Fatigue Life Prediction Under Multiaxial Variable Amplitude Loading Using A Stress-Based Criterion-Reference-Cited by-同舟云学术

Fatigue Life Prediction Under Multiaxial Variable Amplitude Loading Using A Stress-Based Criterion

Published:2020-01 Issue:1 Volume:10 Page:33-53
ISSN:2156-1680
Container-title:International Journal of Manufacturing, Materials, and Mechanical Engineering
language:en
Short-container-title:

Author:

Quoc Huy VU ¹,Dinh Quy VU ²,Thi Tuyet Nhung LE ²

Affiliation:

1. Vietnamese-German University, Binh Duong, Viet Nam

2. Hanoi University of Science and Technology, School of Transportation Engineering, Hanoi, Viet Nam

Abstract

This article presents fatigue life calculations for metals under different multiaxial variable amplitude loading patterns. Developed from a stress-based multiaxial fatigue criterion, a damage parameter used in the fatigue life prediction method can capture correctly different damage mechanisms (proportional and non-proportional multiaxiality, mean stress, asynchronous and variable amplitude) of fatigue loading in the high cycle fatigue domain. The method is based on a reference S-N curve and a cumulative damage law. Assessment of the accuracy of the proposed method is carried out with three different materials from literature (EN-GS800-2 cast iron, 39NiCrMo3 steel and SAE 1045 steel) subjected to different patterns of variable amplitude loading (blocks, non-proportional asynchronous and proportional random loading). Results reveal that the prediction method is in good accordance with the experimental data.

Publisher

IGI Global

Subject

Mechanical Engineering,Mechanics of Materials

Reference26 articles.

1. A variable amplitude multiaxial fatigue life prediction method;J. A.Bannantine;Fatigue under biaxial and multiaxial loading, ESIS 10,1991

2. Banvillet, A. (2001) Prévision de la durée de vie en fatigue multiaxiale sous spectre de chargement réel: vers des essais accélérés [PhD thesis]. ENSAM CER de Bordeaux, France. (in French)

3. Fatigue life under non-Gaussian random loading from various models

4. Spectral methods for lifetime prediction under wide-band stationary random processes

5. Bennebach, M. (1993)/ Fatigue multiaxiale d’une fonte GS, influence de l’entaille et d’un traitement thermique [PhD thesis]. ENSAM CER de Bordeaux, France. (in French)