层压复合板在不同加载条件下抗屈曲破坏的最佳层厚和纤维取向综合研究

IF 1.5 4区 工程技术 Q3 ENGINEERING, MECHANICAL Journal of Mechanical Science and Technology Pub Date : 2024-09-03 DOI:10.1007/s12206-024-0812-7
Pham Dinh Nguyen, Quang-Viet Vu, George Papazafeiropoulos, Nguyen Dinh Duc
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引用次数: 0

摘要

本文采用一种新的优化程序,有效利用计算能力,对层压复合板在复杂载荷条件下抗屈曲的最佳层厚和纤维取向进行了全面研究。在该程序中,为进行屈曲分析建立了层压复合材料板的有限元模型,并使用内点优化程序使屈曲系数最大化,从而确定纤维取向角和厚度的最佳值。在优化方案中,层压复合板承受单一和复杂的加载条件,包括压缩、剪切、弯曲以及两种或两种以上加载类型的组合。对所提出的优化程序的计算性能进行了评估,研究并展示了层数、长厚比、纵横比和边界条件等各种因素对最佳屈曲分析的影响。
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A comprehensive investigation on optimum layer thickness and fiber orientations of laminated composite plates against buckling failure under various loading conditions

This paper presents a comprehensive investigation on optimum layer thickness and fiber orientations of laminated composite plates against buckling under complex loading conditions by using a new optimization procedure that effectively utilizes computational efforts. In this proposed procedure, a finite element model of the laminated composite plates is developed for the buckling analysis and the interior point optimization procedure is used to maximize the buckling coefficient, aiming to determine the optimum values of fiber orientation angles and thickness. In optimization scenarios, the laminated composite plates are subjected to single and complex loading conditions, including compression, shear, bending and a combination of two or more of these loading types. The computational performance of the proposed optimization procedure is evaluated to investigate and present the effect of various factors including the number of layers, length-to-thickness ratios, aspect ratios, and boundary conditions on the optimum buckling analysis.

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来源期刊
Journal of Mechanical Science and Technology
Journal of Mechanical Science and Technology 工程技术-工程:机械
CiteScore
2.90
自引率
6.20%
发文量
517
审稿时长
7.7 months
期刊介绍: The aim of the Journal of Mechanical Science and Technology is to provide an international forum for the publication and dissemination of original work that contributes to the understanding of the main and related disciplines of mechanical engineering, either empirical or theoretical. The Journal covers the whole spectrum of mechanical engineering, which includes, but is not limited to, Materials and Design Engineering, Production Engineering and Fusion Technology, Dynamics, Vibration and Control, Thermal Engineering and Fluids Engineering. Manuscripts may fall into several categories including full articles, solicited reviews or commentary, and unsolicited reviews or commentary related to the core of mechanical engineering.
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