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Applied Composite Materials

Erschienen in:

21.02.2017

Fatigue Hysteresis Behavior of 2.5D Woven C/SiC Composites: Theory and Experiments

verfasst von: Xuteng Hu, Zhigang Sun, Fushu Yang, Xihui Chen, Yingdong Song

Erschienen in: Applied Composite Materials | Ausgabe 6/2017

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Abstract

This paper presents an intriguing fatigue hysteresis behavior of 2.5 dimensional woven C/SiC composites via the integration tool of advanced experimental techniques with a multiscale theoretical model. Tension-tension fatigue experiment has been carried out to predict the fatigue hysteresis properties of 2.5D woven C/SiC composite at room temperature, accompanied with the fracture of specimens to investigate the mechanism of fatigue damage. Meanwhile, a multiscale fatigue model of 2.5D woven C/SiC composites, which encompasses a micro-scale model of fiber/matrix/porosity in fiber tows and a macro-scale model of unit-cell, has been proposed to provide a reliable validation of the experimental results based on fiber damages resulting from relative slip motion with respect to matrix at interfaces and the architecture of 2.5D woven C/SiC composites. The predicted hysteresis loop from theoretical model at room temperature holds great agreement with that from tension-tension fatigue experiments. Also, effects of fatigue load, braided structural parameters and material properties at micro scale on fatigue hysteresis behavior have been investigated.

Vorheriger Artikel Mechanical Behavior of CFRP Lattice Core Sandwich Bolted Corner Joints

Nächster Artikel Fatigue of a 3D Orthogonal Non-crimp Woven Polymer Matrix Composite at Elevated Temperature

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Titel: Fatigue Hysteresis Behavior of 2.5D Woven C/SiC Composites: Theory and Experiments
verfasst von: Xuteng Hu
Zhigang Sun
Fushu Yang
Xihui Chen
Yingdong Song
Publikationsdatum: 21.02.2017
Verlag: Springer Netherlands
Erschienen in: Applied Composite Materials / Ausgabe 6/2017
Print ISSN: 0929-189X
Elektronische ISSN: 1573-4897
DOI: https://doi.org/10.1007/s10443-017-9591-y

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