M. Rahim, N. Rahimi, A. Hussain, J. Mahmud, Mazuki Musa
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引用次数: 4
摘要
复合材料层压板具有非均质性和正交异性,具有复杂的破坏行为。形成层压板的每一层或每一层可能在不同的应力值下屈服和破裂。这种现象导致了首层失效(FPF)行为,这种行为强调了首层失效的情况。这项工作调查了三个参数的影响,即材料性能,长宽比和层数,每一个单独考虑的层压板的FPF。利用市售有限元软件ANSYS (ANSYS v12.1, 2009 SAS IP, Inc.),根据最大应力准则对FPF载荷进行了分析。结果表明,与硼和石墨层压板相比,碳层压板在最高失效载荷下失效。在各个角度上,FPF载荷随长径比和板厚的增加而增加。
Parametric study on failure analysis of composite laminate under uniaxial tensile loading
Composite laminates exhibit complex failure behaviour as they are heterogeneous and orthotropic. Each ply or lamina that formed the laminates might yield and rupture at a different stress value. This phenomenon leads to first ply failure (FPF) behaviour which emphasised on the condition where a ply that fails first. This work investigated the influence of three parameters, i.e., material property, aspect ratio, and number of plies, each considered separately, to FPF of the laminates. Analyses were carried out to determine the FPF loads based on the Maximum Stress criterion using a commercially available finite element software i.e. ANSYS (ANSYS v12.1, 2009 SAS IP, Inc.). The results have shown that carbon laminate failed at the highest failure load compared to boron and graphite laminates. It was also found that the FPF load increased with the increasing of aspect ratio and plate thickness at all angles.
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