Experimental evaluation and theoretical prediction of elastic properties and failure of C/C-SiC composite
Experimental evaluation and theoretical prediction of elastic properties and failure of C/C-SiC composite
The paper presents experimental characterization and theoretical predictions of elastic and failure properties of continuous carbon fiber reinforced silicon carbide (C/C-SiC) composite fabricated by Liquid Silicon Infiltration (LSI). Its mechanical properties were determined under uniaxial tensile, compression, and pure shear loads in two sets of principal coordinate systems, 0°–90° and ±45°, respectively. The properties measured in the 0°–90° coordinate system were employed as the input data to predict their counterparts in the ±45° coordinate system. Through coordinate transformations of stress and strain tensors, the elastic constants and stress-strain behaviors were predicted and found to be in good agreement with the experimental results. In the same way, three different failure criteria, maximum stress, Tsai-Wu, and maximum strain, have been selected for the evaluation of the failure of C/C-SiC as a type of genuinely orthotropic material. Based on the comparisons with experimental results, supported by necessary practical justifications, the Tsai-Wu criterion was found to offer a reasonable prediction of the strengths, which can be assisted by the maximum stress criterion to obtain an indicative prediction of the respective failure modes.
C/C-SiC, ceramic matrix composites, failure, mechanical properties, modeling/model
7-21
Shi, Yuan
b65a7c29-f3dc-4141-83c2-8edaf38c3478
Li, Shuguang
f99c53b3-e42e-456f-97df-4c4e06de4a40
Sitnikova, Elena
e0c2f901-24fe-43d0-88e8-76f415675104
Cepli, Daniel
d57f27a6-165c-47f0-9c57-e318ef613784
Koch, Dietmar
70ef1e14-acc9-428b-9c62-052a73b5063b
Shi, Yuan
b65a7c29-f3dc-4141-83c2-8edaf38c3478
Li, Shuguang
f99c53b3-e42e-456f-97df-4c4e06de4a40
Sitnikova, Elena
e0c2f901-24fe-43d0-88e8-76f415675104
Cepli, Daniel
d57f27a6-165c-47f0-9c57-e318ef613784
Koch, Dietmar
70ef1e14-acc9-428b-9c62-052a73b5063b
Shi, Yuan, Li, Shuguang, Sitnikova, Elena, Cepli, Daniel and Koch, Dietmar
(2021)
Experimental evaluation and theoretical prediction of elastic properties and failure of C/C-SiC composite.
International Journal of Applied Ceramic Technology, 19 (1), .
(doi:10.1111/ijac.13775).
Abstract
The paper presents experimental characterization and theoretical predictions of elastic and failure properties of continuous carbon fiber reinforced silicon carbide (C/C-SiC) composite fabricated by Liquid Silicon Infiltration (LSI). Its mechanical properties were determined under uniaxial tensile, compression, and pure shear loads in two sets of principal coordinate systems, 0°–90° and ±45°, respectively. The properties measured in the 0°–90° coordinate system were employed as the input data to predict their counterparts in the ±45° coordinate system. Through coordinate transformations of stress and strain tensors, the elastic constants and stress-strain behaviors were predicted and found to be in good agreement with the experimental results. In the same way, three different failure criteria, maximum stress, Tsai-Wu, and maximum strain, have been selected for the evaluation of the failure of C/C-SiC as a type of genuinely orthotropic material. Based on the comparisons with experimental results, supported by necessary practical justifications, the Tsai-Wu criterion was found to offer a reasonable prediction of the strengths, which can be assisted by the maximum stress criterion to obtain an indicative prediction of the respective failure modes.
Text
Int J Applied Ceramic Tech - 2021 - Shi - Experimental evaluation and theoretical prediction of elastic properties and
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e-pub ahead of print date: 8 April 2021
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© 2021 The American Ceramic Society
Keywords:
C/C-SiC, ceramic matrix composites, failure, mechanical properties, modeling/model
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Local EPrints ID: 497752
URI: http://eprints.soton.ac.uk/id/eprint/497752
ISSN: 1546-542X
PURE UUID: 0bf989d3-d7a1-4f4d-ad16-16c64ec06d38
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Date deposited: 30 Jan 2025 17:52
Last modified: 22 Aug 2025 02:46
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Contributors
Author:
Yuan Shi
Author:
Shuguang Li
Author:
Elena Sitnikova
Author:
Daniel Cepli
Author:
Dietmar Koch
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