基于流体腔方法的海上充气膜结构抗弯承载性能研究  被引量:1

Investigation on Bending Behavior of Inflated Membrane Structure Based on Fluid Cavity Method

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作  者:叶云凌 甘进[1,2] 郑中毅 冉小林[4] 吴卫国 YE Yunling;GAN Jin;ZHENG Zhongyi;RAN Xiaolin;WU Weiguo(Key Laboratory of High Performance Ship Technology(Wuhan University of Technology),Ministry of Education,Wuhan 430063,China;School of Naval Architecture,Ocean and Energy Power Engineering,Wuhan University of Technology,Wuhan 430063,China;Green and Smart River-Sea-Going Ship,Cruise and Yacht Research Center,Wuhan University of Technology,Wuhan 430063,China;China Automotive Engineering Research Institute Co.,Ltd.,Chongqing 401122,China)

机构地区:[1]高性能船舶技术教育部重点实验室(武汉理工大学),武汉430063 [2]武汉理工大学船海与能源动力工程学院,武汉430063 [3]武汉理工大学绿色智能江海直达船舶与邮轮游艇研究中心,武汉430063 [4]中国汽车工程研究院股份有限公司,重庆401122

出  处:《中国造船》2023年第3期13-22,共10页Shipbuilding of China

摘  要:应用基于表面定义的流体腔方法建立充气膜结构抗弯承载性能数值分析模型,并将其与模型试验对比,验证了数值方法的可靠性。通过数值仿真和模型试验分析了充气膜结构的变形和失效模式,讨论了内压对其承载性能的影响。研究表明,充气膜结构的承载性能与内压线性正相关,且随着局部褶皱现象出现,承载性能快速下降;变形和应力分布与传统的4点弯曲梁相似,而失效模式则为褶皱诱发的局部失稳。论文建立的数值方法对浮式充气膜结构在海洋工程中的应用具有较好的的工程指导意义。Surface-based fluid cavity modelling is employed to set up a finite element model for analyzing bend behavior of inflated membrane structures,and reliability of the model is verified by comparison with the experiment.Deformation behavior and failure mode of inflated membrane structures are analyzed,and influence of internal pressure on the bearing capacity is discussed by FEM and experiment.The results are as follows:bearing capacity of the inflated membrane structure is positively linearly correlated with the internal pressure but decreased obviously with the occurrence and propagation of wrinkles.The deformation behavior and stress distribution are similar to that of traditional four-point bending beam,and local instability induced by wrinkles may cause structural failure.This finite element model has engineering guiding significance for the application of floating inflatable membrane structures in ocean engineering.

关 键 词:充气膜结构 流体腔方法 模型试验 弯曲刚度 极限承载力 

分 类 号:U663.9[交通运输工程—船舶及航道工程]

 

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