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用耦合分析法研究内燃机活塞环—气缸套传热润滑摩擦问题 被引量:22

Study of Heat Transfer,Lubrication and Friction of Piston Ring-Liner in Internal Combustion Engines Using the Coupled Methods
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摘要 在以往对活塞环—气缸套润滑摩擦性能的研究中,大都忽略了活塞组—气缸套间的导热,或者将导热过程简化,这与该摩擦副的实际润滑摩擦状况相去甚远。把柴油机缸内燃气、活塞、活塞环、润滑油膜、气缸套、冷却介质作为一个耦合体,考虑各部件间及相应物理场间的耦合关系,采用耦合分析法建立了活塞环—气缸套的三维非稳态热混合润滑摩擦模型。该模型以三维瞬态热传导模型、动压润滑模型和润滑油膜传热模型为基础,并考虑了润滑油的黏温变化、燃烧室燃气泄漏、表面粗糙度、油膜破裂位置以及气缸套圆周方向上的非轴对称性等影响因素。采用上述模型,对6110型柴油机活塞环—气缸套摩擦副进行了传热、润滑、摩擦耦合分析,得到了活塞组—气缸套的温度场,并用试验证实了耦合模型的正确性;与此同时,得出了润滑油膜的温度、黏度、最小油膜厚度和摩擦热随曲轴转角和活塞环周向高度的分布曲线。 Previous studies on lubrication and frictional performance of piston ring-liner neglected the heat conduction behavior between the piston assembly and the liner or just simplified the heat conduction process, making it away from the real lubrication and frictional characteristic. In this paper, the in-cylinder gas, the piston, the piston ring, the lubrication oil film, the liner and the coolant all included in the simulation. By considering the coupled relations of various components and the related physical fields, a 3D transient mathematical model with thermal coupled lubrication and frictional performance of piston ringliner is proposed. The model is based on the 3D transient heat conduction model, the hydrodynamic lubrication model and the heat transfer model of lubrication oil film by considering the viscosity-temperature variation of the lubrication oil, the blow-by through the piston ring pack, the surface roughness, the rupture location and the non-axisymmetry in liner circumferential direction. The coupled analysis of the heat transfer, lubrication and friction for the ring-liner of a 6110 diesel engine is performed using the above software. The analysis obtains the temperature fields of piston assembly-liner and the validity of the coupled model is compared with the experimental results. Meanwhile, the distribution curves of the temperature, the viscosity, the minimum film thickness and the friction force of the lubrication oil film versus the crank angle and ring circumferential coordinate are obtained.
作者 周龙 白敏丽 吕继组 刘佳伟
机构地区 大连理工大学能源与动力学院
出处 《内燃机学报》 EI CAS CSCD 北大核心 2008年第1期69-75,共7页 Transactions of Csice
基金 国家自然科学基金资助项目(50276007 50576008) 辽宁省自然科学基金资助项目(20062180 20042156)
关键词 活塞组-气缸套 传热 润滑 摩擦 活塞环 耦合 Piston assembly-liner Heat transfer, lubrication and friction Piston ring Coupling
分类号 TK422 [动力工程及工程热物理—动力机械及工程]
  • 相关文献

参考文献7

  • 1Nakai H,Ino N,Hashimoto H.Effects of Film Temperature on Piston-Ring Lubrication for Refrigeration Compressors Considering Surface Roughness[J].Journal of Tribology,1998,120(2):252-258.
  • 2白敏丽,丁铁新,董卫军.活塞环—气缸套润滑摩擦研究[J].内燃机学报,2005,23(1):72-76. 被引量:31
  • 3白敏丽,丁铁新,吕继组.活塞组-气缸套耦合传热模拟[J].内燃机学报,2005,23(2):168-175. 被引量:44
  • 4刘连忠.活塞环[M].北京:人民交通出版社,1978,144-157.
  • 5Nadir Patir,Cheng H S.An Average Flow Model for Determining Effects of Three-Dimensional Roughness on Partial Hydrodynamic Lubrication[J].Trans ASME,1978,100(1):12-17.
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  • 7刘刘,桂长林,谢友柏.活塞环-缸套润滑状态周向不均匀性的研究[J].内燃机学报,1997,15(3):281-289. 被引量:18

二级参考文献15

  • 1裘祖干,金孝维,张慧生,陈伯贤.内燃机活塞运动历程的计算和分析[J].内燃机学报,1993,11(1):63-70. 被引量:9
  • 2白敏丽,吕继组,丁铁新.六缸柴油机冷却系统流动与传热的数值模拟研究[J].内燃机学报,2004,22(6):525-531. 被引量:74
  • 3白敏丽,丁铁新,董卫军.活塞环—气缸套润滑摩擦研究[J].内燃机学报,2005,23(1):72-76. 被引量:31
  • 4刘焜,谢友柏.内燃机缸套─活塞环混合润滑特性及摩擦力分析[J].内燃机学报,1995,13(3):299-305. 被引量:32
  • 5Patir N,Cheng H S. An Average Flow Model for Determining Effects of Three-Dimensional Roughness on Partial Hydrodynamic Lubrication [J].ASME Trans,1978(100) :12 - 16.
  • 6Nakai H,Lno N, Hashimoto H. Effects of Film Temperature on Piston-Ring I.ubrication for Refrigeration Compressors Considering Surface Roughness [J].ASME Trans ,1998(120) :252 - 258.
  • 7Akalin O,Newaz G M. Piston Ring-Cylinder Bore Friction Modeling in Mixed Lubrication Regime:Part 1-Analytical Results[J]. Journal of Tribology,2001(123):211 - 218.
  • 8Antony S H,Morel T. A New Generation of Tools for Accurate Thermo-Mechanical Finite Element Analyses of Engine Components[C]. SAE Paper 920681,1992.
  • 9Liu Yong , Reitz R D. Modeling of Heat Conduction within Chamber Walls for Multidimensional Internal Combustion Engine Simulations[J] . International Journal of Heat Mass Transfer, 1998,41(6/7) :859-869.
  • 10Woschni G, Fieger J. Determination of Local Heat Transfer Coefficients at the Piston of a High Speed Diesel Engine by Evaluation of Measured Tempera ture Distribution[C]. SAE Paper 790834, 1979.

共引文献87

同被引文献225

引证文献22

二级引证文献72

内燃机学报
2008年 第1期

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