A Non-Prismatic Beam Element for the Optimization of Flexure Mechanisms

K. Dwarshuis, R. Aarts, M. Ellenbroek, D. Brouwer
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引用次数: 1

Abstract

Flexure joints are rapidly gaining ground in precision engineering because of their predictable behavior. However the range of motion of flexure joints is limited due to loss of support stiffness in deformed configurations. Most of the common flexure joints consist of prismatic leaf springs. This paper presents a simple non-prismatic beam formulation that can be used for the efficient modelling of non-prismatic leaf springs. The resulting stiffness and stress computed by the non-prismatic beam element are compared to the results of a finite element analysis. The paper shows that the support stiffness of two typical flexure joints can be increased up to a factor of 1.9 by using non-prismatic instead of prismatic leaf springs.
一种用于柔性机构优化的非棱镜梁单元
柔性关节由于其可预测的性能,在精密工程中迅速占有一席之地。然而,弯曲关节的运动范围是有限的,由于损失的支持刚度变形配置。大多数常见的柔性关节都是由棱柱形钢板弹簧组成的。本文提出了一种简单的非棱镜梁公式,可用于非棱镜钢板弹簧的有效建模。将非棱柱梁单元计算得到的刚度和应力与有限元分析结果进行了比较。研究表明,用非柱形钢板弹簧代替柱形钢板弹簧可使两个典型柔性节点的支承刚度提高1.9倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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