J. Chu scite author profile

Impact fracture mechanisms in a variety of commercially available and experimental thermoplastic polyolefin (TPO) blends were studied using the doublenotch four-point-bend Charpy impact test, followed by microscopy observations. It was shown that the failure mechanisms and the sizes of the subcritically formed crack-tip damage zone before fracture were quite different among the TPO systems investigated. The room temperature Izod impact strengths of the TPOs investigated were found to correlate qualitatively well with the sizes of the damage zone. At room temperature the main fracture mechanisms observed in TPOs include matrix crazing, particle-matrix debonding, rubber particle internal cavitation, and shear banding. At low temperature (Ϫ40°C), the operative fracture mechanisms in TPOs are limited only to crazing, particle cavitation, and debonding. A strategy for improving impact strength without sacrificing scratch/mar resistance of TPOs is discussed.

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The influence of microstructure on the failure behaviour of PEEK

Chu

Schultz

1989

J Mater Sci

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The influence of microstructure on the failure behaviour of PEEK

Chu

Schultz

1990

J Mater Sci

View full text Add to dashboard Cite

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J. Chu

Toughening and strengthening of polypropylene using the rigid–rigid polymer toughening concept Part I. Morphology and mechanical property investigations

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Toughening mechanisms in commercial thermoplastic polyolefin blends

The influence of microstructure on the failure behaviour of PEEK

The influence of microstructure on the failure behaviour of PEEK

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