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Cyclic Fatigue

Prof. Munz, Dietrich / Dr. Fett, Theo

Abstract The failure of ceramic components under cyclic loading — often designated as cyclic fatigue — was already mentioned in Sect. 5.2.3. It was shown that the lifetime can be predicted from the results obtained in tests with constant load under the assumption that the same mechanism is responsible for constant and cyclic loading. This assumption has been confirmed by cyclic experiments on glass and porcelain [6.1]. For many ceramic materials (especially for alumina and zirconia) a real cyclic effect could be proved (see e.g. [6.2-6.8]). The crack growth rate in these materials is larger and the lifetime is shorter than that predicted from constant load tests.

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Cyclic Fatigue

Prof. Munz, Dietrich / Dr. Fett, Theo

Abstract The failure of ceramic components under cyclic loading — often designated as cyclic fatigue — was already mentioned in Sect. 5.2.3. It was shown that the lifetime can be predicted from the results obtained in tests with constant load under the assumption that the same mechanism is responsible for constant and cyclic loading. This assumption has been confirmed by cyclic experiments on glass and porcelain [6.1]. For many ceramic materials (especially for alumina and zirconia) a real cyclic effect could be proved (see e.g. [6.2-6.8]). The crack growth rate in these materials is larger and the lifetime is shorter than that predicted from constant load tests.

Cyclic Fatigue

Prof. Munz, Dietrich / Dr. Fett, Theo

Abstract The failure of ceramic components under cyclic loading — often designated as cyclic fatigue — was already mentioned in Sect. 5.2.3. It was shown that the lifetime can be predicted from the results obtained in tests with constant load under the assumption that the same mechanism is responsible for constant and cyclic loading. This assumption has been confirmed by cyclic experiments on glass and porcelain [6.1]. For many ceramic materials (especially for alumina and zirconia) a real cyclic effect could be proved (see e.g. [6.2-6.8]). The crack growth rate in these materials is larger and the lifetime is shorter than that predicted from constant load tests.

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Title:

Cyclic Fatigue

Contributors:

Prof. Munz, Dietrich (author) / Dr. Fett, Theo (author)

Published in:

Ceramics ; 109-124

Springer Series in Materials Science ; 36

Publication date:

1999-01-01

Size:

16 pages

ISBN:

978-3-642-58407-7 , 978-3-642-63580-9

ISSN:

0933-033X , 2196-2812

DOI:

https://doi.org/10.1007/978-3-642-58407-7_6

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Stress Intensity Factor , Crack Growth Rate , Cyclic Test , Weibull Modulus , Cyclic Fatigue Engineering , Industrial and Production Engineering , Materials Science, general , Characterization and Evaluation of Materials , Theoretical and Applied Mechanics

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