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基于塑性铰理论的车身概念设计正碰分析与优化方法

Forward collision analysis and optimization method of body conceptual design based on plastic hinge theory
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摘要 在概念设计阶段,车身碰撞安全性能评价是一个难点问题,需要详细的结构模型,本文基于塑性铰理论提出采用梁单元简化模型对框架车身进行概念设计阶段的耐撞性评估和优化设计方法。首先,介绍了关于箱型截面薄壁梁弯曲特性研究的理论模型与计算过程,接着赋予梁单元塑性铰的特性,模拟薄壁梁变形,再对框架车身进行了碰撞仿真。将仿真结果与详细模型对比,以分析简化模型的精度及可靠性。最后,以此为基础对框架车身进行耐撞性优化。结果表明,该简化模型易于创建,且有较高的精度,可用于概念设计阶段梁结构的设计工作。 In the conceptual design stage,the evaluation of vehicle body collision safety performance is a difficult problem,which requires a detailed structural model.Based on the plastic hinge theory,this paper proposes a simplified model of beam elements to evaluate and optimize the crash-resistance of the frame body during the conceptual design stage.Firstly,the theoretical model and calculation process of Kecman's research on the bending characteristics of thin-walled box-section beams are introduced.Then,the plastic hinges of beam elements are given to simulate the deformation of thin-walled beams,and then the crash simulation of the frame body is carried out.The simulation results are compared with the detailed model to analyze the accuracy and reliability of the simplified model.Finally,the crashworthiness of the frame body is optimized.The results show that the simplified model is easy to create and has high precision,which can be used in the design of beam structures in conceptual design stage.
作者 耿富荣 朱晋甫 赵永宏 李健华 侯文彬 GENG Fu-rong;ZHU Jin-fu;ZHAO Yong-hong;LI Jian-hua;HOU Wen-bin(Automotive Engineering Institute,Guangzhou Automobile Group Co.,Ltd.,Guangzhou 511434,China;State Key Laboratory of Structural Analysis for Industrial Equipment,School of Automotive Engineering,Dalian University of Technology,Dalian 116024,China)
出处 《计算力学学报》 EI CAS CSCD 北大核心 2020年第2期171-177,共7页 Chinese Journal of Computational Mechanics
基金 广汽汽车工程研究院创新项目基金资助项目。
关键词 车身设计 简化模型 薄壁梁 塑性铰 耐撞性 body design simplified model thin-walled beam plastic hinge crashworthiness
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  • 1兰凤崇,陈吉清,林建国.轿车参数化分析模型的构造及应用研究[J].计算机集成制造系统,2005,11(2):183-188. 被引量:19
  • 2Masamori Takamatsu,Hideham Fujita,Hitoshi Inoue,et al. Development of Lighter-Weight,Higher-Stiffness Body for New Rx-7.SAE paper,920244.
  • 3Wen bin Hou.A Knowledge Embedded System for Vehicle Body Structure Concept Design.CMES2006,2006.
  • 4承载式轿车车身弯曲刚度试验.汽车工程手册-试验篇.
  • 5Hong Jae Yim,Sang Beom Lee, Sung Don Pyun.A Study on Optimum Design for Thin Wailed Beam Structures of Vehicles. SAEpaper,2002-01-1987.
  • 6Yasuaki Tsurumi, Hidekazu Nishigaki, Toshiaki Nakagawa. First-order analysis for automotive body structure design- part 2: Joint analysis considering nonlinear behavior[J]. SAE2004-01-1659.
  • 7Chang D C. Effects of flexible connections on body structural response[J] . Sac Transactions, 1974,83:233-244.
  • 8Akifumi Okabe and Noboru Tomioka, Estimating each element of joint stiffness matrix using neural network-estimation from the rotation vector at end of jointed part[J]. Sae Technical Paper,2001,4 : 370.
  • 9SONG Yu-zhao. Dave Flanigan, Cliff Rivard, A New FEA Method for the Evaluation of a Body Joint[J]. Sae Technical Paper, ,2001.
  • 10.承载式轿车车身弯曲刚度试验.汽车工程手册-试验篇[M].,2001.

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