凸轮使用寿命预测软件的开发
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摘要
本文以磨损理论为基础探讨了内燃机凸轮挺柱的磨损机理及主要失效形式,选择了比较合适的Archard磨损计算模型,建立了考虑表面形貌的凸轮磨损计算模型,得到凸轮磨损的数值仿真模型。为了有利于软件的开发,在仿真中选择Hertz理论公式求解凸轮挺柱间的接触应力。通过计算凸轮表面各位置润滑油膜厚度,判断其润滑状态,结合以前大量的实验数据,确定出凸轮各位置在稳态下工作时的磨损系数K值。最后利用MATLAB开发出凸轮使用寿命预测软件,该软件包括凸轮参数化计算模块、油膜厚度计算模块和磨损状态模块。
本课题以科学高效的计算机模拟技术取代传统的费时、费力的实验方法,为研究接触高副机构配对副在边界润滑条件下的耐久性设计以及计算机模拟技术在零件寿命设计方面的应用提供了一个有益的思路;开发的凸轮使用寿命预测软件能实时监控凸轮机构的磨损状态,预测其使用寿命,基本具有了类似机构使用寿命预测软件的雏形,因此研究成果具有较大的实际意义。
In this paper, based on the wear theory, the wear mechanism and the main disable forms are discussed. The more appropriate Archard wear calculation model is selected. The cam's wear model in view of the influence of surface topography is established. Then the digital simulation model is obtained. For developing the software, the contact pressure between the cam and the follower can be gained by traditional Hertz theory formula . The elastohydrodynamic lubrication oil-film thickness on cam's surface can be calculated by the universal film thickness formula of EDH line contact. Then we can estimate the lubrication state between the friction faces. With the old large numbers of testing numbers the wear parameter K of every point on the steady work's cam can be decided. Finally, the life predicted software with the MATLAB is developed. This software includes the parameterized calculation module, film thickness calculation model and wear state model.
In this research, the scientific efficient computer simulation technology replaces the traditional taking-time and arduous experimental method, which provides a beneficial thought for researching the wear design of the contacted machine in the boundary lubrication and computer simulative technology used in the part life design. The developed cam life predicted software can watch and control the cam wear state, forecast it's life and have the rudiment of the similar machine life predicted software. So the research has a good application prospect and practicality value.
本课题以科学高效的计算机模拟技术取代传统的费时、费力的实验方法,为研究接触高副机构配对副在边界润滑条件下的耐久性设计以及计算机模拟技术在零件寿命设计方面的应用提供了一个有益的思路;开发的凸轮使用寿命预测软件能实时监控凸轮机构的磨损状态,预测其使用寿命,基本具有了类似机构使用寿命预测软件的雏形,因此研究成果具有较大的实际意义。
In this paper, based on the wear theory, the wear mechanism and the main disable forms are discussed. The more appropriate Archard wear calculation model is selected. The cam's wear model in view of the influence of surface topography is established. Then the digital simulation model is obtained. For developing the software, the contact pressure between the cam and the follower can be gained by traditional Hertz theory formula . The elastohydrodynamic lubrication oil-film thickness on cam's surface can be calculated by the universal film thickness formula of EDH line contact. Then we can estimate the lubrication state between the friction faces. With the old large numbers of testing numbers the wear parameter K of every point on the steady work's cam can be decided. Finally, the life predicted software with the MATLAB is developed. This software includes the parameterized calculation module, film thickness calculation model and wear state model.
In this research, the scientific efficient computer simulation technology replaces the traditional taking-time and arduous experimental method, which provides a beneficial thought for researching the wear design of the contacted machine in the boundary lubrication and computer simulative technology used in the part life design. The developed cam life predicted software can watch and control the cam wear state, forecast it's life and have the rudiment of the similar machine life predicted software. So the research has a good application prospect and practicality value.
