Abstract
Abstract
This paper suggests a simple methodology to optimize the uniaxial fatigue predictions for filled natural rubbers. In this study, the stress ratio
R
effect on rubber fatigue life is investigated numerically. For this purpose, a Finite Element model is developed to determine both amplitude and mean stress values in the critical zone of the considered specimen. The suggested model incorporates the
R
ratio effect using an equivalent stress amplitude. It is proven that the new model can efficiently describe the fatigue life for a large
R
-value interval with higher accuracy.
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