Materials Transactions, JIM
Online ISSN : 2432-471X
Print ISSN : 0916-1821
ISSN-L : 0916-1821
Strengthening Mechanisms of Metal Matrix Composites
Minoru Taya
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Keywords: metal matrix composites, yield stress, flow stress, work-hardening rate, law of mixtures model, shear lag model, elastic peg model, back stress, punching of dislocations, CTE mismatch strain, Eshelby’s method
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1991 Volume 32 Issue 1 Pages 1-19

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Abstract
Strengthening mechanisms of metal matrix composites (MMCs) are discussed from the viewpoint of both macro-and nano-level models. The macro-level models are law of mixtures and shear lag models, which are reasonably adequate for explaining the strengthening of aligned fiber (continuous and short) MMCs. While the nano-level models are based on dislocations (punching and back stress) and are found to explain well the strengthening observed in particulate MMCs. In both macro-and nano-level models, the residual stresses induced due to the CTE mismatch strain play an important role in influencing the yield stress of the composites.
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