引文
[1] [苏]N·B·克拉盖尔斯等编著,摩擦磨损计算原理,1982
[2] 严立、余宪海编著,内燃机磨损及可靠性技术,人民交通出版社,1992.6
[3] 尚汉冀,内燃机配气凸轮机构——设计与计算[M],人民交通出版社,1992
[4] 江亲瑜、李宝良、孙晓云,凸轮机构磨损数值仿真软件研制[J],润滑及密封,2000.4
[5] 温诗铸,世纪回顾与展望—摩擦学研究的发展趋势[J],机械工程学报,2000,6:1~5
[6] M.SOEJIMA,Y. EJIMA,Y. WAKURI,T. KITAHARA, Improvement of Lubrication for Cam and Follower, TRIBOLOGY TRANSACTIONS,Vol.42(1999). 4, 755~762
[7] K.Velten,R.Reinicke,K.Friedrich,Wear volume prediction with artificial neural networls, Tribology International[J],32(1999)731-736
[8] GENG LIU、QIAN(JANE) WANG, A Survel of Current Models for Simulating the contact between Rough Surfaces,TRIBOLOGY TRSNDSCTIONS, Vol 42(1999),3,581-591
[9] 赵韩、丁爵曾、梁锦华等,凸轮机构设计,高等教育出版社,1993.12
[10] 江亲瑜,零件磨损过程及寿命预测的数值仿真,润滑及密封[J],1997.6
[11] 周雷,金光熹,谢友柏,董光能,无油压缩机滑动轴承磨损过程的动态模拟,润滑与密封[J],1996.6
[12] 严立、徐久军、潘新祥,磨损问题的仿真求解研究,摩擦学报[J],Vol 19,No 1
[13] 杨楠,陈大融,孔宪梅,多粗糙峰弹塑性接触的有限分析[J],摩擦学学报,2000,6:202~206
[14] 黄平,黄柏林,王文,磨合过程对性能影响的数值分析[J],摩擦学学报,2000,1:59~62
[15] 付光琦,康秀玲,郭凌松等,高速柴油机顶置式配气凸轮机构的动力学计算[J],内燃机学报,2000,2:113~116
[16]柴苍修,磨合过程中有关参数模型建立与计算机仿真,润滑及密封[J],1990.3
[17]左玉梅,内燃机凸轮挺柱磨损数值计算方法的研究:[硕士学位论文].武汉理工大学:机电工程学院,
[18]唐少雄,内燃机凸轮挺柱磨损的计算及计算机仿真:[硕士学位论文].武汉理工大学:机电工程学院,2002年
[19]林永杰,内燃机凸轮机构的摩擦学设计及磨损仿真:[硕士学位论文].武汉理工大学:汽车工程学院,2002年
[20]扬明忠主编,摩擦学设计基础[M],机械工业出版社,1992
[21]徐兀,汽车发动机现代设计,人民交通出版社,1995.8
[22]桂长林,Archard磨损设计计算模型及其应用方法,润滑及密封,1990
[23]Anders B.J.Hugnell,Stefan Bjrklund, Sren Andersson, Simulation of the mid wear 199(1996)202—210
[24]邹慧君、董师予等著,凸轮机构的现代设计,上海交通大学出版社,1991年5月
[25]温诗铸,摩擦学原理[M],清华大学出版社,1990
[26]李景湧著,有限元法,北京邮电大学出版社,1995
[27]陈精一、蔡国忠,电脑辅助工程分析ANSYS使用指南[M],中国铁道出版社,2001
[28]蒋友琼,非线性有限元法[M],北京工业出版社,1988.6
[29]ANSYS非线性分析指南
[30]中国机械工程学会磨擦学学会《润滑工程》编写组编著,《润滑工程》,1986
[31]陈新强,凸轮弹性流体动力润滑油膜厚度计算的新方法,润滑及密封[J],2003
[32]张嗣伟,基础摩擦学,石油大学出版社,2001.4:90~120
[33]陈冠国,弹流润滑理论在凸轮机构设计中的应用,河北理工学院学报,Vol.23 No.2,2001.5
[34]曲全利,张鹏顺,李树森,弹性流体动力润滑的新研究与发展,机械工程师,1998.4
[35]张鹏顺,全膜及部分膜线接触弹流膜厚计算的统一公式,2001
[36] 林财和,凸轮底弹性流体动力润滑的探讨,润滑与密封,1999.4
[37] 詹先泽,俞海清,两种凸轮—挺柱副的承载润滑油膜厚度计算及其润滑性能分析,清华大学出版社,1981.5
[38] 程卫国,MATLAB5.3精要、编成及高级应用,机械工业出版社,2000.4
[39] 李宝良,江亲瑜,葛宰林,平底从动件盘型凸轮机构系统磨损的数值仿真,机械传动,2000.3
[40] 张家驷,摩擦磨损机理现代概念及磨损计算探讨,润滑及密封,2001、No5
