离散化
润滑
算法
雷诺方程
空化
简单算法
计算机科学
放松(心理学)
数学
应用数学
机械
雷诺数
物理
数学分析
工程类
机械工程
热力学
社会心理学
湍流
心理学
作者
Roberto F. Ausas,Mohammed Jai,Gustavo C. Buscaglia
摘要
A numerical algorithm for fully dynamical lubrication problems based on the Elrod–Adams formulation of the Reynolds equation with mass-conserving boundary conditions is described. A simple but effective relaxation scheme is used to update the solution maintaining the complementarity conditions on the variables that represent the pressure and fluid fraction. The equations of motion are discretized in time using Newmark’s scheme, and the dynamical variables are updated within the same relaxation process just mentioned. The good behavior of the proposed algorithm is illustrated in two examples: an oscillatory squeeze flow (for which the exact solution is available) and a dynamically loaded journal bearing. This article is accompanied by the ready-to-compile source code with the implementation of the proposed algorithm.
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