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The dependence of butyl branch density on slow crack growth in polyethylene: Kinetics

✍ Scribed by Yan-Ling Huang; Norman Brown

Publisher
John Wiley and Sons
Year
1990
Tongue
English
Weight
583 KB
Volume
28
Category
Article
ISSN
0887-6266

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✦ Synopsis

Abstract

When the density of n‐butyl branches in an ethylene–hexene copolymer increases from 0 to 4.6 butyls/1000 C, the rate of slow crack growth decreases by a factor of 10^4^ . The activation energy for the process is nearly independent of branch density and is about 120 kJ/mol. It is the number of tie molecules and whether they are pinned that control the rate of crack growth which involves the disentanglement of the fibrils in the craze. Branching increases the number of tie molecules by decreasing the lamella thickness, while the branches pin some of the tie molecules to prevent them from sliding through the crystal or other points of entanglement.

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