Effect of shrinkage constraint on damage of C/SiC composites during thermal cycles in oxidising atmosphere

Hui Mei; L. F. Cheng; L. T. Zhang; Y. D. Xu

doi:10.1179/174367606X146667

Effect of shrinkage constraint on damage of C/SiC composites during thermal cycles in oxidising atmosphere

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

Abstract

Thermal cycling response of a three-dimensional C/SiC composite subjected to a unidirectional shrinkage constraint in wet oxygen was investigated. Constraint stress generated on both ends of the composite specimens during thermal cycles is shown to decrease upon heating and increase with cooling. Nevertheless, the peaks of the constraint stress gradually reduced from the initial 41 MPa to the final constant value of 9.8 MPa after 20 cycles. Residual mechanical properties and microstructure characterisation suggest that the cycled composites suffer a little mechanical degradation and the shrinkage constraint is of advantage to oxidation resistance of the materials during thermal cycles.

Original language	English
Pages (from-to)	309-312
Number of pages	4
Journal	Advances in Applied Ceramics
Volume	105
Issue number	6
DOIs	https://doi.org/10.1179/174367606X146667
State	Published - Dec 2006

Keywords

Ceramic matrix composites
Constraint
Damage
High temperature
Microstructure
Thermal cycling

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title = "Effect of shrinkage constraint on damage of C/SiC composites during thermal cycles in oxidising atmosphere",

abstract = "Thermal cycling response of a three-dimensional C/SiC composite subjected to a unidirectional shrinkage constraint in wet oxygen was investigated. Constraint stress generated on both ends of the composite specimens during thermal cycles is shown to decrease upon heating and increase with cooling. Nevertheless, the peaks of the constraint stress gradually reduced from the initial 41 MPa to the final constant value of 9.8 MPa after 20 cycles. Residual mechanical properties and microstructure characterisation suggest that the cycled composites suffer a little mechanical degradation and the shrinkage constraint is of advantage to oxidation resistance of the materials during thermal cycles.",

keywords = "Ceramic matrix composites, Constraint, Damage, High temperature, Microstructure, Thermal cycling",

author = "Hui Mei and Cheng, \{L. F.\} and Zhang, \{L. T.\} and Xu, \{Y. D.\}",

year = "2006",

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doi = "10.1179/174367606X146667",

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T1 - Effect of shrinkage constraint on damage of C/SiC composites during thermal cycles in oxidising atmosphere

AU - Mei, Hui

AU - Cheng, L. F.

AU - Zhang, L. T.

AU - Xu, Y. D.

PY - 2006/12

Y1 - 2006/12

N2 - Thermal cycling response of a three-dimensional C/SiC composite subjected to a unidirectional shrinkage constraint in wet oxygen was investigated. Constraint stress generated on both ends of the composite specimens during thermal cycles is shown to decrease upon heating and increase with cooling. Nevertheless, the peaks of the constraint stress gradually reduced from the initial 41 MPa to the final constant value of 9.8 MPa after 20 cycles. Residual mechanical properties and microstructure characterisation suggest that the cycled composites suffer a little mechanical degradation and the shrinkage constraint is of advantage to oxidation resistance of the materials during thermal cycles.

AB - Thermal cycling response of a three-dimensional C/SiC composite subjected to a unidirectional shrinkage constraint in wet oxygen was investigated. Constraint stress generated on both ends of the composite specimens during thermal cycles is shown to decrease upon heating and increase with cooling. Nevertheless, the peaks of the constraint stress gradually reduced from the initial 41 MPa to the final constant value of 9.8 MPa after 20 cycles. Residual mechanical properties and microstructure characterisation suggest that the cycled composites suffer a little mechanical degradation and the shrinkage constraint is of advantage to oxidation resistance of the materials during thermal cycles.

KW - Ceramic matrix composites

KW - Constraint

KW - Damage

KW - High temperature

KW - Microstructure

KW - Thermal cycling

UR - https://www.scopus.com/pages/publications/33751293060

U2 - 10.1179/174367606X146667

DO - 10.1179/174367606X146667

M3 - 文章

AN - SCOPUS:33751293060

SN - 1743-6753

VL - 105

SP - 309

EP - 312

JO - Advances in Applied Ceramics

JF - Advances in Applied Ceramics

IS - 6

ER -

Effect of shrinkage constraint on damage of C/SiC composites during thermal cycles in oxidising atmosphere

Abstract

Keywords

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