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A toughening model of crack bridging reinforced ceramic matrix composites is presented. It was shown that this transition closely relates to the extent of toughness, particle size or volume fraction, and the particle yield stress. The constitutive equation is obtained through micromechanical considerations based on crack bridging toughening. The results show that the model is in good agreement with SEM results.
A toughening model of crack bridging reinforced ceramic matrix composites is presented. It was shown that this transition closely relates to the extent of toughness, particle size or volume fraction, and the particle yield stress. The constitutive equation is obtained through micromechanical considerations based on crack bridging toughening. The results show that the model is in good agreement with SEM results.
Effect of Toughening Mechanisms of Crack Bridging on Ceramic Materials
Advanced Materials Research ; 476-478 ; 1071-1074
2012-02-27
4 pages
Article (Journal)
Electronic Resource
English
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