高速球棒式摩擦试验机的设计与研究
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摘要
高速球棒式试验机是在各种摩擦学系统下测定金属材料、非金属材料、机械零件、摩擦磨损性能的精密测试仪器。针对高速球棒式试验机的发展现状及其现有的缺点,设计高速球棒式摩擦试验机的结构。利用Solid Works三维软件对高速球棒式摩擦试验机进行三维建模,并对其中主要部分的结构功能与作用进行分析。此外通过分析球棒式摩擦试验机摩擦因数的计算方法,计算出高速球棒式摩擦试验机的摩擦因数,同时利用ANSYS Workbench分析软件对球棒与滚球的受力与振动情况进行仿真分析,模拟该实验机在实际工况下的运转情况。
High-speed bating test machine is the determination of precision testing equipment of metal materials,non-metallic materials,mechanical parts,friction and wear properties under a variety of tribological system. The structure of high-speed bat-bar friction tester was designed for the development of high-speed batting test machine and its existing shortcomings. Three-dimensional( 3D)modeling of high-speed bat-bar friction tester by Solid Works 3D software was carried out,and the structural function and function of the main part were analyzed. In addition,the friction coefficient of the high-speed bat-type friction tester was calculated by analyzing the calculation method of the friction coefficient of the bat-type friction tester. At the same time,ANSYS Workbench analysis software was used to simulate the force and vibration of the bat and the ball. Simulation of the experimental machine in the actual operating conditions was done.
High-speed bating test machine is the determination of precision testing equipment of metal materials,non-metallic materials,mechanical parts,friction and wear properties under a variety of tribological system. The structure of high-speed bat-bar friction tester was designed for the development of high-speed batting test machine and its existing shortcomings. Three-dimensional( 3D)modeling of high-speed bat-bar friction tester by Solid Works 3D software was carried out,and the structural function and function of the main part were analyzed. In addition,the friction coefficient of the high-speed bat-type friction tester was calculated by analyzing the calculation method of the friction coefficient of the bat-type friction tester. At the same time,ANSYS Workbench analysis software was used to simulate the force and vibration of the bat and the ball. Simulation of the experimental machine in the actual operating conditions was done.
引文
[1]钱林茂,田煜,温诗铸.纳米摩擦学[M].北京:科学出版社,2015.
[2]中国科学技术协会.2014~2015机械工程学科(摩擦学)发展研究报告[M].北京:中国科学技术出版社,2016.
[3]谢友柏.谢友柏文选:摩擦学、现代设计[M].北京:科学出版社,2006.
[4]刘维民,薛群基.摩擦学研究及发展趋势[J].中国机械工程,2000,11(1):77-80.LIU W M,XUE Q J.Research and Development of Tribology[J].China Mechanical Engineering,2000,11(11):77-80.
[5]URBAKH M,KLAFTER J,GOURDON D,et al.The Nonlinear Nature of Friction[J].Nature,2004,430(6999):525.
[6]张会情,张兰英,刘亚斌.汽车球头销用润滑脂的研发与应用[C]//中国汽车工程学会燃料与润滑油分会年会论文集,2008.
[7]刘翠苹,郭振俊,吴宝杰,等.汽车车门限位器润滑脂的研究与应用[C]//中国汽车工程学会燃料与润滑油分会年会论文集,2010.
[8]强新伟.双圆盘牵引传动试验及牵引力数学模型的研究[D].焦作:河南理工大学,2001.
[9]邴雷刚.大滑滚比工况下弹流摩擦试验研究[D].合肥:合肥工业大学,2008.
[10]BIRESAW G,BANTCHEV G B.Elastohydrodynamic(EHD)Traction Properties of Seed Oils1[J].Tribology Transactions,2010,53(4):573-583.
[11]庞丹,吕晓仁,康健,等.磨损间隙调整式环块摩擦试验机的研制[J].润滑与密封,2017,42(9):103-106.PANG D,LV X R,KANG J,et al.Development of Wear Gap Adjustable Ring-Block Friction Testing Machine[J].Lubrication Engineering,2017,42(9):103-106.
[12]YAMANAKA M,KUMAGAI K,INOUE K,et al.Evaluation of Property Difference between Traction Oil and Traction Grease[J].Journal of Advanced Mechanical Design Systems&Manufacturing,2009,3(4):366-377.
[13]周维贵,郭小川,蒋明俊,等.基于聚-α烯烃油的锂基润滑脂流变性[J].后勤工程学院学报,2014(2):34-39.ZHOU W G,GUO X C,JIANG M J,et al.Rheological of Lithium Lubricating Grease Based on Poly-αOlefins Oil[J].Journal of Logistical Engineering University,2014(2):34-39.
[14]KOULOCHERIS D,STATHIS A,COSTOPOULOS T,et al.Experimental Study of the Impact of Grease Particle Contaminants on Wear and Fatigue Life of Ball Bearings[J].Engineering Failure Analysis,2014,39(4):164-180.
[2]中国科学技术协会.2014~2015机械工程学科(摩擦学)发展研究报告[M].北京:中国科学技术出版社,2016.
[3]谢友柏.谢友柏文选:摩擦学、现代设计[M].北京:科学出版社,2006.
[4]刘维民,薛群基.摩擦学研究及发展趋势[J].中国机械工程,2000,11(1):77-80.LIU W M,XUE Q J.Research and Development of Tribology[J].China Mechanical Engineering,2000,11(11):77-80.
[5]URBAKH M,KLAFTER J,GOURDON D,et al.The Nonlinear Nature of Friction[J].Nature,2004,430(6999):525.
[6]张会情,张兰英,刘亚斌.汽车球头销用润滑脂的研发与应用[C]//中国汽车工程学会燃料与润滑油分会年会论文集,2008.
[7]刘翠苹,郭振俊,吴宝杰,等.汽车车门限位器润滑脂的研究与应用[C]//中国汽车工程学会燃料与润滑油分会年会论文集,2010.
[8]强新伟.双圆盘牵引传动试验及牵引力数学模型的研究[D].焦作:河南理工大学,2001.
[9]邴雷刚.大滑滚比工况下弹流摩擦试验研究[D].合肥:合肥工业大学,2008.
[10]BIRESAW G,BANTCHEV G B.Elastohydrodynamic(EHD)Traction Properties of Seed Oils1[J].Tribology Transactions,2010,53(4):573-583.
[11]庞丹,吕晓仁,康健,等.磨损间隙调整式环块摩擦试验机的研制[J].润滑与密封,2017,42(9):103-106.PANG D,LV X R,KANG J,et al.Development of Wear Gap Adjustable Ring-Block Friction Testing Machine[J].Lubrication Engineering,2017,42(9):103-106.
[12]YAMANAKA M,KUMAGAI K,INOUE K,et al.Evaluation of Property Difference between Traction Oil and Traction Grease[J].Journal of Advanced Mechanical Design Systems&Manufacturing,2009,3(4):366-377.
[13]周维贵,郭小川,蒋明俊,等.基于聚-α烯烃油的锂基润滑脂流变性[J].后勤工程学院学报,2014(2):34-39.ZHOU W G,GUO X C,JIANG M J,et al.Rheological of Lithium Lubricating Grease Based on Poly-αOlefins Oil[J].Journal of Logistical Engineering University,2014(2):34-39.
[14]KOULOCHERIS D,STATHIS A,COSTOPOULOS T,et al.Experimental Study of the Impact of Grease Particle Contaminants on Wear and Fatigue Life of Ball Bearings[J].Engineering Failure Analysis,2014,39(4):164-180.
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