Fatigue life analysis and predictions for NR and SBR under variable amplitude and multiaxial loading conditions
Abstract
This paper investigates the effects of variable amplitude loading conditions on the fatigue lives of multiaxial rubber specimens. Two filled rubber materials were used and compared to investigate the effects of strain-crystallization on crack development NR, which strain crystallizes, and SBR, which does not. The applicability of Miner's linear damage rule for predicting fatigue lives of variable amplitude tests in rubber and the use of both scalar and plane-specific equivalence parameters to characterize fatigue life results were also investigated. A fatigue life prediction approach that utilizes normal strain to find the critical plane and the cracking energy density on that plane to determine fatigue life is introduced and compared to other approaches. The effects of load sequence and temperature on fatigue life, as well as differences in fatigue lives using both stiffness and critical crack length failure criteria are discussed. © 2007 Elsevier Ltd. All rights reserved.
Publication Title
International Journal of Fatigue
Recommended Citation
Harbour, R., Fatemi, A., & Mars, W. (2008). Fatigue life analysis and predictions for NR and SBR under variable amplitude and multiaxial loading conditions. International Journal of Fatigue, 30 (7), 1231-1247. https://doi.org/10.1016/j.ijfatigue.2007.08.015