-softening chemicals, textiles and dyestuffs, drugs, and many other materials.
Caustic soda or Caustic Soda Prill or Caustic Soda Flakes is also known as sodium hydroxide(NaOH) and Lye. This name is given because of the corrosive nature of the salt on plant tissues and animals. It is a versatile alkali. It is an extremely alkali and caustic base that deteriorates proteins at ordinary ambient temperatures and also causes serious chemical burns. Sodium hydroxide is a white solid ionic compound comprise of hydroxide anions OH- and sodium cations Na+. Application & Usage: In the Paper Industry, caustic soda is normally in the form of lye to separate the lignin that ties the fibers in the chemical pulping process. It is also used for paper recycling operations. In the refining of edible oil, sodium hydroxide is utilized as a neutralizer to remove free fatty acids that can give the oil an annoying taste. In the Petroleum Processing refineries, caustic soda is used for an alkalinity source in the liquid scrubbing of Sulphur dioxide in flue gases manufacture from crude-oil-fired steam generators used in thermally enhanced oil recovery. It allows the SO2 scrubber to run at a lower pH with a higher SO2 removal proportion. This process is called desulfurization. In the mining and refining, the alumina is manufactured from bauxite, it is an ore that is extracted from topsoil in different tropical and subtropical regions using The Bayer he Bayer. To extract alumina, bauxite is crushed, washed, and dried. After that, it will be dissolved with sodium hydroxide at very high temperatures. Alumina is extracted in the form of sodium aluminate. To produce aluminum it required multiple processes to get that. In the water treatment process, Caustic soda is very helpful in the pH neutralizing and adjustment of water streams. It is also used to raise the pH of water supplies. In different industries, sodium hydroxide is often used as a cleaning agent. Especially for sterilization and cleaning of bottles in the beverage industry. In chemical processing, caustic soda(NaOH) is used for delivering sodium to its final form and reactive agent in the production process and for many various purposes. It is also used to produce silicates and meta-silicates, bleach, fibers, also in food processing.
Product Name: Potassium Laurate CAS NO.:10124-65-9 MF: C12H23KO2 Appearance: Colorless liquid Usage: Washing products Package: 20kg/drum HS Code: 3402900090 Potassium laurate can be used as emulsifier and foaming agent in industry. Main ingredient in body wash and hand sanitizer. For liquid laundry soap, it has good detergency and makes clothes easier to rinse. Emulsifier in disinfectant.
It has unique polymethyl branch chain structure, silky feeling, dry and extremely soft hand feel, excellent emollient. The compatibility of silicone oil is good, can solve the problem of low temperature precipitation of silicone oil, and is a stabilizer and coupling agent of silicone oil. The color has a good dispersion ability, low viscosity, skin feeling fresh, no greasy feeling. Commonly known as synthetic silk oil.
GERMALL PLUS is a combination of Diazolidinyl Urea and IPBC pre-dissolved in Propylene Glycol for ease of use. This combination exhibits a synergistic preservative effect, which reduces the total active preservative level necessary; provides for complete, broad spectrum preservation against Gram-positive and Gram-negative bacteria, yeast, and mold. Compatible with most cosmetic raw materials. Can be used in a wide variety of leave-on and rinse-off personal care formulations for reliable preservation. Recommended use levels in a finished formulation is 0.1-0.5%. Add at 50�°C or below during the cool down stage of processing. Every cosmetic formulation requires a specific preservative system to meet its individual needs. Therefore, every newly developed or modified product should be challenge tested to assure preservative efficacy.
Caprylhydroxamic acid could be used as a replacement for traditional preservative in cosmetics. It still has a highly effective anti-bacterial capability in neutral environment. However when under the same circumstances, the others will be weakened. Application: Caprylhydroxamic acid may be used in emulsion. Anhydrous and surfactant systems. These include creams, lotions, shower gels and make-up. It may be added to the water phase, at ambient or hot temperatures, or may be added post-emulsidication of O/W emulsions. We do recommend avoiding lengthy exposure to elevated temperatures: for example, maximum two hours at 90C, or maximum six hours at 60C.
