非完全试验信息的悬架橡胶-钢衬套本构模型多参数识别

陈宝; 柯坚; 赵鹏; 雷刚; 陈茜

doi:10.13433/j.cnki.1003-8728.2014.0627

非完全试验信息的悬架橡胶-钢衬套本构模型多参数识别

doi: 10.13433/j.cnki.1003-8728.2014.0627

陈宝^1,2,
柯坚¹,
赵鹏²,
雷刚²,
陈茜²

1.
西南交通大学,机械工程学院成都 610031;
2.
重庆理工大学重庆 400054

基金项目:

国家自然科学青年基金项目(51205433)

重庆市教委科学技术研究项目(KJ130817)

重庆市基础与前沿研究计划项目(cstc2013jcyjA60005)

重庆理工大学2012年度开放基金项目资助

详细信息

作者简介:
陈宝(1972-)，副教授，博士研究生，研究方向为汽车动力学及悬架零部件结构分析，chenbao@cqut.edu.cn

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出版历程
- 收稿日期: 2013-02-07
- 刊出日期: 2015-06-10

Multi-parameters Identification of Constitutive Model of Suspension rubber-steel Bearing Based on Incomplete Test Information

1.
School of Mechanical Engineering,Southwest Jiaotong University,Chengdu 610031;
2.
Chongqing University of Technology,Chongqing,400054

摘要

摘要: 以轿车扭力梁后悬架的橡胶-钢衬套为对象,通过应变能密度函数确定Yeoh多项式为衬套的本构模型。进行结构试验并获取X,Y,Z轴向"位移-力"历程曲线的非完全试验信息,利用HyperStudy与ABAQUS进行初始试验仿真,分析试验与仿真曲线的一致性;设定Yeoh多项式的多参数C10,C20,C30、Di为优化变量并赋初始值,优化目标是"面积差"或"位移差"平方为零的6类函数。采用自适应响应面法,经过14次迭代,6类函数的总加权值收敛逼近于零,识别出一组能较准确模拟衬套力学行为的本构模型参数值。试验仿真结果发现Y向曲线拟合精度高,预紧模拟及网格歧异等导致X与Z向曲线拟合差,但瞬态刚度值误差均在8%内,在工程中属于可接受范围。
- 橡胶-钢衬套 /
- 本构模型 /
- 结构试验 /
- 多参数识别 /
- 自适应响应面法
Abstract: In view of bearings' greater impact on suspension and vehicle performances, selecting a rubber-steelbearing of one car' s torsion beam rear suspension as a research object, Yeoh polynomial was determined as thebearing's constitutive model by deriving from a strain energy density function. The bearing's structure test was doneto get some incomplete information of‘displacement-force' history test curves in X/Y/Z axial, the initial test wassimulated to get ‘displacement-force ' history simulation curves in X/Y/Z axial by using HyperStudy andABAQUS, the simulation curves were compared with the test curves to evaluate consistency between them. Themulti-parameters C10, C20, C30、Di of Yeoh polynomial were set as optimization variables and their initial values weregiven, 6 types of optimization objective functions were designated to ‘square of area difference' or ‘square ofdisplacement difference' equaling to zero, 14 interactive processes were performed by using the adaptive responsesurface (ArS) method, then the total weight value of 6 types of optimization objective functions converged andapproached to zero, and a set of values of the multi-parameters, which can more accurately simulate the bearing'smechanical behavior, were identified. The bearing' s test was simulated again; the results show that the fittingprecision is high between test and simulation curves in Y axial. Because of pre-tightening simulation and meshdivergence etc., the fitting precision is relative low between them in X and Z axial, but both of the error oftransient stiffness values is all less than 8%. If the average error is considered, this is can be accepted inengineering.
- ABAQUS /
- ArS method /
- boundary conditions /
- computer simulation /
- constitutive models

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