液压缸活塞表面微织构动压润滑性能分析
发布时间:2018-12-16 21:28
【摘要】:以织构化间隙密封液压缸为研究背景,利用平均雷诺方程对缸筒与活塞的配合处微织构流场进行数学建模,采用有限差分法对平均雷诺方程进行离散,分别对织构形貌为球缺面、圆柱面、圆锥面、抛物面、六面体和正方体进行数值模拟,获得最优微织构形貌,同时探讨了表面粗糙度,表面方向参数和面积占有率对表面摩擦因数的影响。结果表明:六种不同形貌的微织构均能在活塞表面产生动压润滑效果,圆柱形微织构表面动压润滑性能最好;粗糙表面的粗糙峰在运动过程中能够形成动压承载力,圆柱形表面的摩擦因数随粗糙度的增加而增加,微织构的摩擦因数随表面方向参数的增加而减小,随着面积占有率的增加而减小。
[Abstract]:Based on the study of textured clearance seal hydraulic cylinder, the average Reynolds equation is used to model the microtexture flow field at the cylinder and piston, and the finite difference method is used to discretize the average Reynolds equation. The optimum microtexture was obtained by numerical simulation of spherical surface, cylindrical surface, conical surface, paraboloid, hexahedron and cube, and the surface roughness was also discussed. The influence of surface direction parameter and area occupation rate on surface friction coefficient. The results show that all of the six microtextures can produce hydrodynamic lubrication effect on the piston surface, and the cylindrical microtexture surface has the best hydrodynamic lubrication performance. The friction coefficient of cylindrical surface increases with the increase of roughness, and the friction coefficient of micro-texture decreases with the increase of surface direction parameter. With the increase of area share and decrease.
【作者单位】: 武汉科技大学机械自动化学院;
【基金】:国家自然科学基金项目(51475338) 国家青年科学基金项目(51405350)资助
【分类号】:TH137.51
本文编号:2383070
[Abstract]:Based on the study of textured clearance seal hydraulic cylinder, the average Reynolds equation is used to model the microtexture flow field at the cylinder and piston, and the finite difference method is used to discretize the average Reynolds equation. The optimum microtexture was obtained by numerical simulation of spherical surface, cylindrical surface, conical surface, paraboloid, hexahedron and cube, and the surface roughness was also discussed. The influence of surface direction parameter and area occupation rate on surface friction coefficient. The results show that all of the six microtextures can produce hydrodynamic lubrication effect on the piston surface, and the cylindrical microtexture surface has the best hydrodynamic lubrication performance. The friction coefficient of cylindrical surface increases with the increase of roughness, and the friction coefficient of micro-texture decreases with the increase of surface direction parameter. With the increase of area share and decrease.
【作者单位】: 武汉科技大学机械自动化学院;
【基金】:国家自然科学基金项目(51475338) 国家青年科学基金项目(51405350)资助
【分类号】:TH137.51
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