Matrix cracking in intermetallic composites caused by thermal expansion mismatch

T. C. Lu; J. Yang; Z. Suo; A. G. Evans; R. Hecht; R. Mehrabian

doi:10.1016/0956-7151(91)90157-V

Matrix cracking in intermetallic composites caused by thermal expansion mismatch

T. C. Lu
, J. Yang
, Z. Suo
, A. G. Evans
, R. Hecht
, R. Mehrabian

University of California at Santa Barbara
United Technologies Corporation
Carnegie Mellon University

科研成果: 期刊稿件 › 文章 › 同行评审

108 引用（Scopus）

摘要

Matrix cracking in brittle matrix composites caused by thermal expansion misfit has been addressed by a combination of experiment with calculations. It has been established that a critical reinforcement size exists below which matrix cracking is suppressed. This concept is summarized in terms of a non-dimensional group; R, of the reinforcement size, misfit strain, elastic modulus and matrix toughness. It has also been demonstrated that the interface exerts a major influence on matrix cracking, through relaxation of constraint by debonding. Furthermore, the results imply that a failsafe value of R exists, of order unity, that can be used to select material combinations that suppress matrix cracking.

源语言	英语
页（从-至）	1883-1890
页数	8
期刊	Acta Metallurgica Et Materialia
卷	39
期	8
DOI	https://doi.org/10.1016/0956-7151(91)90157-V
出版状态	已出版 - 8月 1991
已对外发布	是

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abstract = "Matrix cracking in brittle matrix composites caused by thermal expansion misfit has been addressed by a combination of experiment with calculations. It has been established that a critical reinforcement size exists below which matrix cracking is suppressed. This concept is summarized in terms of a non-dimensional group; R, of the reinforcement size, misfit strain, elastic modulus and matrix toughness. It has also been demonstrated that the interface exerts a major influence on matrix cracking, through relaxation of constraint by debonding. Furthermore, the results imply that a failsafe value of R exists, of order unity, that can be used to select material combinations that suppress matrix cracking.",

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AU - Lu, T. C.

AU - Yang, J.

AU - Suo, Z.

AU - Evans, A. G.

AU - Hecht, R.

AU - Mehrabian, R.

PY - 1991/8

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N2 - Matrix cracking in brittle matrix composites caused by thermal expansion misfit has been addressed by a combination of experiment with calculations. It has been established that a critical reinforcement size exists below which matrix cracking is suppressed. This concept is summarized in terms of a non-dimensional group; R, of the reinforcement size, misfit strain, elastic modulus and matrix toughness. It has also been demonstrated that the interface exerts a major influence on matrix cracking, through relaxation of constraint by debonding. Furthermore, the results imply that a failsafe value of R exists, of order unity, that can be used to select material combinations that suppress matrix cracking.

AB - Matrix cracking in brittle matrix composites caused by thermal expansion misfit has been addressed by a combination of experiment with calculations. It has been established that a critical reinforcement size exists below which matrix cracking is suppressed. This concept is summarized in terms of a non-dimensional group; R, of the reinforcement size, misfit strain, elastic modulus and matrix toughness. It has also been demonstrated that the interface exerts a major influence on matrix cracking, through relaxation of constraint by debonding. Furthermore, the results imply that a failsafe value of R exists, of order unity, that can be used to select material combinations that suppress matrix cracking.

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JO - Acta Metallurgica Et Materialia

JF - Acta Metallurgica Et Materialia

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ER -

Matrix cracking in intermetallic composites caused by thermal expansion mismatch

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