Toughened mica‐filled polypropylene systems
- 20 July 1988
- journal article
- research article
- Published by Wiley in Journal of Applied Polymer Science
- Vol. 36 (3) , 467-480
- https://doi.org/10.1002/app.1988.070360302
Abstract
A family of rubber‐toughened, mica‐filled polypropylene materials was developed. The rubber modifier used was an ethylene‐propylene‐diene monomer (EPDM) compound. A unique feature of this rubber‐modified system is that it can be directly molded from a dry blend. This simplifies processing by eliminating the need for melt compounding which, in turn, contributes to greater flexural moduli since attrition of the mica platelets is reduced. In addition, impact measurements were conducted as a function of temperature for EPDM/polypropylene and EPM D/poly(propylene‐ethylene) copolymer blends. The low temperature impact resistance was improved for both systems; however, the modified copolymer system maintained ductile behavior to a far lower temperature than the corresponding homopolymer system.Keywords
This publication has 10 references indexed in Scilit:
- Fracture of mica‐reinforced polypropylene: Mica concentration effectPolymer Composites, 1985
- The structure of propylene-ethylene sequential copolymersPolymer, 1985
- Rubber‐toughening in polypropyleneJournal of Applied Polymer Science, 1985
- Ductile–brittle transition in polymersJournal of Applied Polymer Science, 1984
- Mechanical properties and morphology of polypropylene composites. Talc‐filled, elastomer‐modified polypropylenePolymer Composites, 1984
- Phase structure of impact-modified polypropylene blendsPolymer, 1984
- The properties of mica‐filled polypropylenesPolymer Engineering & Science, 1984
- Toughness Evaluation of Blends of Polypropylene/Cross-Linked Rubber Using the High-Speed Puncture TestJournal of Elastomers & Plastics, 1983
- Dynamic mechanical and impact properties of polypropylene/EPDM blendsPolymer, 1982
- The effect of flake aspect ratio on the flexural properties of mica reinforced plasticsPolymer Engineering & Science, 1973