IUPAC Name
Ethenol, Vinyl Alcohol
Cas Number
9002-89-5
HS Code
3905.30.00
Formula
(CH2CHOH)n
Industry
Textile Chemicals
Appearance
White or Slight Yellow Powder/Granular Solid
Common Names
Polyethenol, Ethenol Homopolymer
Packaging
25 Kgs Bags
Polyvinyl alcohols, also known as Polyethanol or PVA, are polymers from its monomer vinyl alcohol. Polyvinyl alcohol is physically odorless and tasteless, translucent, non- toxic, white or cream colored granular powder. The specific functional and physical characteristics of polyvinyl alcohol will depend on the degree of hydrolysis and the degree of polymerization. Because of that, polyvinyl alcohol is classified into two classes namely: partially hydrolyzed and fully hydrolyzed. Partially hydrolyzed PVA is usually applied in the food industry. Certain grades of PVA also exhibit biodegradability, adding to its appeal as a more environmentally conscious material.
Polyvinyl Alcohol (PVA) is mainly produced in two steps: first, vinyl acetate is polymerized into polyvinyl acetate (PVAc). Then, PVAc undergoes hydrolysis in an alcohol solution with an alkaline catalyst to replace acetate groups with hydroxyl groups, forming PVA. The degree of this replacement dictates PVA's final properties, like water solubility. Finally, the resulting PVA is separated, purified, and dried.
Polyvinyl alcohols, also known as Polyethanol or PVA, are polymers from its monomer vinyl alcohol. Polyvinyl alcohol is physically odorless and tasteless, translucent, non- toxic, white or cream colored granular powder. The specific functional and physical characteristics of polyvinyl alcohol will depend on the degree of hydrolysis and the degree of polymerization. Because of that, polyvinyl alcohol is classified into two classes namely: partially hydrolyzed and fully hydrolyzed. Partially hydrolyzed PVA is usually applied in the food industry. Certain grades of PVA also exhibit biodegradability, adding to its appeal as a more environmentally conscious material.
Polyvinyl Alcohol (PVA) is mainly produced in two steps: first, vinyl acetate is polymerized into polyvinyl acetate (PVAc). Then, PVAc undergoes hydrolysis in an alcohol solution with an alkaline catalyst to replace acetate groups with hydroxyl groups, forming PVA. The degree of this replacement dictates PVA's final properties, like water solubility. Finally, the resulting PVA is separated, purified, and dried.
