Rear Fuselage Structural Optimization Using Genetic Algorithm

Journal of Karary University for Engineering and Science Pub Date : 2021-12-21 DOI:10.54388/jkues.v1i2.61

Mutwakil Elmshaikhi, Abdalmaged Abdallah

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引用次数: 1

Abstract

Structural optimization is one of the most important tasks during the airplane structural design and yet there is a lack of well established procedures to determine the optimum design of aerospace structures. This paper represents development of structural optimization code based on genetic algorithm, and results for light aircraft aft fuselage optimal design using the optimization code. We have developed a MATLAB code according to the genetic algorithm and FE model for the composite light aircraft aft fuselage using MSC PATRAN to generate NASTRAN input file; the MATLAB code was coupled with MSC NASTRAN which used to perform linear static and buckling analysis. we obtained the minimum weight of the aft fuselage with a linear static and buckling constraints; the minimum weight is 21.6 kg; it has been obtained after 43 iterations; the margin of safety is of the optimum design is 1.22 and the buckling factor is 1.24 and hence the structure is free of static failure and buckling. The code is efficient in the conceptual and preliminary structural design phases to obtain the optimal aft fuselage weight.

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基于遗传算法的后机身结构优化

结构优化是飞机结构设计中最重要的任务之一，但目前还缺乏确定航空航天结构优化设计的完善程序。介绍了基于遗传算法的结构优化代码的发展，以及应用该优化代码进行轻型飞机后机身优化设计的结果。根据遗传算法和有限元模型，利用MSC PATRAN对复合轻型飞机后机身进行了MATLAB代码编写，生成了NASTRAN输入文件;MATLAB代码与MSC NASTRAN软件进行了耦合，该软件用于进行线性静力和屈曲分析。在线性静力和屈曲约束下，得到了后机身的最小重量;最小重量为21.6 kg;经过43次迭代得到;优化设计的安全裕度为1.22，屈曲系数为1.24，结构不存在静力破坏和屈曲。该程序在概念设计和初步结构设计阶段都能有效地获得最佳后机身重量。

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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Journal of Karary University for Engineering and Science

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