[41] 1970, 227 c
[42] Priit Pdra、Sren Andersson,, Simulating sliding wear with finite element method, Tribology International, Vol 32.Number 2.Feb 1999
[43] Y. Yao, A.Z.Qamhiyah,、X.D.Fang,, Finite Element Analysis of the Crimping Crocess of the Piston—slipper Component in Hydranlic Pumps, Jounal of mechanical Design, Vol 122。No.3
[44] Simulation of rough Surfaces with FFT(台), Vol 33,No 1.2000 Jan
[45] Priit Pdra, Sren Andersson, Wear Simulation with winler surface model, Wear,207(1997)79-85
[46] P. Pdra and S.Andersson, FEA wear simulation of a sliding contact, Proc. OST—94 Symp on Machine Design,Tallian, 14-15 April 1994
[47] Anders Flodin, Sren Andersson, Simulation of mild wear in spur gears, Wear, 207(1997)16—23
[48] Priit Pdra、Sren Andersson, Finite element analysis wear simulation of a conical spinning contact considering surface topography, Wear 224(1999)13~21
[49] Anders.Hugnell. Sren Andersson,Simulating follower wear in a cam—dollower contact, Wear, 199(1994) 101-107
[50] A.N.Sinha, P.S.mulherjee,A.De,Assessment of useful life of lubricants using artificial neural network, Industrial Lubrication and Tribology Volume 52,number 3,2000,pp, 105~109
[51] Clint morrow, Michael lovell, Zhi Deng, numerical Contact Analysis of transversely isotropic Coatings; A Cylinder Within a Circumferential Groove, Transaction of the ASME, Vol 123.April2001 436~439
[52] M.SOEJIMA,Y.EJIMA, Improvement of lubrication for Cam and Follower, TRIBOLOGY TRANSACTlONS,Vol.42(1999),4,755~762
[53] V.H.Mucino,J.E.Smith,K.Sun, Hydrodynamic mobility analysis of axial vane lift mechanisms in cylindrical cams, Industrial Lubrication and Tribology Volume52,number 4,2000,pp, 178~185
[54] S.Andersson at all, Prediction of the sliding wear of spur gears, Poc NORDTEIB90,1990
[55] Bjoklund, Computer programs for contact analysis, TRITA—MAE, No 4,1993
[56] 彭国勋、肖正扬,自动机械的凸轮机构设计[M],机械工业出版社,1990
[57] 全永昕,工程摩擦学,浙江大学出版社,1994.11
[58] 周龙保,内燃机学,机械工业出版社,1999.5
[59] 王沫然,MATLAB6.0与科学计算,电子工业出版社,2001.9
[60] 王国强,实用工程数值摸拟技术及其在ANSYS上的实践,西北工业大学出版社,2001.11
[61] 梅雪松、谢友柏,凸轮—挺柱摩擦学特征与几何设计的关系[J],内燃机工程
