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Fatigue crack growth process in CPVC pipe couplings
Z. Khan
*
,
N. Merah
, F. Saghi
*
Corresponding author for this work
King Fahd University of Petroleum & Minerals
Department of Mechanical Engineering
Interdisciplinary Research Center for Advanced Materials
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Engineering
Growth Process
100%
Fatigue Crack Growth
100%
Crack Growth
66%
Fracture Surface
33%
Material Particle
33%
Fatigue Loading
33%
Test Temperature
33%
Filler Material
33%
Stress Raiser
33%
Crack Arrest
33%
Single Edge
33%
Loading Frequency
33%
Material Science
Fatigue Crack Growth
100%
Polyvinylchloride
100%
Poly(vinyl Chloride)
100%
Crack Growth
50%
Crack Arrest
25%
Morphology
25%
Physics
Surface Crack
100%