J́erôme B́enabes scite author profile

J́erôme B́enabes

2Publications

30Citation Statements Received

33Citation Statements Given

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Arts et Metiers Institute of Technology, Société Nationale des Chemins de Fer Français (France), University of Bordeaux

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Non-local energy based fatigue life calculation method under multiaxial variable amplitude loadings

Saintier

Palin‐Luc

B́enabes

et al. 2013

International Journal of Fatigue

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Reliable design of industrial components against high cycle multiaxial fatigue requires a model capable of predicting both stress gradient and load type effects. Indeed, taking into account gradient effects is of prior importance for the applicability of fatigue models to real structures. In this paper, a fatigue life assessment method is proposed for proportional and non-proportional multiaxial variable amplitude loadings in the range 10 4-10 7 cycles. This method derives from the fatigue criterion initially proposed by Palin-Luc and Lasserre (1998) [2] and revisited by Banvillet et al. (2003) [16] for multiaxial constant amplitude loading. The new proposal consists of a complete reformulation and extension of the previously cited energy based fatigue strength criteria. It includes two major improvements of the existing criteria. The first one consists in a fatigue criterion for multiaxial variable amplitude loadings while only constant amplitude loadings were considered in the above cited works. The second one is an extension to an incremental fatigue life assessment method for proportional and non-proportional multiaxial variable amplitude loadings. No cycle counting technique is needed whatever the variable amplitude loadings type considered (uniaxial or multiaxial). The predictions of the method for constant and variable amplitude multiaxial loadings are compared with experimental results on specimens from literature and from new experiments on a ferrito-perlitic steel. The above mentioned method has been implemented as a post-processor of a finite element software. An application to a railway wheel is finally presented.

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An Incremental Energy‐based Fatigue Life Calculation Method for Metallic Structures under Multiaxial Loadings

B́enabes

Saintier

Palin‐Luc

2007

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J́erôme B́enabes

Non-local energy based fatigue life calculation method under multiaxial variable amplitude loadings

An Incremental Energy‐based Fatigue Life Calculation Method for Metallic Structures under Multiaxial Loadings

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