摘要
本文应用d'Alembert-Lagrange原理,对由基座、(n-1)个柔性连杆及端部负载组成,相互用柱铰连接的柔性链式多体系统进行建模;对在空间技术中,具有一刚杆,两柔杆加上刚性负载所组成的三维机械臂系统,采用Gear算法进行数值仿真。仿真结果比较符合实际,从而在柔性多体系统的数学模型为刚性常微分方程的情况下,为解决其数值仿真问题,特别是三维问题的数值仿真取得了进展。
in this paper, d'Alembert-Lagrange principle is used for modeling a system consisted of a base, (n-1) rods and a load at the tip which connects each other with hoes.Numerical simulation based on the Gear algorithm is applied to the 3-D manipulator system used in the space technology, which is consisted of one rigid rod, two flexible rods with rigid load.The results of numerical sedation are satisfactory. In the case when the mathematics model of the flexible multibody systems is corresponding to stiffness ordinary differential equations,the method for the solution of the numerical sedation of the flexible multibody systems,especially for the 3-D systems,can be applied effectively.
出处
《工程力学》
EI
CSCD
1996年第1期103-114,共12页
Engineering Mechanics
基金
国家航天局501部资助项目
关键词
柔性多体系统
数值仿真
动力学分析
机械手
flexible multibody system, numerical simulation.stiffness ordinary differential equations, Gear algorithm
