|Minimum Order Quantity||160 Kg|
|Packaging Type||Hdpe Barrel|
Isopropyl alcohol is a colorless, flammable chemical compound with a strong odor. As an isopropyl group linked to a hydroxyl group, it is the simplest example of a secondary alcohol, where the alcohol carbon atom is attached to two other carbon atoms. It is a structural isomer of 1-propanol and ethyl methyl ether.
sopropyl alcohol is mixed with water for use as a rubbing-alcohol antiseptic. It is also used in aftershave lotions, hand lotions, and other cosmetics. In industry it is used as an inexpensive solvent for cosmetics, drugs, shellacs, and gums, as well as for denaturing ethanol (ethyl alcohol)
Isopropyl Alcohol , also called isopropanol or 2-propanol, is most commonly known as rubbing alcohol. Isopropyl Alcohol is widely used in cosmetics and personal care products, such as aftershave lotions, bath products, eye and other makeup products, as well as nail, hair, and skin care products.
|Minimum Order Quantity||250 Kg|
|Brand||Indonesia, Adani willmar, Godrej, VVF|
|Grade||USP, CP, IP|
|Usage/Application||Detergent, Sanitizer, pharmaceutical|
Glycerol is a simple polyol compound. It is a colorless, odorless, viscous liquid that is sweet-tasting and non-toxic. The glycerol backbone is found in those lipids known as glycerides. Due to having antimicrobial and antiviral properties it is widely used in FDA approved wound and burn treatment.
Uses. its used in many applications
including cosmetic & pahrma app.
irritations (e.g., diaper rash, skin burns from radiation therapy). Emollients are substances that soften and moisturize the skin and decrease itching and flaking.
gycerol is a simple polyol compound. It is a colorless, odorless, viscous liquid that is sweet-tasting and non-toxic. The glycerol backbone is found in those lipids known as glycerides. Due to having antimicrobial and antiviral properties it is widely used in FDA approved wound and burn treatments.
|Minimum Order Quantity||2000 Kg|
|Packaging Size||30 KG|
|Application||INDUSTRIAL , SANITIZER|
|Chemical Properties||BOILING POINT 150.2 DegreeC|
Hydrogen peroxide is a mild antiseptic used on the skin to prevent infection of minor cuts, scrapes, and burns. It may also be used as a mouth rinse to help remove mucus or to relieve minor mouth irritation (e.g., due to canker/cold sores, gingivitis). This product works by releasing oxygen when it is applied to the affected area. The release of oxygen causes foaming, which helps to remove dead skin and clean the area.
This product should not be used to treat deep wounds, animal bites, or serious burns.
Hydrogen peroxide (H2O2) is a weak acid that works as an oxidiser similar to chlorine. The key by-products formed when hydrogen peroxide is used are water and oxygen, which makes it a good choice for treating water with high levels of organic matter such as ponds or rivers. The hydrogen peroxide found in drugstores or pharmacies is only a three per cent concentration, while the products commonly used for water disinfection range from 16 to 34 per cent with 50 per cent H2O2 products available for use in removing biofilms from water systems between flocks. Hydrogen peroxide can also be used to oxidise iron, manganese and sulphur, which can then be removed with filtration.
Industrial hydrogen peroxide is used for bleaching of chemical pulp, mechanical pulp, and recycled pulp (de-inking). Use of industrial hydrogen peroxide in pulp & paper bleaching increases brightness levels, improves brightness stability, and reduces manufacturing cost, as it is the only one chemical that is required.
Decomposition of hydrogen peroxide liberates oxygen and heat. In dilute solutions the heat evolved is readily absorbed by the water present. In more concentrated solutions, the heat raises the temperature of the solution and accelerates the decomposition rate. Special stabilizers are added during the manufacture of all grades of hydrogen peroxide to inhibit the catalytic decomposition effect of metals and other impurities that may accidentally contaminate the chemical during shipment, storage, and handling.
However, since no additive will prevent decomposition if excessive contamination occurs, the best practice is to prevent contamination through proper handling. All handling procedures must, therefore, be directed towards maintaining the same degree of purity and freedom from contamination as is maintained during the manufacturing process:
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