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Applied Composite Materials

Erschienen in:

16.11.2017

Transverse Tensile Properties of 3 Dimension-4 Directional Braided C_f/SiC Composite Based on Double-Scale Model

verfasst von: Xuming Niu, Zhigang Sun, Yingdong Song

Erschienen in: Applied Composite Materials | Ausgabe 5/2018

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Abstract

In this thesis, a double-scale model for 3 Dimension-4 directional(3D-4d) braided C/SiC composites(CMCs) has been proposed to investigate mechanical properties of it. The double-scale model involves micro-scale which takes fiber/matrix/porosity in fibers tows into consideration and the unit cell scale which considers the 3D-4d braiding structure. Basing on the Micro-optical photographs of composite, we can build a parameterized finite element model that reflects structure of 3D-4d braided composites. The mechanical properties of fiber tows in transverse direction are studied by combining the crack band theory for matrix cracking and cohesive zone model for interface debonding. Transverse tensile process of 3D-4d CMCs can be simulated by introducing mechanical properties of fiber tows into finite element of 3D-4d braided CMCs. Quasi-static tensile tests of 3D-4d braided CMCs have been performed with PWS-100 test system. The predicted tensile stress-strain curve by the double scale model finds good agreement with the experimental results.

Vorheriger Artikel Application of Bionic Design to FRP T-Joints

Nächster Artikel Damage evaluation of laminated composite material using a new acoustic emission Lamb-based and finite element techniques

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Titel: Transverse Tensile Properties of 3 Dimension-4 Directional Braided Cf/SiC Composite Based on Double-Scale Model
verfasst von: Xuming Niu
Zhigang Sun
Yingdong Song
Publikationsdatum: 16.11.2017
Verlag: Springer Netherlands
Erschienen in: Applied Composite Materials / Ausgabe 5/2018
Print ISSN: 0929-189X
Elektronische ISSN: 1573-4897
DOI: https://doi.org/10.1007/s10443-017-9648-y

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