Compressive properties and fracture behavior of two-and-a-half-dimensional C/SiC composites

Junqiang Ma; Yongdong Xu; Laifei Cheng; Litong Zhang; Jingjiang Nie

doi:10.1111/j.1744-7402.2007.02125.x

Compressive properties and fracture behavior of two-and-a-half-dimensional C/SiC composites

Junqiang Ma, Yongdong Xu, Laifei Cheng, Litong Zhang, Jingjiang Nie

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Uniaxial compression tests for two-and-a-half-dimensional carbon fiber-reinforced silicon carbide composites along the warp and weft directions were conducted at room temperature. The results show that the stress-strain behaviors for both loading directions exhibited great anisotropy. The compressive strength was greater in the weft direction than in the warp direction, which is attributed to good confinement of the weft yarns and resisting roles of the warp yarns in the former. Microscopic examinations reveal that the fracture surfaces had good correlation with the weave architecture, and the failure mechanism was characterized by transverse shear resulting from fiber microbuckling in the axial yarns.

Original language	English
Pages (from-to)	191-195
Number of pages	5
Journal	International Journal of Applied Ceramic Technology
Volume	4
Issue number	2
DOIs	https://doi.org/10.1111/j.1744-7402.2007.02125.x
State	Published - Mar 2007

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title = "Compressive properties and fracture behavior of two-and-a-half-dimensional C/SiC composites",

abstract = "Uniaxial compression tests for two-and-a-half-dimensional carbon fiber-reinforced silicon carbide composites along the warp and weft directions were conducted at room temperature. The results show that the stress-strain behaviors for both loading directions exhibited great anisotropy. The compressive strength was greater in the weft direction than in the warp direction, which is attributed to good confinement of the weft yarns and resisting roles of the warp yarns in the former. Microscopic examinations reveal that the fracture surfaces had good correlation with the weave architecture, and the failure mechanism was characterized by transverse shear resulting from fiber microbuckling in the axial yarns.",

author = "Junqiang Ma and Yongdong Xu and Laifei Cheng and Litong Zhang and Jingjiang Nie",

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T1 - Compressive properties and fracture behavior of two-and-a-half-dimensional C/SiC composites

AU - Ma, Junqiang

AU - Xu, Yongdong

AU - Cheng, Laifei

AU - Zhang, Litong

AU - Nie, Jingjiang

PY - 2007/3

Y1 - 2007/3

N2 - Uniaxial compression tests for two-and-a-half-dimensional carbon fiber-reinforced silicon carbide composites along the warp and weft directions were conducted at room temperature. The results show that the stress-strain behaviors for both loading directions exhibited great anisotropy. The compressive strength was greater in the weft direction than in the warp direction, which is attributed to good confinement of the weft yarns and resisting roles of the warp yarns in the former. Microscopic examinations reveal that the fracture surfaces had good correlation with the weave architecture, and the failure mechanism was characterized by transverse shear resulting from fiber microbuckling in the axial yarns.

AB - Uniaxial compression tests for two-and-a-half-dimensional carbon fiber-reinforced silicon carbide composites along the warp and weft directions were conducted at room temperature. The results show that the stress-strain behaviors for both loading directions exhibited great anisotropy. The compressive strength was greater in the weft direction than in the warp direction, which is attributed to good confinement of the weft yarns and resisting roles of the warp yarns in the former. Microscopic examinations reveal that the fracture surfaces had good correlation with the weave architecture, and the failure mechanism was characterized by transverse shear resulting from fiber microbuckling in the axial yarns.

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JO - International Journal of Applied Ceramic Technology

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ER -

Compressive properties and fracture behavior of two-and-a-half-dimensional C/SiC composites

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