Structural Degradation and Mechanical Fracture of Hybrid Fabric Reinforced Composites

This investigation involves the study of accelerated environmental aging in two polymer composite laminates reinforced by hybrid fabrics based on carbon, Kevlar and glass fibers. Composite laminate configurations are defined as a laminate reinforced with E-glass fiber and Kevlar 49 fiber hybrid fabric (GK) and another laminate reinforced with E-glass fiber and AS4 carbon fiber hybrid fabric (GC). Both laminates were impregnated with epoxy vinyl ester thermosetting resin (Derakane 470-300) consisting of four layers. Morphological studies (photooxidation process and structural degradation) of environmental aging were conducted, in addition to comparative studies of the mechanical properties and fracture characteristics under the action of uniaxial tensile and threepoint bending tests in specimens in the original and aged conditions. With respect to uniaxial tensile tests for both laminates, good mechanical performance and little final damage (small loss of properties) was caused by the aging effect. However, for the three-point bending tests, for both laminates, the influence of aging was slightly higher for all parameters studied. The low structural deterioration in the laminates is attributed to the high performance with the heat of the matrix (Derakane 470-300) and the characteristics of the hybrid fabric, exhibiting fiber/matrix interface quality. (C) 2016 Society of Plastics Engineers