LI S Q, ZHU S Y, HE W P, et al. Analysis of optimization characteristics of titanium alloy double layer stiffened cylindrical shell structure under different design requirements[J]. Chinese Journal of Ship Research, 2024, 20(X): 1–12 (in Chinese). DOI: 10.19693/j.issn.1673-3185.03602
Citation: LI S Q, ZHU S Y, HE W P, et al. Analysis of optimization characteristics of titanium alloy double layer stiffened cylindrical shell structure under different design requirements[J]. Chinese Journal of Ship Research, 2024, 20(X): 1–12 (in Chinese). DOI: 10.19693/j.issn.1673-3185.03602

Analysis of optimization characteristics of titanium alloy double layer stiffened cylindrical shell structure under different design requirements

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    Objective In order to explore the characteristics of optimization design schemes of titanium alloy double layer stiffened cylindrical shell structure under different length-to-diameter ratios and different calculation pressure, a mathematical model for lightweight optimization of titanium alloy double layer stiffened cylindrical shell structure was established.
    Methods The main control program of genetic algorithm was established based on Matlab, and the ultimate bearing capacity was calculated and checked by the finite element software ANSYS. The differences of optimization schemes between titanium alloy single layer stiffened cylindrical shell and titanium alloy double layer stiffened cylindrical shell under different length-to-diameter ratios and different calculation pressure were compared and analyzed.
    Results There are two critical calculation pressure in the optimization design of titanium alloy stiffened cylindrical shell, and the optimization design is divided into three optimization types: the stability constraint type of ultimate bearing capacity constraint control optimization design, the strength constraint type of strength constraint control optimization design and the joint constraint type of strength and ultimate bearing capacity constraint joint control optimization design. The larger the length-to-diameter ratio, the larger the critical calculation pressure. Under the same calculation pressure and length-to-diameter ratio, the weight of double layer shell optimization scheme is lighter than that of single layer shell, and the critical calculation pressure of double layer shell optimization design is smaller than single layer shell under the same length-to-diameter ratio.
    Conclusions The research results can provide reference for the optimization design of titanium alloy double layer stiffened cylindrical shell structure.
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