Study on the Quality of Quasi-Isotropic Composite Laminates Containing a Circular Hole

V. Balakrishnan, Holger Seidlitz, M. Ambrosio, T. Schuhmann
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引用次数: 6

Abstract

Composite structures used in modern engineering applications are often subjected to circular holes in order to join with metal components via riveting, bolting or pinning joints. These design based holes will interrupt the force flux in the direction of the fibers and create high stress concentrations near the notched area. Objective of the project is to understand the quality of the quasi-isotropic composite laminates ([45°, -45°, 0°, 90°] S ) containing circular hole. To achieve this objective, a 3-phase portal milling machine and a 5kW continuous wave (cw) CO 2 laser system were used to produce the circular holes in the composite laminates. The processing parameters for both the processes are varied to understand its influence. The quality of the circular hole produced by these methods are further investigated and compared in order to arrive at the optimum processing parameters for the given quasi-isotropic composite laminates. The hole qualities were evaluated by means of delamination factor caused by milling; cone angle, matrix evaporation for cw-CO 2 laser system. For further comparisons, the optimal parameter combinations of both methods were selected for a tensile test according to the standard ASTM D5766-2002.
含圆孔准各向同性复合材料层合板的质量研究
现代工程应用中使用的复合材料结构通常要打圆孔,以便通过铆接、螺栓连接或钉接与金属部件连接。这些基于孔的设计将打断纤维方向上的力流,并在缺口区域附近产生高应力集中。本课题旨在了解含圆孔的准各向同性复合材料层合板([45°,-45°,0°,90°]S)的质量。为了实现这一目标,使用三相门户铣床和5kW连续波(cw) co2激光系统在复合材料层压板上产生圆孔。这两种工艺的工艺参数是不同的,以了解其影响。为了得到准各向同性复合材料层合板的最佳工艺参数,对这些方法所产生的圆孔质量进行了进一步的研究和比较。用铣削引起的分层系数评价孔的质量;cw- co2激光系统的锥角、基体蒸发。为了进一步比较,根据标准ASTM D5766-2002选择两种方法的最佳参数组合进行拉伸试验。
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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