Simulation of Thermal and Mechanical Response of (Zr,W)B2 Ceramic after Oxidation

This study relates to a micromechanics based finite element model of the effect of oxidation on heat transfer and mechanical behavior of a (Zr,W)B2 ceramic at high temperature. An adaptive remeshing technique is employed in both heat transfer and thermal stress analysis models. A global-local modeli...

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Veröffentlicht in:	Applied Mechanics and Materials 2013-11, Vol.446-447 (Advanced Research in Material Science and Mechanical Engineering), p.40-44
Hauptverfasser:	Hilmas, Gregory E., Chandrashekhara, K., Dharani, Lokeswarappa R., Fahrenholtz, William G., Dehdashti, Maryam K., Wei, Jun
Format:	Artikel
Sprache:	eng
Schlagworte:	Ceramics Finite element method Heat transfer Mathematical analysis Mathematical models Oxidation Oxides Thermal stresses
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container_end_page	44
container_issue	Advanced Research in Material Science and Mechanical Engineering
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container_title	Applied Mechanics and Materials
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creator	Hilmas, Gregory E. Chandrashekhara, K. Dharani, Lokeswarappa R. Fahrenholtz, William G. Dehdashti, Maryam K. Wei, Jun
description	This study relates to a micromechanics based finite element model of the effect of oxidation on heat transfer and mechanical behavior of a (Zr,W)B2 ceramic at high temperature. An adaptive remeshing technique is employed in both heat transfer and thermal stress analysis models. A global-local modeling technique is used to combine finite elements with infinite elements for thermal stress analysis. Temperature and thermal stress distributions in the ceramic and the oxides are presented.
doi_str_mv	10.4028/www.scientific.net/AMM.446-447.40
format	Article
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subjects	Ceramics Finite element method Heat transfer Mathematical analysis Mathematical models Oxidation Oxides Thermal stresses
title	Simulation of Thermal and Mechanical Response of (Zr,W)B2 Ceramic after Oxidation
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