Product Details:
Purity % | >99% |
Packaging Details | 25 litres Can |
Usage/Application | adhesives, Manufacturing resins, paint removers, flavoring solvents |
Grade Standard | Industrial Grade |
CAS No | 98-00-0 |
Synonyms | Furfuranol, C5H6O2, 2-Furanmethanol, Furylcarbinol |
Physical State | Liquid |
In order to keep pace with never ending demands of the customers, our company is instrumental in offering Furfuryl Alcohol, CAS No. 98-00-0, C5H6O2 which is widely used in manufacturing of resins, adhesives & solvents along with other uses. Get best price of 99% pure Furfuryl Alcohol in 25 litres can.
Product Details:
Purity % | >99% |
Packaging Details | 50 kg Bag |
Usage/Application | Emollient and thickener in ointments, Primary ingredient in plasticizers, Ingredient in lubricants |
Grade Standard | Industrial Grade |
CAS No | 112-92-5 |
Synonyms | Octadecyl alcohol, Octadecanol, Octadecan-1-ol |
Physical State | Powder |
What is stearyl alcohol?
Stearyl alcohol is a chemical found in cosmetic products. They’re found in animals and plants, like coconut and palm oil. They can also be made in a laboratory.
They are used in personal care products, mainly skin lotions, hair products, and creams. They help create smoother creams, thicker lotions, and more stable foam products.
Fatty alcohols are sometimes called long-chain alcohols because of their chemical formula. They usually have an even number of carbon atoms, with a single alcohol group (–OH) attached to the last carbon.
Get Best price of >99% pure 25 kg bag of Stearyl Alcohol CAS No. 112-92-5, C18H38O. It is used in solvents, manufacturing of flavouring agents & cosmetics. Certificate of Analysis (COA) & MSDS available.
Uses:
Hazard Classes and Categories:
Eye Irrit. 2 (59.88%)
Aquatic Acute 1 (39.52%)
Aquatic Chronic 1 (19.76%)
Aquatic Chronic 2 (39.97%)
Aquatic Chronic 3 (39.67%)
Bionecessity: Stearyl alcohol is found naturally in various mammalian tissues. It is used in the biosynthesis of lipids and other naturally occurring cellular constituents and enters metabolic pathways for energy production.
Several studies indicate that 1-octadecanol is poorly absorbed from the gastrointestinal tract. The entry of 14C-octadecanol into the thoracic lymph duct of the Sprague-Dawley rat was reported. Lymph flows and blood were monitored for radioactivity in different intervals following dosing. Intestinal radioactivity was determined in the intestinal homogenate which showed the percent absorbed radioactivity in the lymph was 56.6 +/- 14.0.
It is used in the biosynthesis of lipids and other naturally occurring cellular constituents and enters metabolic pathways for energy production.