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浙江大学学报(工学版)
浙江大学学报(工学版)
机械工程     
复合材料板簧刚度的预测及匹配设计方法
柯俊1,史文库1,钱琛1,李国民2,袁可3
1.吉林大学 汽车仿真与控制国家重点实验室,吉林 长春 130022;2.宁波华翔汽车零部件研发有限公司,浙江 宁波 3150332;3.南京依维柯汽车有限公司,江苏 南京 210028
Prediction and matching design method for stiffness of composite leaf spring
KE Jun1,SHI Wen ku1,QIAN Chen1,LI Guo ming2,YUAN Ke3
1.State Key Laboratory of Automotive Simulation and Control,Changchun 130022,China;2. Ningbo Huaxiang Automotive Research and Development Company Limited,Ningbo 3150332,China; 3. Nanjing Automobile Group Compangy Limited,Nanjing 210028,China
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摘要:

为了匹配设计某轻型客车复合材料板簧的刚度,设计复合材料板簧的总成结构,通过试验获取E玻纤/聚氨酯层合板的力学性能参数.根据板簧设计理论及经典层合板理论,采用MATLAB软件编写复合材料板簧的刚度计算程序.通过该计算程序计算了铺层关键参数与复合材料板簧刚度之间的关系.以MATLAB刚度计算程序及铺层关键参数与复合材料板簧刚度之间的关系为基础,建立复合材料板簧刚度匹配设计的完整计算程序,并设计复合材料板簧的铺层方案.在ABAQUS软件中建立了复合材料板簧的有限元模型,通过有限元模拟来验证设计的复合材料板簧的刚度.对设计的复合材料板簧进行台架试验.试验结果表明,复合材料板簧刚度的预测值与试验值接近,说明提出的刚度匹配设计方法正确、有效,这对复合材料板簧的推广应用具有重要意义.
Abstract:

The structure of the composite leaf spring was designed in order to match design the stiffness of a composite leaf spring used in a light bus, and the mechanical properties of glass fiber reinforced polyurethane laminate were tested. The MATLAB program, which can calculate the stiffness of composite leaf spring by using certain layer scheme, was written by MATLAB software according to the leaf spring design theory and the classic laminate theory. Then the relationship between the key parameters of layer scheme and the stiffness of composite leaf spring was calculated by using the MATLAB program. Finally,the layer scheme of the composite leaf spring was designed according to the complete computer program,which was established on the basis of the MATLAB program and the relationship between key parameters of layer scheme and the stiffness of composite leaf spring. The finite element model of the composite leaf spring was established using ABAQUS software and the stiffness of the composite leaf spring was verified by using finite element method. The bench test for the composite leaf spring was carried out. The test results demonstrate that the predicted stiffness is close to the test stiffness, so the designed method,which is significant in the promotion and application of composite leaf spring,is correct and valid.
出版日期: 2015-11-01
:  U 463.33  
基金资助:

国家自然科学基金资助项目(51205158);中国博士后科学基金面上资助项目(2013M541294);吉林省重大科技专项(212E362415);吉林大学研究生创新基金资助项目(450060503159).
通讯作者: 史文库,男,教授.ORCID:0000 0003 4738 9722.     E-mail: coolkejun@163.com
作者简介: 柯俊(1989-),男,博士生,从事汽车系统动力学与控制方面的研究.ORCID:0000 0003 4303 2929.E-mail:jlukejun@163.com
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引用本文:

柯俊,史文库,钱琛,李国民,袁可. 复合材料板簧刚度的预测及匹配设计方法[J]. 浙江大学学报(工学版), 10.3785/j.issn.1008 973X.2015.11.010.

KE Jun,SHI Wen ku,QIAN Chen,LI Guo ming,YUAN Ke. Prediction and matching design method for stiffness of composite leaf spring. JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE), 10.3785/j.issn.1008 973X.2015.11.010.

链接本文:

http://www.zjujournals.com/eng/CN/10.3785/j.issn.1008 973X.2015.11.010        http://www.zjujournals.com/eng/CN/Y2015/V49/I11/2103

[1] AL QURESHI H A. Automobile leaf springs from composite materials [J]. Journal of Materials Processing Technology, 2001, 118(1/3):58-61.
[2] MAHDI E, ALKOLES O M S, HAMOUDA A M S,et al. Light composite elliptic springs for vehicle suspension [J].Composite Structures, 2006, 75(1/4):24-28.
[3] HOU J P, CHERRUAULT J Y, JERONIMIDIS G,et al. Design, testing and simulation of fiber composite leaf springs for heavy axle load [J].Journal of Strain Analysis for Engineering Design,2005,40(6): 497-504.
[4] SANCAKTAR E, GRATTON M. Design, analysis, and optimization of composite leaf springs for light vehicle applications [J].Composite Structures,1999,44 (2/3):195-204.
[5] SUBRAMANIAN C, SENTHILVELAN S. Joint Performa nce of the glass fiber reinforced polypropylene leaf spring [J]. Composite Structures, 2011, 93(2):759-766.
[6] SHOKRIEH M M, REZAEI D. Analysis and optimization of a composite leaf spring [J]. Composite Structures, 2003, 60(3): 317-325.
[7] RAJENDRAN I, VIJAYARANGAN S. Optimal design of a composite leaf spring using genetic algorithms [J]. Computers and Structures, 2001, 79 (11): 1121-1129.
[8] FERREIRA J A M, COSTA J D M, REIS P N B, et al. Analysis of fatigue and damage in glass fibre reinforced polypropylene composite materials [J].Composites Science and Technology, 1999, 59(10): 1461-1467.
[9] FERREIRA J A M, COSTA J D M, REIS P N B. Static and fatigue behavior of glass fibre reinforced polypropylene composites [J].Theoretical and Applied Fracture Me  chanics,1999,31(1) : 67-74.
[10] KUMAR M S, VIJAYARANGAN S. Analytical and experimental studies on fatigue life prediction of steel and composites multi leaf spring for light passenger vehicles using life data analysis [J]. Materials Science Medziagotyra,2007,13(2): 141-146.
[11] 王望予. 汽车设计[M]. 北京: 机械工业出版社,2004:189-190.
[12] 王耀先. 复合材料力学与结构设计[M]. 上海: 华东理工大学出版社,2012:52 103.
[13] KUEH J  T J, FARIS T. Finite element analysis on the static and fatigue characteristics of composite multi leaf spring [J]. Journal of Zhejiang University:SCIENCE A ,2012,13(3):159-164.
[14] SUBRAMANIAN C, SENTHILVELAN S. Short term flexural creep behavior and model analysis of a glass fiber reinforced thermoplastic composite leaf spring [J]. Journal of Applied Polymer Science,2011,120(6): 3679-3686.
[15] 常崇义,刘书田,王成国. 单向纤维复合材料粘弹性性能预测[J].计算力学学报,2006,23(4):414-418.
CHANG Chong yi, LIU Shu tian, WANG Cheng guo. Prediction of visco elastic property of unidirectional fiber reinforced composite materials [J]. Jisuan Lixue Xuebao /Chinese Journal of Computational Mechanics ,2006,23(4):414-418.
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