Hertzian Indentation of a ZrB^sub 2^-30% SiC Ultra-High-Temperature Ceramic up to 800°C in Air

The contact mechanical properties of the ...-30% SiC ultra-high-temperature ceramic (UHTC) were studied from room temperature up to 800...C in air, by combining Hertzian indentation tests with finite element modeling. It was found that the elastic modulus and yield stress decrease with increasing te...

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Veröffentlicht in:	Journal of the American Ceramic Society 2010-07, Vol.93 (7), p.1848
Hauptverfasser:	Zamora, Victor, Sánchez-González, Estíbaliz, Ortiz, Angel L, Miranda, Pedro, Guiberteau, Fernando
Format:	Artikel
Sprache:	eng
Schlagworte:	Ceramics Finite element analysis High temperature Mechanical properties Temperature effects
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description	The contact mechanical properties of the ...-30% SiC ultra-high-temperature ceramic (UHTC) were studied from room temperature up to 800...C in air, by combining Hertzian indentation tests with finite element modeling. It was found that the elastic modulus and yield stress decrease with increasing temperature, especially above 600...C. It was also found that the ...-30% SiC UHTC is "ductile" in the sense that its first damage mode is quasiplasticity, followed by cone cracking, and eventually by radial cracking. However, its contact-damage resistance degrades as the temperature increases, again especially above 600...C. Nevertheless, it is highly damage tolerant because the critical loads for radial cracking are one order of magnitude greater than these for quasiplasticity. This is the first report on the temperature dependence of the Hertzian indentation of UHTCs, whose study is necessary if they are to be used in aerospace applications. (ProQuest: ... denotes formulae/symbols omitted.)
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It was found that the elastic modulus and yield stress decrease with increasing temperature, especially above 600...C. It was also found that the ...-30% SiC UHTC is "ductile" in the sense that its first damage mode is quasiplasticity, followed by cone cracking, and eventually by radial cracking. However, its contact-damage resistance degrades as the temperature increases, again especially above 600...C. Nevertheless, it is highly damage tolerant because the critical loads for radial cracking are one order of magnitude greater than these for quasiplasticity. This is the first report on the temperature dependence of the Hertzian indentation of UHTCs, whose study is necessary if they are to be used in aerospace applications. 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source	Wiley Online Library Journals Frontfile Complete
subjects	Ceramics Finite element analysis High temperature Mechanical properties Temperature effects
title	Hertzian Indentation of a ZrB^sub 2^-30% SiC Ultra-High-Temperature Ceramic up to 800°C in Air
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