Kuraray’s PVOH grades vary in viscosity, affecting adhesion strength, film forming properties, water sensitivity, and activity as a dispersing agent.
High viscosity grades have increased film and adhesive strength, better emulsion stabilizing and dispersant characteristics, less water sensitivity and higher shear viscosity in high solids coatings. These characteristics make them excellent for adhesive applications, water soluble films, and adhesives.
Kuraray offers a wide range of PVOH grades that fit into four major ranges of PVOH: Partially hydrolyzed, middle hydrolyzed, fully hydrolyzed, and super hydrolyzed. PVOH that is fully or super hydrolyzed has improved water resistance compared to lower hydrolysis PVOH. Unlike solutions of partially hydrolyzed PVOH, solutions of fully and super hydrolyzed PVOH do not foam.
The degree of hydrolysis is very important as it affects the level of water solubility or resistance, dissolving temperature, and surface tension of a solution depending on the characteristics that a customer needs.
water-resistant films, specialty paper applications, and adhesives
textile finishing, paper and paperboard, adhesives, pressure-sensitive tapes, and ceramic binders
warp-sizing for spun yarn, textile finishing, emulsifier for PVAc Emulsion and ceramic binders
warp-sizing for spun and filament yarn, pressure sensitive, remoistening adhesive, soil stabilization, films, and emulsifier for EVA and PVAc Emulsions
Kuraray Poval™ L series have a low degree of hydrolysis. However, they are completely water-soluble. At 70–80 mol% hydrolysis, viscosity in a 4% aqueous solution ranges from 5 mPas to 8 mPas. These products are very effective as protective colloids in the PVC suspension process. Kuraray also offers LM series that are completely water soluble.
POVAL is the popular name for polyvinyl alcohol (PVOH) described as a organic polymer-based polymeric compound. Polyvinyl alcohol is a substance that was first created by German scientist W. Hermann. It is chemically classified as a polymeric polyhydric alcohol having a secondary hydroxyl group at every other carbon atom of a carbon chain and is expressed by the following general structure…