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Erschienen in: Applied Composite Materials 4/2018

14.08.2018

Multi-Scale Progressive Damage Model for Analyzing the Failure Mechanisms of 2D Triaxially Braided Composite under Uniaxial Compression Loads

verfasst von: Songjun Zhang, Hongyong Jiang, Yiru Ren, Zhansen Qian, Zheqi Lin

Erschienen in: Applied Composite Materials | Ausgabe 4/2018

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Abstract

Based on continuum damage mechanics (CDM), a multi-scale progressive damage model (PDM) is developed to analyze the uniaxial compression failure mechanisms of 2D triaxially braided composite (2DTBC). The multi-scale PDM starts from the micro-scale analysis which obtains the stiffness and strength properties of fiber tows by a representative unit cell (RUC) model. Meso-scale progressive damage analysis is conducted subsequently to predict the compression failure behaviors of the composite using the results of micro-scale analysis as inputs. To research the free-edge effect on the local failure mechanisms, meso-scale models of different widths are also established. The stress-strain curves obtained by numerical analysis are verified with the experimental data. Results show that fiber and matrix compression failure inside the fiber tows are the major failure modes of the composite under axial compression. For transverse compression, the dominated failure modes are recorded for matrix compression failure inside the fiber tows. It is also presented that the free-edge effect plays an important role in the transverse mechanical response of the composite, and the failure behaviors of the internal fiber tows are strongly influenced as well.

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Metadaten
Titel
Multi-Scale Progressive Damage Model for Analyzing the Failure Mechanisms of 2D Triaxially Braided Composite under Uniaxial Compression Loads
verfasst von
Songjun Zhang
Hongyong Jiang
Yiru Ren
Zhansen Qian
Zheqi Lin
Publikationsdatum
14.08.2018
Verlag
Springer Netherlands
Erschienen in
Applied Composite Materials / Ausgabe 4/2018
Print ISSN: 0929-189X
Elektronische ISSN: 1573-4897
DOI
https://doi.org/10.1007/s10443-018-9732-y

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