Geometry optimization of a slender cantilever beam subjected to lateral buckling

Polajnar M.; Drazumeric R.; Kosel F.

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Geometry optimization of a slender cantilever beam subjected to lateral buckling

机译：侧向屈曲细长悬臂梁的几何优化

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The paper deals with the geometry optimization of a slender cantilever beam subjected to a concentrated force acting at the free end. The two-parametric mathematical model of lateral torsional buckling is based on the Bernoulli-Euler beam theory and is given in dimensionless form. The optimization procedure is performed using the optimal control theory and the relation between state and adjoint variables is presented. The boundary value problem derived from the optimization procedure is solved numerically and compared to solutions obtained via an alternative optimization approach called sequential approximate optimization.

机译：本文研究了细长悬臂梁在自由端受到集中力作用下的几何优化。横向扭转屈曲的两参数数学模型基于贝努利-欧拉梁理论，并且以无量纲形式给出。使用最优控制理论执行优化过程，并给出状态和伴随变量之间的关系。从优化过程中得出的边值问题将得到数值求解，并与通过一种称为顺序逼近优化的替代优化方法获得的解进行比较。

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《Structural and multidisciplinary optimization》 |2013年第6期|共11页
作者
Polajnar M.; Drazumeric R.; Kosel F.;
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正文语种 eng
中图分类工程设计;
关键词
Lateral buckling; Optimal shape; Sequential approximate optimization; Theory of optimal control;

机译：横向屈曲;最佳形状;顺序近似优化;最优控制理论;

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1. Geometry optimization of a slender cantilever beam subjected to lateral buckling [J] . Polajnar M., Drazumeric R., Kosel F. Structural and multidisciplinary optimization . 2013,第6期

机译：侧向屈曲细长悬臂梁的几何优化
2. Effects of an edge crack on the free vibration and lateral buckling of a cantilever laminated composite slender beam [J] . Celalettin Karaagac, Hasan Ozturk, Mustafa Sabuncu Journal of vibration and control: JVC . 2013,第16期

机译：边缘裂纹对悬臂叠合细长梁自由振动和横向屈曲的影响
3. Free vibration and lateral buckling of a cantilever slender beam with an edge crack: Experimental and numerical studies [J] . Karaagac C., ?ztürk H., Sabuncu M. Journal of Sound and Vibration . 2009,第1a2期

机译：带有边缘裂纹的悬臂细长梁的自由振动和横向屈曲：实验和数值研究
4. Optimization of geometry for the lateral buckling process of a cantilever beam [C] . R. Drazumeric, F. Kosel, T. Kosel International Conference on Computer Aided Optimum Design in Engineering; 2007; Myrtle Beach,SC(US) . 2007

机译：悬臂梁横向屈曲过程的几何优化
5. Lateral -torsional buckling of simply supported and cantilevered fiber reinforced polymeric I -beams. [D] . Zhang, Shu. 2000

机译：简支和悬臂式纤维增强聚合物工字梁的横向扭转屈曲。
6. Elastic Critical Moment for the Lateral–Torsional Buckling (LTB) Analysis of Structural Glass Beams with Discrete Mechanical Lateral Restraints [O] . Dario Santo, Silvana Mattei, Chiara Bedon 2020

机译：具有离散机械横向约束的结构玻璃梁的横向-扭转屈曲（LTB）分析的弹性临界矩
7. ELASTIC LATERAL BUCKLING OF CANTILEVER LITESTEEL BEAMS UNDER TRANSVERSE LOADING [O] . Winatama Kurniawan, Mahen Mahendran 2015

机译：横向荷载作用下悬臂梁的弹性横向屈曲
8. On Lateral Buckling of End-Loaded Cantilever Beams. [R] . Reissner, E. 1978

机译：关于端部悬臂梁横向屈曲的研究。

Geometry optimization of a slender cantilever beam subjected to lateral buckling

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