Abstract

The critical plane calculation for multiaxial damage assessment is often a demanding task, particularly for large FEM models of real components. Anyway, in actual engineering requests, sometime, it is possible to take advantage of the specific properties of the investigated case. This paper deals with the problem of a mechanical component loaded by multiple, but "time-separated", multiaxial external loads. The specific material damage is dependent from the max principal stress variation with a significant mean stress sensitivity too. A specifically fitted procedure was developed for a fast computation, at each node of a large FEM model, of the direction undergoing the maximum fatigue damage; the procedure is defined according to an effective stress definition based on the max principal stress amplitude and mean value. The procedure is presented in a general form, applicable to the similar cases.

Details

Title
Fast assessment of the critical principal stress direction for multiple separated multiaxial loadings
Author
Cova, M; Livieri, P; Tovo, R
Pages
390-396
Section
Articles
Publication year
2015
Publication date
Jul 2015
Publisher
Gruppo Italiano Frattura
e-ISSN
19718993
Source type
Scholarly Journal
Language of publication
English
DOI
https://doi.org/10.3221/IGF-ESIS.33.43
ProQuest document ID
1696024646
Copyright
Copyright Gruppo Italiano Frattura Jul 2015