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Probabilistic Failure Predictions in Brittle Material Under Multiaxial Loading

Lamon, J.

Abstract Statistical — probabilistic approaches to brittle failure under multiaxial loading conditions are discussed. Focus is placed more particularly on the Multiaxial Elemental Strength Model which considers the microstructural flaws as physical entities, as opposed to the well-known Weibull statistics. A computerized version of this model allows determination of failure probability for complex loading geometries. Implications for the prediction of failure in ceramics and fiber reinforced ceramic matrices, as well as the contribution of the preponderant factors are examined. Application to lifetime predictions is also addressed.

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Probabilistic Failure Predictions in Brittle Material Under Multiaxial Loading

Lamon, J.

Abstract Statistical — probabilistic approaches to brittle failure under multiaxial loading conditions are discussed. Focus is placed more particularly on the Multiaxial Elemental Strength Model which considers the microstructural flaws as physical entities, as opposed to the well-known Weibull statistics. A computerized version of this model allows determination of failure probability for complex loading geometries. Implications for the prediction of failure in ceramics and fiber reinforced ceramic matrices, as well as the contribution of the preponderant factors are examined. Application to lifetime predictions is also addressed.

Probabilistic Failure Predictions in Brittle Material Under Multiaxial Loading

Lamon, J.

Abstract Statistical — probabilistic approaches to brittle failure under multiaxial loading conditions are discussed. Focus is placed more particularly on the Multiaxial Elemental Strength Model which considers the microstructural flaws as physical entities, as opposed to the well-known Weibull statistics. A computerized version of this model allows determination of failure probability for complex loading geometries. Implications for the prediction of failure in ceramics and fiber reinforced ceramic matrices, as well as the contribution of the preponderant factors are examined. Application to lifetime predictions is also addressed.

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Title:

Probabilistic Failure Predictions in Brittle Material Under Multiaxial Loading

Contributors:

Lamon, J. (author)

Published in:

Probabilities and Materials ; 415-426

NATO ASI Series ; 269

Publication date:

1994-01-01

Size:

12 pages

ISBN:

978-94-010-4500-1 , 978-94-011-1142-3

ISSN:

DOI:

https://doi.org/10.1007/978-94-011-1142-3_35

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Probability , Statistics , Failure , Brittle Fracture , Multiaxial Stress , Heterogeneities Materials Science , Characterization and Evaluation of Materials , Probability Theory and Stochastic Processes , Mechanics , Geotechnical Engineering & Applied Earth Sciences

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