Effects of Absorbed Moisture Content on the Impact Response of Specially-Orthotropic Composite Plates

F. Ahmad, F. Abbassi, S. Miran
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Abstract

This paper addresses the hygroscopic effects on the impact response of specially-orthotropic carbon fiber reinforced polymer composite plates under low-velocity impact loading. The material used in this study is Toray T800/3900 which is consist of carbon fibers and epoxy resin. For different percentage of moisture content by weight in the composite plates, low-velocity impact tests were done by using the 8-ply unidirectional [UD] and cross-ply [CP] composite plates with newly designed mini-drop tower testing machine. To study the hygroscopic effects, specimens were impacted by constant weight of impactor (3.44 Kg) with fixed impact height of 0.70 m corresponding to 23.62 J impact energy. The experiments were carried out on plates with dimension of 125 mm × 125 mm × 1.5 mm for simply supported boundary conditions. All UD composite plates were broken into two parts, but the impactor bounces back after hitting the top layer of the CP composite plate for all conditions. The strength of the UD composite plates decreased with increase of moisture contents, but with the increased of moisture contents, a small change was observed in the peak force, time to peak force values and absorbed energy for the CP composite plates. The large size damage areas were observed for wet plates as compared to dry plates. Absorbed moisture contents also have effect on the impactor velocity and impactor displacement.
吸湿量对特殊正交异性复合材料板冲击响应的影响
研究了低速冲击载荷下吸湿性对特殊正交异性碳纤维增强聚合物复合材料板冲击响应的影响。本研究使用的材料是东丽T800/3900,由碳纤维和环氧树脂组成。采用新设计的微型落塔试验机,对8层单向复合材料(UD)和交叉复合材料(CP)进行了不同重量含水率的低速冲击试验。为研究吸湿效应,采用定重(3.44 Kg)冲击器冲击试件,固定冲击高度0.70 m,对应23.62 J冲击能量。实验在尺寸为125 mm × 125 mm × 1.5 mm的板上进行,边界条件为简支。所有UD复合板都被分成两部分,但在所有情况下,冲击器都在撞击CP复合板的顶层后反弹回来。UD复合材料板的强度随含水率的增加而降低,而CP复合材料板的峰值力、峰值力值和吸收能量随含水率的增加变化不大。与干板相比,湿板观察到较大尺寸的损伤区域。吸湿量对冲击器速度和位移也有影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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