Effect Of Of Glass/Kevalar Fibre/Aluminium 2200 Wire Mesh Reinforced Composite

Abstract

Glass-metal kevlar (GMKs) are layered materials based on stacked arrangements of aluminum alloy layers and Fibre Reinforced Plastic (FRP) layers. They have shown great potential in improved mechanical properties have accomplished the new type of laminates, which included glass/Kevlar fiber. GMK has been considered in automotive, aerospace, and navelapplications due to its impact response, cost, and lightweight. In this work, Glass/Kevlar fiber fibers with aluminium wire mesh, BaSO4 filler, and epoxy resin were used to prepare thecomposite laminates. The composite behavior has been investigated with dynamic mechanical analysis, ballistic, and wears experiments. The addition of BaSO4 inclusion improves the storage modulus of GMK4 and GMK5 composites in the glassy region. The GMK composites hold maximum loss modulus values in the transition region due to the epoxy matrix flexibility. The fiber type, wire mesh angle also minimize the impact on GMK composites. The physical properties of Kevlar and glass fiber also play a vital role in enhancing the weight loss of FLM4 (1.5gm) than the FLM6 (2gm) composites.