Accelerated fatigue properties of unidirectional carbon/epoxy composite materials

Abstract It has been confirmed that polymer matrix composites possess viscoelastic behavior. This means that one could accelerate the fatigue testing by changing the stress amplitude, frequency, or temperature. This study is to investigate the accelerated fatigue properties, which are resulted from the viscoelastic behavior, of carbon/epoxy composites and to predict their fatigue life. For this purpose, a series of fatigue tests of unidirectional specimens are conducted at room temperature under different stress ratios and stress frequencies. A group of sigmoid S‐N curves, which are suitable for the whole fatigue life, and the corresponding parameters are developed for different cyclic loading conditions. A transformation method, which can transform a reference S‐N curve to the corresponding S‐N curve of the assigned fatigue conditions, is established by the parameters. And this S‐N curve can be utilized to predict the fatigue life of the composite at the assigned stress ratio or stress frequency. The comparison between the linear and sigmoid S‐N curves is also carried out to show the advantages of the latter model in the whole fatigue life. POLYM. COMPOS., 27:138–146, 2006. © 2006 Society of Plastics Engineers