H.-F. Enderle scite author profile

Polyethylene (PE) pipes generally exhibit a limited lifetime, which is considerably shorter than their chemical degradation period. Slow crack growth failure occurs when pipes are used in long-distance water or gas distribution though being exposed to a pressure lower than the corresponding yield stress. This slow crack growth failure is characterized by localized craze growth and craze fibril rupture. In the literature, the lifetime of PE pipes is often considered as being determined by the density of tie chains connecting adjacent crystalline lamellae. But this consideration cannot explain the excellent durability of the recent bimodal grade PE for pipe application. We show in this paper the importance of the craze fibril length as the determining factor for the pipe lifetime. The conclusions are drawn from stress analysis. It is found that longer craze fibrils sustain lower stress and are deformed to a lesser degree. The mobility of the amorphous phase is found to control the amount of material that can be "sucked" in by the craze fibrils and thus the length of the craze fibrils. The mobility of the amorphous phase can be monitored by dynamic mechanical analysis measurements. Excellent agreement between the mobility thus derived and lifetimes of PE materials as derived from FNCT (full notch creep test) is given, thus providing an effective means to estimate the lifetime of PE pipes by considering well-defined physical properties.

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Polyethylene: High-density

Enderle

2001

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Polyethylene: Polymer with Future

Böhm¹,

Berthold²,

Enderle³

et al. 1999

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The Microreactor Model-Guideline for PE-HD Process and Product Development

Böhm

Bilda

Breuers

et al. 1995

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H.-F. Enderle

High‐density polyethylene pipe resins

The mobility of the amorphous phase in polyethylene as a determining factor for slow crack growth

Polyethylene: High-density

Polyethylene: Polymer with Future

The Microreactor Model-Guideline for PE-HD Process and Product Development

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