期刊文献+

Evaluation on Spot Weld Models in Structural Dynamic Analysis of Automotive Body in White 被引量:9

Evaluation on Spot Weld Models in Structural Dynamic Analysis of Automotive Body in White
下载PDF
导出
摘要 Spot weld models are widely used in finite element analysis(FEA) of automotive body in white(BIW) to predict static,dynamic,durability and other characteristics of automotive BIW.However,few researches are done on evaluation of the validity of these spot weld models in structural dynamic analysis of BIW.To evaluate the validity and accuracy of spot weld models in structural dynamic analysis of BIW,two object functions,error function and deviation function,are introduced innovatively.Modal analysis of Two-panel and Double-hat structures,which are the dominated structures in BIW,is conducted,and the values of these two object functions are obtained.Based on the values of object functions,the validity of these spot weld models are evaluated.It is found that the area contact method(ACM2) and weld element connection(CWELD) can give more precise prediction in modal analysis of these two classical structures,thus are more applicable to structural dynamic analysis of automotive BIW.Modal analysis of a classical BIW is performed,which further confirms this evaluation.The error function and deviation function proposed in this research can give guidance on the adaptability of spot weld models in structural dynamic analysis of BIW.And this evaluation method can also be adopted in evaluation of other finite element models in static,dynamic and other kinds of analysis for automotive structures. Spot weld models are widely used in finite element analysis(FEA) of automotive body in white(BIW) to predict static,dynamic,durability and other characteristics of automotive BIW.However,few researches are done on evaluation of the validity of these spot weld models in structural dynamic analysis of BIW.To evaluate the validity and accuracy of spot weld models in structural dynamic analysis of BIW,two object functions,error function and deviation function,are introduced innovatively.Modal analysis of Two-panel and Double-hat structures,which are the dominated structures in BIW,is conducted,and the values of these two object functions are obtained.Based on the values of object functions,the validity of these spot weld models are evaluated.It is found that the area contact method(ACM2) and weld element connection(CWELD) can give more precise prediction in modal analysis of these two classical structures,thus are more applicable to structural dynamic analysis of automotive BIW.Modal analysis of a classical BIW is performed,which further confirms this evaluation.The error function and deviation function proposed in this research can give guidance on the adaptability of spot weld models in structural dynamic analysis of BIW.And this evaluation method can also be adopted in evaluation of other finite element models in static,dynamic and other kinds of analysis for automotive structures.
机构地区 School of Astronautics
出处 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2011年第1期84-90,共7页 中国机械工程学报(英文版)
基金 supported by National Natural Science Foundation of China(Grant No.10772060) Heilongjiang Provincial Natural Science Foundation with Excellent Young Investigators of China(GrantNo.JC2006-13)
关键词 spot weld model structural dynamic analysis modal analysis two-panel structure double-hat structure body in white spot weld model structural dynamic analysis modal analysis two-panel structure double-hat structure body in white
  • 相关文献

参考文献1

二级参考文献6

  • 1胡玉梅,陶丽芳,邓兆祥,王攀,冯刚.车身台架疲劳强度试验方案研究[J].汽车工程,2006,28(3):300-303. 被引量:22
  • 2Matteo Palmonella, Michael I Friswell, John E Mottershead, et al. Finite Element Models of Spot Welds in Structural Dynamics: Re- view and Updating[ J ]. Computers and Structures, 2005,83 ( 8 - 9).
  • 3Xu S, Deng X. An Evaluation of Simplified Finite Element Models for Spot-welded Joints [ J ]. Finite Elements in Analysis and Design ,2004,40(9 - 10).
  • 4Matteo Palmonella, Michael I Friswell, John E Mottershead, et al. Guidelines for the Implementation of the CWELD and ACM2 Spot Weld Models in Structural Dynamics [ J ]. Finite Elements in Anal- ysis and Design,2004,41 (2).
  • 5孙凌玉,谢军,于春生,陈南,孙庆鸿.汽车车身结构动力学建模方法研究[J].机械工程学报,1999,35(5):72-74. 被引量:26
  • 6朱壮瑞,孙庆鸿,孙凌玉,陈南,张炳军.基于模态试验的客车白车身动力学模型修正研究[J].汽车工程,2001,23(2):127-129. 被引量:14

共引文献26

同被引文献45

  • 1庞剑,谌刚.汽车噪声与振动理论与应用[M].北京:北京理工大学出版社,2008.
  • 2Matteo P,Michael I F,John E M,et al. Guidelines for the implementation of the CWELD and ACM2 spot weld models in structural dynamics [J]. Finite Ele ments in Analysis and Design,2004,41(2):193- 210.
  • 3Heiserer D, Chargin M,Sielaff J. High performance, process oriented,weld spot approach [C]//. MSC. 1st MSC Worldwide Automotive User Conference, Mu- nich, MSC 1999 : 135-140.
  • 4Fang J, Hoff C, Holman B, et al. Weld modelling with MSC. Nastran[C]//. Second MSC Worldwide Auto motive User Conference, Dearborn MSC, 2000: 233-239.
  • 5PALMONLLA M, FRISWELL M I, MOTTERSHEAD J E, et al. Finite Element Models of Spot Welds in Structural Dynamics: Review and Updating [J:. Computers and Structures, 2005, 83(8-9): 648-661.
  • 6PALMONLLA M, FRISWELL M I, MOTTERSHEAD J E, et al. Guidelines for the Implementation of the CWELD and ACM2 Spot Weld Models in Structural Dynamics [J]. Finite Elements in Analysis and Design, 2004, 41 (2) : 193-210.
  • 7KURATANI F, MATSUBARA K, YAMAUCHI T. Finite Element Model for Spot Welds Using MultiPointConstraints and Its Dynamic Characteristics [J]. SAE Inter- national Journal of Passenger Cars-Mechanical Systems, 2011, 4(2): 1311-1319.
  • 8HEISERER D, CHARGIN M, SIELAFF J. High Performance, Process Oriented, Weld Spot Approach [C] // 1st MSC Worldwide Automotive User Conference, Ger- many, 1999.
  • 9HUSAIN N A, KHODAPARAST H H, SNAYLAM A, et al. Finite-Element Modelling and Updating of Laser Spot Weld Joints in a Top-Hat Structure for Dynamic Analysis [J]. Journal of Mechanical Engineering Science, 2010, 224 (4) : 851-86 I.
  • 10杨英,赵广耀,孟凡亮.某轿车白车身模态分析与试验研究[J].东北大学学报(自然科学版),2008,29(7):1045-1048. 被引量:31

引证文献9

二级引证文献27

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部