Abstract
In this study, slow crack growth (SCG) resistances of defective and normal high density polyethylene (HDPE) pipes were measured using the stiff-constant K (SCK) specimen, where the stress intensity factor (SIF) was maintained at a constant value within a certain crack length range. A significantly reduced SCG resistance was observed in the defective pipe; a detailed procedure for evaluating SCG kinetics using the SCK specimen has been provided herein. The results of a fracture surface analysis indicate that the white window patterns, resulting from poor carbon black dispersion, are the main reason for poor SCG performance. In addition, a crack layer (CL) model was derived for the SCK specimen geometry and was compared with experimental results. It was observed that the crack and process zone growth resistance parameters were significantly lower in the case of the defected pipe than those in the case of the normal pipe.
Original language | English |
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Article number | 106499 |
Journal | Polymer Testing |
Volume | 86 |
DOIs | |
State | Published - Jun 2020 |
Keywords
- Crack layer theory
- Defective pipe
- Fracture analysis
- Polyethylene
- Slow crack growth
- Stiff-constant K specimen