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基于多种失效模式SPS复合钢板替换船用钢板的优化设计

Optimization Design of SPS Replace Ship Plate Based on Several Failure Modes
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摘要 在SPS复合钢板的设计中获取不同的失效模式。以减重为目标,应用序列二次规划法对SPS复合钢板进行等效船用钢板的优化设计,同时对SPS复合钢板进行多目标优化,应用层次分析法定各目标的权重。在这两种优化方法的基础上,对船用钢板与SPS复合钢板进行了屈曲、弯曲对比数值分析,同时将结果与理论计算结果对比分析。结果表明,SPS复合钢板重量能够减轻37%以上,刚度增加两倍多,但厚度增加70%。 There are different failure models in the design of SPS composite plate. In order to reduce the weight, the SQP algorithm is employed to optimize marine steel plate design by selecting geometry size and material At the same time, multi-objective optimization is also used in the design of SPS composite plate. And the analytic hierarchy process is employed to define the proportion of each objective. Based on these two kinds of optimization methods, the buckling and bending performance of SPS composite steel plate is compared to the traditional marine steel plates. Meanwhile, the analysis of simulation results is compared with the theoretical results. The results show that the SPS composite steel plate can reduce the weight more than 37% and enhance the stiffness by double, but with increasing the thickness by 70%.
出处 《船舶工程》 北大核心 2015年第3期62-65,共4页 Ship Engineering
基金 国家自然科学基金项目(11372081) 哈尔滨市科技创新人才研究专项基金项目(2012RFXXG006)
关键词 SPS复合钢板 失效模式 序列二次规划法 等效分析 层次分析法 SPS composite plate failure mode SQP algorithm equivalent analysis analytic hierarchy
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