Modeling thermal shock damage in refractory materials via direct numerical simulation (DNS)
Author:
Publisher
Elsevier BV
Subject
Materials Chemistry,Ceramics and Composites
Reference29 articles.
1. Experimental analysis of the evolution of thermal shock damage using transit time measurement of ultrasonic waves;Damhof;Journal of the European Ceramics Society,2009
2. Strength behaviour of polycrystalline alumina subjected to thermal shock;Hasselman;Journal of the American Ceramic Society,1970
3. Strength degradation and crack propagation in thermally shocked Al2O3;Gupta;Journal of the American Ceramic Society,1971
4. Microstructural aspects of thermal stress resistance of high-strength engineering ceramics—Part I;Ziegler;Zeitschrift für Werkstofftechnik,1985
5. Some effects of microcrack on the mechanical properties of brittle solids. I. Stress, strain relations;Evans;Acta Metallurgica,1985
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