Optimum design of fibre composite stiffened panels using genetic algorithms

Akhil Upadhyay; V. Kalyanaraman

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Optimum design of fibre composite stiffened panels using genetic algorithms

机译：基于遗传算法的纤维复合材料加筋板的优化设计

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A procedure is derived for a generalized optimum design of stiffened panels made up of laminated fibre reinforced plastics (FRP) and subjected to longitudinal membrane compression (in the direction of stiffeners) and in plane shear loading. The strength and stability (local and overall) are the main design constraints. The size, configuration, fibre orientation and topology optimization are done simultaneously. The optimum design procedure is based on genetic algorithms and a simplified set of design equations. A few example problems of optimum design are solved and the results are discussed.

机译：推导了一种由层压纤维增强塑料（FRP）制成的，经过纵向膜压缩（沿加强板的方向）和承受平面剪切载荷的加强板的总体优化设计方法。强度和稳定性（局部和整体）是主要的设计约束。尺寸，配置，光纤方向和拓扑优化同时进行。最佳设计程序基于遗传算法和一组简化的设计方程式。解决了一些最佳设计的示例问题，并对结果进行了讨论。

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《Engineering Optimization》 |2000年第2期|共20页
作者
Akhil Upadhyay; V. Kalyanaraman;
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原文格式 PDF
正文语种 eng
中图分类工程数学;
关键词
Structural optimization; Genetic algorithms; Fibre composites; Stiffened panels;

机译：结构优化;遗传算法;纤维复合材料;加筋板;

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专利

1. Optimum design of fibre composite stiffened panels using genetic algorithms [J] . Akhil Upadhyay, V. Kalyanaraman Engineering Optimization . 2000,第2期

机译：基于遗传算法的纤维复合材料加筋板的优化设计
2. Optimal design of composite stiffened panel with cohesive elements using micro-genetic algorithm [J] . Kim SH, Kim CG Journal of Composite Materials . 2008,第21期

机译：用微观遗传算法优化设计含黏性元件的复合加筋板。
3. Minimum-weight design for three dimensional woven composite stiffened panels using neural networks and genetic algorithms [J] . Fu Xinwei, Ricci Sergio, Bisagni Chiara Composite Structures . 2015,第DECa期

机译：使用神经网络和遗传算法的三维编织复合加劲板的最小重量设计
4. MINIMUM-WEIGHT DESIGN OF COMPRESSIVELY LOADED COMPOSITE PLATES AND STIFFENED PANELS FOR POSTBUCKLING STRENGTH BY GENETIC ALGORITHM [C] . Ji-Ho Kang, Jae-Hun Lee, Joo-Hyun Han, International Conference on Composite Materials . 2003

机译：遗传算法遗传算法对压缩复合板和加强面板的最小重量设计
5. A new scheme for the optimum design of stiffened composite panels with geometric imperfections. [D] . Elseifi, Mohamed A. 1998

机译：具有几何缺陷的加劲复合板最佳设计的新方案。
6. Cross-Influence between Intra-Laminar Damages and Fibre Bridging at the Skin–Stringer Interface in Stiffened Composite Panels under Compression [O] . Angela Russo, Andrea Sellitto, Salvatore Saputo, 2019

机译：层压复合板在压缩状态下层内损伤与皮肤纵梁界面处的纤维桥接之间的交叉影响
7. Optimal Design of Composite Stiffened Panel with Cohesive Elements using Micro-Genetic Algorithm [O] . Soo-hyun Kim, Chun-gon Kim 2016

机译：基于微遗传算法的粘性单元复合加筋板优化设计
8. Optimal Design of Grid-Stiffened Composite Panels Using Global and Local BucklingAnalysis [R] . Ambur, D. R., Jaunky, N., Knight, N. F. 1996

机译：基于全局局部屈曲分析的网格加筋复合板优化设计

Optimum design of fibre composite stiffened panels using genetic algorithms

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