[62] 黄义,弹性力学基础及有限元单元法[M],冶金工业出版社,1986
[2] 严立、余宪海编著,内燃机磨损及可靠性技术,人民交通出版社,1992.6
[3] 尚汉冀,内燃机配气凸轮机构——设计与计算[M],人民交通出版社,1992
[4] 江亲瑜、李宝良、孙晓云,凸轮机构磨损数值仿真软件研制[J],润滑及密封,2000.4
[5] 温诗铸,世纪回顾与展望—摩擦学研究的发展趋势[J],机械工程学报,2000,6:1~5
[6] M.SOEJIMA,Y. EJIMA,Y. WAKURI,T. KITAHARA, Improvement of Lubrication for Cam and Follower, TRIBOLOGY TRANSACTIONS,Vol.42(1999). 4, 755~762
[7] K.Velten,R.Reinicke,K.Friedrich,Wear volume prediction with artificial neural networls, Tribology International[J],32(1999)731-736
[8] GENG LIU、QIAN(JANE) WANG, A Survel of Current Models for Simulating the contact between Rough Surfaces,TRIBOLOGY TRSNDSCTIONS, Vol 42(1999),3,581-591
[9] 赵韩、丁爵曾、梁锦华等,凸轮机构设计,高等教育出版社,1993.12
[10] 江亲瑜,零件磨损过程及寿命预测的数值仿真,润滑及密封[J],1997.6
[11] 周雷,金光熹,谢友柏,董光能,无油压缩机滑动轴承磨损过程的动态模拟,润滑与密封[J],1996.6
[12] 严立、徐久军、潘新祥,磨损问题的仿真求解研究,摩擦学报[J],Vol 19,No 1
[13] 杨楠,陈大融,孔宪梅,多粗糙峰弹塑性接触的有限分析[J],摩擦学学报,2000,6:202~206
[14] 黄平,黄柏林,王文,磨合过程对性能影响的数值分析[J],摩擦学学报,2000,1:59~62
[15] 付光琦,康秀玲,郭凌松等,高速柴油机顶置式配气凸轮机构的动力学计算[J],内燃机学报,2000,2:113~116
[16]柴苍修,磨合过程中有关参数模型建立与计算机仿真,润滑及密封[J],1990.3
[17]左玉梅,内燃机凸轮挺柱磨损数值计算方法的研究:[硕士学位论文].武汉理工大学:机电工程学院,
[18]唐少雄,内燃机凸轮挺柱磨损的计算及计算机仿真:[硕士学位论文].武汉理工大学:机电工程学院,2002年
[19]林永杰,内燃机凸轮机构的摩擦学设计及磨损仿真:[硕士学位论文].武汉理工大学:汽车工程学院,2002年
[20]扬明忠主编,摩擦学设计基础[M],机械工业出版社,1992
[21]徐兀,汽车发动机现代设计,人民交通出版社,1995.8
[22]桂长林,Archard磨损设计计算模型及其应用方法,润滑及密封,1990
[23]Anders B.J.Hugnell,Stefan Bjrklund, Sren Andersson, Simulation of the mid wear 199(1996)202—210
[24]邹慧君、董师予等著,凸轮机构的现代设计,上海交通大学出版社,1991年5月
[25]温诗铸,摩擦学原理[M],清华大学出版社,1990
[26]李景湧著,有限元法,北京邮电大学出版社,1995
[27]陈精一、蔡国忠,电脑辅助工程分析ANSYS使用指南[M],中国铁道出版社,2001
[28]蒋友琼,非线性有限元法[M],北京工业出版社,1988.6
[29]ANSYS非线性分析指南
[30]中国机械工程学会磨擦学学会《润滑工程》编写组编著,《润滑工程》,1986
[31]陈新强,凸轮弹性流体动力润滑油膜厚度计算的新方法,润滑及密封[J],2003
[32]张嗣伟,基础摩擦学,石油大学出版社,2001.4:90~120
[33]陈冠国,弹流润滑理论在凸轮机构设计中的应用,河北理工学院学报,Vol.23 No.2,2001.5
[34]曲全利,张鹏顺,李树森,弹性流体动力润滑的新研究与发展,机械工程师,1998.4
[35]张鹏顺,全膜及部分膜线接触弹流膜厚计算的统一公式,2001
[36] 林财和,凸轮底弹性流体动力润滑的探讨,润滑与密封,1999.4
[37] 詹先泽,俞海清,两种凸轮—挺柱副的承载润滑油膜厚度计算及其润滑性能分析,清华大学出版社,1981.5
[38] 程卫国,MATLAB5.3精要、编成及高级应用,机械工业出版社,2000.4
[39] 李宝良,江亲瑜,葛宰林,平底从动件盘型凸轮机构系统磨损的数值仿真,机械传动,2000.3
[40] 张家驷,摩擦磨损机理现代概念及磨损计算探讨,润滑及密封,2001、No5
[41] 1970, 227 c
