Damage development in woven fabric composites during tension-tension fatigue

摘要

Impacted woven fabric composites were tested in tension-tension fatigue. In contrast to results from static testing. the effects of low energy impact damage in a fatigue environment were found to be the critical element leading to failure of thespecimen. This difference emphasizes the need to identify and understand the fatigue damage mechanism. A relatively new non-destructive inspection technique using infrared thermography was found to be a very useful tool in detecting damage initiation andgrowth. Furthermore, this technique supplies valuable information to the characterization of the operating fatigue damage mechanism(s).Fatigue leads to a degradation of material properties. Consequently, in connection with impact induced local Stress raisers. fatigue produces continuously changing non-uniform stress fields because of stress redistribution effects. Other models addressing evolution of fatigue damage in composite materials have not been able to simulate evolving nonuniform stress fields. Therefore. in the second part of this paper. an analyticalumerical approach capable of addressing these issues is also proposed.