Effects of hostile solutions on the static and dynamic behavior of carbon/epoxy composites
Abstract
Fiber-reinforced laminated composite is often used in harsh environments that may affect their static stability and longterm durability as well as residual strength. In this study, the effect of heavy chemical environments such as acid and
alkaline and retaining time for these environments on flexural strength and flexural fatigue behavior of carbon/epoxy
laminated composites were investigated. In this context, carbon/epoxy was retained into an acidic and alkaline solution
having 5%, 15%, and 25% concentration by weight for 1–4 months. Fatigue behavior of carbon/epoxy was determined
under dynamic flexural load, which corresponds to 80%, 70%, 60%, 50%, and 40% of static three-point bending strength
of the test sample. SEM image of damaged specimens was taken to describe the failure mechanism of damage which
occurs after fatigue. Also, to better understand environmental condition on the fatigue life, results were compared with
results of carbon/epoxy laminated composites, which were not retained into any environments (unretained). The test
results showed that the solution type, solution concentration, and retaining time caused noticeable changes in the static
and dynamic strengths of carbon/epoxy laminated composites.