Polymer reprocessing: Properties of polyethylene—polyvinyl chloride mixtures

The increasing tendency to consider waste polymers as suitable stocks for reconversion calls for guidelines as to the processing and end‐product behavior of mixtures involving commodity polymers. In the present case, flow and some mechanical properties of mixtures involving low density polyethylene (PE) and filled polyvinyl chloride (PVC) were determined and used as a base‐line of comparison with similar properties of multi‐component mixtures involving potential compatibilizers for the incompatible matrix pair. Chlorinated polyethylene (CPE) ethylene‐vinyl acetate (EVA) copolymer and ELvaloy polymeric plasticizer were the property modifiers selected. Blends were produced by roll‐mill, Brabender or Banbury mixing. Flow properties were measured by capillary viscometry and solid‐state properties were characterized by stress‐strain data and tensile impact performance. Melt viscosities were non‐linear functions of blend composition and varied significantly with the choice of compatibiliser, EVA and CPE producing greater benefits of melt strength than did Elvaloy. Elastic moduli, ultimate tensiles and tensile impact data also responded to the presence of compatibiliser, the EVA and CPE again being more effective in upgrading the properties of the incompatible matrix pair than was Elvaloy. Results, while preliminary, suggest guidelines for the composition of PE/PVC stocks with upgraded performance balance.