Tensile fatigue of thermoplastic fibers
Author:
Publisher
Elsevier
Reference21 articles.
1. The effects of fatigue and residual strain on the mechanical behavior of poly(ethylene terephthalate) unreinforced and nanocomposite fibers;Averett;Compos A,2009
2. Fiber test methods;Bunsell,2000
3. A mechanism of fatigue failure in nylon fibres
4. An apparatus for fatigue-testing of fibres
5. Fatigue in fibres and plastics (a review)
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