Journal of the Society of Materials Science, Japan
Online ISSN : 1880-7488
Print ISSN : 0514-5163
ISSN-L : 0514-5163
Bending Strength Analysis of Ceramics Based on the Statistical Theory of Stress and Fracture Location
Yoshifumi TANIGUCHIJunichi KITAZUMIToshiro YAMADA
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1989 Volume 38 Issue 430 Pages 777-782

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Abstract

In this report, we analysed the data of 3-point bending tests on Si3N4 and PSZ rectangular bar specimens and ZrO2 round bar specimens. The strength distributions of Si3N4 and PSZ and that of ZrO2 were representd by the multi-modal Weibull distribution and 2-parameter Weibull distribution (mono-modal), respectively. The parameters of the former were estimated with the multi-step maximum likelihood method, and those of the latter with the least square method. Using these parameters, the true stress (stress at the fracture origin) distributions were calculated on the basis of the statistical theory of stress and fracture location. As a result of comparison of the calculated distributions and experimental data, it was found that the both distributions showed good agreement.
Furthermore, on the ZrO2 round bar specimens other bending tests were carried out, varying the specimen size and the loading method. Weibull moduli obtained in the tests were not constant. There was a tendency that they increased as the effective size decreased. We discussed the reason of this change, considering the experimental relationship between the crack size and the fracture strength.

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