Analysis of Fiber Metal Composite Shear Strength Using Independent Variables of Fiber Angle Orientation and Metal Surface Roughness

H. Firmansyah, W. Wirawan, Moh. Nasir Hariyanto
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Abstract

Fiber Metal Laminates (FML) is a classification of metallic materials consisting of several thin layers of metal combined with composite materials. The constraint of FML is the weak bond between the layer material and the core composite. The weak bond between the layer material and the core composite can be influenced by several things, including the absence of an interlock system between the layer material and the core composite so that the strength of the FML composite decreases. In this study, a study was conducted on the shear strength of FML composites using the independent variables of surface roughness and fiber angle orientation. The highest shear strength in FML composite with fiber angle orientation of 45/45° and with a surface roughness value of 2.128 m with a shear strength value of 2.7 MPa
基于纤维角取向和金属表面粗糙度自变量的纤维金属复合材料抗剪强度分析
纤维金属层压板(FML)是一种由几层薄金属与复合材料结合而成的金属材料。FML的约束是层材料与芯复合材料之间的弱键。层状材料与芯状复合材料之间的弱结合可能受到几个因素的影响,包括层状材料与芯状复合材料之间缺乏联锁系统,从而使FML复合材料的强度降低。本研究以表面粗糙度和纤维角度取向为自变量,对FML复合材料的抗剪强度进行了研究。纤维角取向为45/45°,表面粗糙度为2.128 m,抗剪强度为2.7 MPa时,FML复合材料抗剪强度最高
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