Thermal degradation of vinyl chloride-vinyl acetate copolymers—II: Degradation in solution

The rates of production of volatile material from PVA, PVC and vinyl acetate-~inyl chloride copolymers, covering the entire composition range, have been compared using thermal volatilization analysis. It is found that, at each extreme of the composition range, incorporation of the co-monomer unit re

Vinyl chloride/acetylene copolymers have been prepared under subsaturation conditions. Copolymerization rates and molecular weights of the copolymers decrease with increasing concentration of acetylene in the monomer feed, indicating that acetylene is a retarder in vinyl chloride polymerization. The

An emulsion, poly(vinyl chloride) (PVC), was analyzed for its components and was used in the preparation of flexible PVC plates utilizing sol-gel processing technology. PVC contained an ether-soluble fraction having carboxylic acid carbonyl groups, a tetrahydrofurane (THF)-insoluble fraction having

A~tract--The degradation of copolymers of vinyl 36CI-chloride and methyl methacrylate has been studied using film samples, slow heating rate and high vacuum conditions. Volatilization has been followed using thermal volatilization analysis and radioactive assay of methyl chloride and hydrogen chlori