考虑参数不确定性的转向架构架结构强度分析
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摘要
考虑工程实际中设计参数的不确定性,基于D-最优试验设计和可靠性理论对转向架构架进行结构强度分析。根据UIC 510-3-1994标准对构架进行结构强度分析,确定受力较大部位的设计参数。运用APDL语言建立构架的参数化模型,并对设计参数进行D-最优试验设计,进而计算构架的结构强度。利用最小二乘法对试验数据进行拟合,建立多项式响应面函数,并对其进行方差分析,检验响应面的精度。基于高精度响应面函数,采用Monte-Carlo拉丁超立方抽样方法对构架进行结构强度的可靠性分析。研究结果表明:设计参数的变化对结构强度的影响较大,且各设计参数的交互作用较小。转向架构架的结构可靠度为0.984 3,表明了不确定参数对构架结构强度和安全性的影响程度。基于D-最优试验设计的响应面法工作效率高,可为其他复杂结构的不确定性分析提供参考。
Considering the uncertainty of engineering design parameters,the structural strength analyses of bogie frames were carried out based on the D-optimal design and reliability theory.According to the UIC 510-3-1994 standard,the structural strength analysis of frames was made to determine the larger forces of the parts.The parametric model of the frame was established by APDL language,and the design parameters were designed by D-optimal experiments,and then the structural strength of frames was calculated.The least square method was utilized to fit the test data,meanwhile,the polynomial response surface function was established,and the variance analysis was done to test the accuracy of the response surface.Based on the high precision response surface function,the Monte-Carlo Latin hypercube sampling method was adopted to analyze the structural strength reliability of the frames.The results show that the changes of design parameters have great influences on the structural strength,and the interaction of design parameters is minimal.Structural reliability of the bogie frames is as 0.984 3,which shows the influences of uncertain parameters on the structural strength and safety of frames.The response surface method based on D-optimal design has high efficiency and may provide reference for the uncertainty analysis of other complex structures.
Considering the uncertainty of engineering design parameters,the structural strength analyses of bogie frames were carried out based on the D-optimal design and reliability theory.According to the UIC 510-3-1994 standard,the structural strength analysis of frames was made to determine the larger forces of the parts.The parametric model of the frame was established by APDL language,and the design parameters were designed by D-optimal experiments,and then the structural strength of frames was calculated.The least square method was utilized to fit the test data,meanwhile,the polynomial response surface function was established,and the variance analysis was done to test the accuracy of the response surface.Based on the high precision response surface function,the Monte-Carlo Latin hypercube sampling method was adopted to analyze the structural strength reliability of the frames.The results show that the changes of design parameters have great influences on the structural strength,and the interaction of design parameters is minimal.Structural reliability of the bogie frames is as 0.984 3,which shows the influences of uncertain parameters on the structural strength and safety of frames.The response surface method based on D-optimal design has high efficiency and may provide reference for the uncertainty analysis of other complex structures.
引文
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[2]卢耀辉,曾京,邬平波,等.铁道车辆转向架构架可靠性参数灵敏度分析[J].中国铁道科学,2010,31(1):111-115.LU Yaohui,ZENG Jing,WU Pingbo,et al.Parametric Sensitivity Analysis for the Bogie Frame Reliability of Railway Vehicle[J].China Railway Science,2010,31(1):111-115.
[3]李万莉,严俊,朱福民,等.新型轨道运料车转向架构架结构分析[J].中国工程机械学报,2014,12(4):336-341.LI Wanli,YAN Jun,ZHU Fumin,et al.Structural Analysis on Bogie Frame for New Rail Vehicle[J].Chinese Journal of Construction Machinery,2014,12(4):336-341.
[4]史艳民,缪炳荣,陈建政,等.跨座式单轨交通作业车转向架构架静强度及疲劳分析[J].机车电传动,2015(5):65-68.SHI Yanmin,MIAO Bingrong,CHEN Jianzheng,et al.Static Strength and Fatigue Analysis of Bogie Frame for Straddle-type Monorail Transportation Working Vehicle[J].Electric Drive for Locomotives,2015(5):65-68.
[5]李金城,李芾,杨阳.70%低地板有轨电车动力转向架构架强度分析[J].机车电传动,2016(3):87-91.LI Jincheng,LI Fu,YANG Yang.Strength Analysis for 70%Low-floor Tram Car Motor Bogie Frame[J].Electric Drive for Locomotives,2016(3):87-91.
[6]周元.基于ANSYS的高速客车转向架构架可靠性研究[D].成都:西南交通大学,2012.ZHOU Yuan.Reliability Research of Bogie Frame for High Speed Passenger Car Based on ANSYS[D].Chendu:Southwest Jiaotong University,2012.
[7] LI Y,QIN Q,WANG Y,et al.Welded Joint Fatigue Reliability Analysis on Bogie Frame of High-speed Electric Multiple Unit[J].Journal of Shanghai Jiaotong University(Science),2017,22(3):365-370.
[8] ANGIN D,TIRYAKI A E.Application of Response Surface Methodology and Artificial Neural Network on Pyrolysis of Safflower Seed Press Cake[J].Energy Sources,Part A:Recovery,Utilization,and Environmental Effects,2016,38(8):1055-1061.
[9]张伟,毛建国,魏特特,等.基于响应曲面法的煤油发动机气门正时优化[J].中国机械工程,2016,27(7):933-938.ZHANG Wei,MAO Jianguo,WEI Tete,et al.Optimization of Value Timing of a Kerosene Engine Based on RSM[J].China Mechanical Engineering,2016,27(7):933-938.
[10] DJURIS J,VASILJEVIC D,JOKIC S,et al.Application of D-Optimal Experimental Design Method to Optimize the Formulation of O/W Cosmetic Emulsions[J].International Journal of Cosmetic Science,2014,36(1):79-87.
[11] SALVO P,SMAJDA R,DINI V,et al.A D-Optimal Design to Model the Performances of Dressings and Devices for Negative Pressure Wound Therapy[J].Journal of Tissue Viability,2016,25(2):83-90.
[12]柯作楷,唐绍裘,杜海清.D-最优实验设计及其在陶瓷材料研究中的应用[J].陶瓷研究,1987(2):10-16.KE Zuokai,TANG Shaoqiu,DU Haiqing.Experimental Design of D-Optimization and Its Application in Ceramic Materials[J].Ceramic Studies Journal,1987(2):10-16.
[13]张德丰.MATLAB概率与数理统计分析[M].北京:机械工业出版社,2010:245-247.ZHANG Defeng.MATLAB Probability and Mathematical Statistics Analysis[M].Beijing:China Machine Press,2010:245-247.
[14] MI J,LI Y F,YANG Y J,PENG W,et al.Reliability Assessment of Complex Electromechanical Systems under Epistemic Uncertainty[J].Reliability Engineering&System Safety,2016,152:1-15.
[15] MONTGOMERY D C.Design and Analysis of Experiments[M].New York:John Wiley&Sons,1976:30-35.
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