磁流润滑胶体的传输的特性分析
The Characteristics Analysis of Magnetic Fluid Lubrication Colloid
摘要:
本研究基于壁滑移机理及其梯度流胶体柱端面形貌曲线方程,建立合适的小孔流变模型,辅以仿真分析对其流变特性进行研究。结果表明分析仿真的数据与实际得到很好的拟合。
Abstract: In the paper, based on the mechanism of wall slip flow and its gradient gel column face shape curve equation, we established a proper rheological model of holes, and supplemented by the simulation analysis, studied its rheological properties. This proved that the theoretical model was very fit for practice.
参考文献
[1]
|
Krim, J. (2002) Surface science and the atomic-scale origins of friction: What once was old is new again. Surface Science, 500, 741-758.
|
[2]
|
万轶, 熊党生, 等 (2005) 纳米粒子作为润滑添加剂的研究与展望. 2005年国际材料科学与工程学术研讨会论文集.
|
[3]
|
郭太勤, 蒋明俊, 等 (2006) 高温润滑脂的发展现状. 润滑与密封, 1, 164-167, 173.
|
[4]
|
李玉峰, 欧阳家虎, 周玉, 等 (2007) 高温固体润滑材料研究的发展现状. 热处理技术与装备, 6, 2-5.
|
[5]
|
乔红斌, 郭强, 等 (2004) 高分子固体润滑耐磨涂层研究进展. 机械工程材料, 2, 1-4.
|
[6]
|
孔晓丽, 刘勇兵, 陆有, 霍福祥 (2001) 粉末冶金高温金属基固体自润滑材料. 粉末冶金技术, 2, 86-92.
|
[7]
|
Yuan, C.Q., Peng, Z., et al. (2005) The characterization of wear transitions in sliding wear process contaminated with silica and iron powder. Tribology International, 32, 129-143.
|
[8]
|
Hisakado, T., Tsukizoe, T. and Yoshikawa, H. (1983) Lubrication mechanism of solid lubricants in oil. Journal of Tribology, 105, 245-253.
|
[9]
|
Teterin, G.A. (1991) Activation of oil-insoluble friction-reducing additives. Khim.Tekhnol.Topl. Masel., 3, 17-19.
|