[42] Priit Pdra、Sren Andersson,, Simulating sliding wear with finite element method, Tribology International, Vol 32.Number 2.Feb 1999
[43] Y. Yao, A.Z.Qamhiyah,、X.D.Fang,, Finite Element Analysis of the Crimping Crocess of the Piston—slipper Component in Hydranlic Pumps, Jounal of mechanical Design, Vol 122。No.3
[44] Simulation of rough Surfaces with FFT(台), Vol 33,No 1.2000 Jan
[45] Priit Pdra, Sren Andersson, Wear Simulation with winler surface model, Wear,207(1997)79-85
[46] P. Pdra and S.Andersson, FEA wear simulation of a sliding contact, Proc. OST—94 Symp on Machine Design,Tallian, 14-15 April 1994
[47] Anders Flodin, Sren Andersson, Simulation of mild wear in spur gears, Wear, 207(1997)16—23
[48] Priit Pdra、Sren Andersson, Finite element analysis wear simulation of a conical spinning contact considering surface topography, Wear 224(1999)13~21
[49] Anders.Hugnell. Sren Andersson,Simulating follower wear in a cam—dollower contact, Wear, 199(1994) 101-107
[50] A.N.Sinha, P.S.mulherjee,A.De,Assessment of useful life of lubricants using artificial neural network, Industrial Lubrication and Tribology Volume 52,number 3,2000,pp, 105~109
[51] Clint morrow, Michael lovell, Zhi Deng, numerical Contact Analysis of transversely isotropic Coatings; A Cylinder Within a Circumferential Groove, Transaction of the ASME, Vol 123.April2001 436~439
[52] M.SOEJIMA,Y.EJIMA, Improvement of lubrication for Cam and Follower, TRIBOLOGY TRANSACTlONS,Vol.42(1999),4,755~762
[53] V.H.Mucino,J.E.Smith,K.Sun, Hydrodynamic mobility analysis of axial vane lift mechanisms in cylindrical cams, Industrial Lubrication and Tribology Volume52,number 4,2000,pp, 178~185
[54] S.Andersson at all, Prediction of the sliding wear of spur gears, Poc NORDTEIB90,1990
[55] Bjoklund, Computer programs for contact analysis, TRITA—MAE, No 4,1993
[56] 彭国勋、肖正扬,自动机械的凸轮机构设计[M],机械工业出版社,1990
[57] 全永昕,工程摩擦学,浙江大学出版社,1994.11
[58] 周龙保,内燃机学,机械工业出版社,1999.5
[59] 王沫然,MATLAB6.0与科学计算,电子工业出版社,2001.9
[60] 王国强,实用工程数值摸拟技术及其在ANSYS上的实践,西北工业大学出版社,2001.11
[61] 梅雪松、谢友柏,凸轮—挺柱摩擦学特征与几何设计的关系[J],内燃机工程
[62] 黄义,弹性力学基础及有限元单元法[M],冶金工业出版社,1986