Optimal design of hierarchical grid-stiffened cylindrical shell structures based on linear buckling and nonlinear collapse analyses

Yunong Zhao; Mingji Chen; Fan Yang; Ling Zhang; Daining Fang

doi:10.1016/j.tws.2017.06.019

Optimal design of hierarchical grid-stiffened cylindrical shell structures based on linear buckling and nonlinear collapse analyses

Yunong Zhao, Mingji Chen^*, Fan Yang, Ling Zhang, Daining Fang

^*Corresponding author for this work

Institute of Advanced Structure Technology

Research output: Contribution to journal › Article › peer-review

60 Citations (Scopus)

Abstract

This paper considers the optimization of a grid-stiffened cylindrical shell with weld and transition lands. A surrogate-based optimization framework incorporating the multi-island genetic algorithm (MIGA) is adopted based on linear eigenvalue buckling analysis (LEBA) and nonlinear implicit analysis (NIA). A novel hierarchical grid design is proposed to avoid undesired local buckling. In addition, the results indicate that the optimization based on LEBA is intended primarily to avoid local failure rather than structure collapse, and thereby deviates from the optimal design. In contrast, the optimization based on NIA yields designs that are closer to the optimal design for engineering application.

Original language	English
Pages (from-to)	315-323
Number of pages	9
Journal	Thin-Walled Structures
Volume	119
DOIs	https://doi.org/10.1016/j.tws.2017.06.019
Publication status	Published - Oct 2017

Keywords

Linear buckling analysis
Nonlinear collapse analysis
Optimization
Stiffened cylindrical shell
Weight

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10.1016/j.tws.2017.06.019

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title = "Optimal design of hierarchical grid-stiffened cylindrical shell structures based on linear buckling and nonlinear collapse analyses",

abstract = "This paper considers the optimization of a grid-stiffened cylindrical shell with weld and transition lands. A surrogate-based optimization framework incorporating the multi-island genetic algorithm (MIGA) is adopted based on linear eigenvalue buckling analysis (LEBA) and nonlinear implicit analysis (NIA). A novel hierarchical grid design is proposed to avoid undesired local buckling. In addition, the results indicate that the optimization based on LEBA is intended primarily to avoid local failure rather than structure collapse, and thereby deviates from the optimal design. In contrast, the optimization based on NIA yields designs that are closer to the optimal design for engineering application.",

keywords = "Linear buckling analysis, Nonlinear collapse analysis, Optimization, Stiffened cylindrical shell, Weight",

author = "Yunong Zhao and Mingji Chen and Fan Yang and Ling Zhang and Daining Fang",

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AU - Zhao, Yunong

AU - Chen, Mingji

AU - Yang, Fan

AU - Zhang, Ling

AU - Fang, Daining

PY - 2017/10

Y1 - 2017/10

N2 - This paper considers the optimization of a grid-stiffened cylindrical shell with weld and transition lands. A surrogate-based optimization framework incorporating the multi-island genetic algorithm (MIGA) is adopted based on linear eigenvalue buckling analysis (LEBA) and nonlinear implicit analysis (NIA). A novel hierarchical grid design is proposed to avoid undesired local buckling. In addition, the results indicate that the optimization based on LEBA is intended primarily to avoid local failure rather than structure collapse, and thereby deviates from the optimal design. In contrast, the optimization based on NIA yields designs that are closer to the optimal design for engineering application.

AB - This paper considers the optimization of a grid-stiffened cylindrical shell with weld and transition lands. A surrogate-based optimization framework incorporating the multi-island genetic algorithm (MIGA) is adopted based on linear eigenvalue buckling analysis (LEBA) and nonlinear implicit analysis (NIA). A novel hierarchical grid design is proposed to avoid undesired local buckling. In addition, the results indicate that the optimization based on LEBA is intended primarily to avoid local failure rather than structure collapse, and thereby deviates from the optimal design. In contrast, the optimization based on NIA yields designs that are closer to the optimal design for engineering application.

KW - Linear buckling analysis

KW - Nonlinear collapse analysis

KW - Optimization

KW - Stiffened cylindrical shell

KW - Weight

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SN - 0263-8231

VL - 119

SP - 315

EP - 323

JO - Thin-Walled Structures

JF - Thin-Walled Structures

ER -

Optimal design of hierarchical grid-stiffened cylindrical shell structures based on linear buckling and nonlinear collapse analyses

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Keywords

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