Multiaxial stress-strain modeling and effect of additional hardening due to nonproportional loading

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Rashed, G ; Sharif University of Technology | 2007

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Type of Document: Article
DOI: 10.1007/bf03179030
Publisher: Korean Society of Mechanical Engineers , 2007
Abstract:
Most engineering components are subjected to multiaxial rather than uniaxial cyclic loading, which causes multiaxial fatigue. The pre-requisite to predict the fatigue life of such components is to determine the multiaxial stressstrain relationship. In this paper the multiaxial cyclic stress-strain model under proportional loading is derived using the modified power law stress-strain relationship. The equivalent strain amplitude consisted of the normal strain excursion and maximum shear strain amplitude is used in the proportional model to include the additional hardening effect due to nonproportional loading. Therefore a new multiaxial cyclic stress-strain relationship is devised for out of phase nonproportional loading. The model is applied to the nonproportional loading case and the results are compared with the other researchers' experimental data published in the literature, which are in a reasonable agreement with the experimental data. The relationship presented here is convenient for the engineering applications
Keywords:
Critical plane ; Thin-walled tube ; Strain excursion ; Nonproportional ; Multiaxial cyclic stress-strain relationship
Source: Journal of Mechanical Science and Technology ; Volume 21, Issue 8 , 2007 , Pages 1153-1161 ; 1738494X (ISSN)
URL: https://link.springer.com/article/10.1007/BF03179030