Pengaruh Mechanical Bonding pada Aluminium dengan Serat Karbon terhadap Kekuatan Tarik Fiber Metal Laminates

Abstract

Fiber metal laminates (FML) are composite structures fabricated by combining two layers of surface material with core material. The outer surface of FML used in this composite is Aluminum with Al 1100 type. The FML core material uses carbon fiber. The fabrication process of the composites utilizes vacuum infusion method, in which the resin is infused into the mold with vacuum condition. Bonds between the core and the surface layers are the variables affecting the strength of FML. In this research, the method used to increase the bonds between layers in FML was mechanical method, it's called mechanical bonding. This method involved providing roughness (Ra) on aluminum surface using sand blasting process to produce different roughness variables, with roughness value of 1,68 μm; 1,78 μm; 1,93 μm; 2,128 μm and 2,887 μm. The aim of this study was to examine the impact of aluminum surface roughness to tensile strength of fiber metal laminates composites. The highest tensile strength of FML was obtained at 2,887 μm with a value of 367 MPa.