An empirical model for fatigue behavior prediction of glass fibre-reinforced plastic composites for various stress ratios and test frequencies

Epaarachchi, Jayantha A.; Clausen, Philip D.

Title: An empirical model for fatigue behavior prediction of glass fibre-reinforced plastic composites for various stress ratios and test frequencies
Creator: Epaarachchi, Jayantha A.; Clausen, Philip D.
Relation: Composites Part A: Applied Science and Manufacturing Vol. 34, Issue 4, p. 313-326
Publisher Link: http://dx.doi.org/10.1016/S1359-835X(03)00052-6
Publisher: Elsevier Science Ltd.
Resource Type: journal article
Date: 2003
Description: Current models used to predict the fatigue life of glass fibre-reinforced plastic composites do not accurately consider the effects of load stress ratios and load frequencies. These models usually require significant amount of experimental data to establish a set of characteristic fatigue curves for a given composite. This paper proposes a fatigue model for glass fibre-reinforced plastic composites that includes the non-linear effect of stress ratio and load frequency on the fatigue life. The model can be used to predict the fatigue behavior of a composite material using a well-defined minimum number of tests. Fatigue data from the literature and selected research laboratories were used to test the model. Predictions were found to be in good agreement with all experimental data adequately accounting for the influence of test frequency and stress ratio on the fatigue life of composites.
Subject: fatigue; residual/internal stress; strength; damage mechanics; stress ratio effect
Identifier: uon:1590
Identifier: http://hdl.handle.net/1959.13/27352
Identifier: ISSN:1359-835X
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