摘要
与普通机械密封相比,微孔端面机械密封的端面摩擦因数、生热量下降而耐磨和抗压性能提高。本文通过建立激光加工微孔端面液体润滑机械密封的理论模型,分析了微孔沿圆周和半径方向呈间断扇形分布时的密封性能。采用有限元法求解雷诺方程获得不同扇形区和微孔结构尺寸参数条件下的端面液膜压力分布,在此基础上计算了液膜刚度、开启力、泄漏量、摩擦扭矩、刚漏比和开漏比等密封性能参数,并进一步分析了各密封性能参数随结构参数的变化规律。结果表明,当径向开孔长度比和周向开孔长度比的优化值均为0.6,微孔面积密度在0.2~0.3范围取值,深径比在0.010~0.015范围取值时,密封综合性能最优。
The temperature rise, friction torque and friction coefficient of a laser-textured mechanical seal with a dimple face are much smaller than those of a conventional mechanical seal, and the abilities of antiwear and working under high pressures are improved. A theoretical analysis model for a laser textured mechanical seal was developed, by which the sealing performance of a new type of such seals with a porous sector face was analyzed. The dimensionless fluid film pressure distributions between the two mating faces with different sector dimension parameters and microdimples geometry parameters were obtained by solving the Reynolds equation with the finite element method. The sealing performance parameters were calculated and analyzed, such as film stiffness, opening force, fluid leakage, frictional torque, the ratio of stiffness to leakage, and the ratio of opening force to leakage. The results showed that the most excellent sealing performance could be obtained when the textured length ratios both in the radial direction and in the circumferential direction were 0. 6, the textured multipore area density was between 0.2 and 0.3, and the ratio of dimple depth to dimple diameter was between 0. 010 and 0. 015.
出处
《化工学报》
EI
CAS
CSCD
北大核心
2009年第4期965-971,共7页
CIESC Journal
基金
国家自然科学基金项目(50575152
50775206)
浙江省科技计划资助项目(2008C21125)~~
关键词
多孔端面
激光加工
机械密封
有限元法
multi-pore face
laser-textured
mechanical seal
finite element method
作者简介
赵中(1983-),男,硕士研究生。
联系人:彭旭东。
