Consistent and Inertia-Shape-Integral-Free Invariants of the Floating Frame of Reference Formulation

Andreas Zwölfer, J. Gerstmayr
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引用次数: 2

Abstract

The conventional continuum-mechanics-based floating frame of reference formulation involves unhandy so-called inertia-shape-integrals in the equations of motion, which is why, commercial multibody software codes resort to a lumped mass approximation to avoid the evaluation of these integrals in their computer implementations. This paper recaps the conventional continuum mechanics floating frame of reference formulation and addresses its drawbacks by summarizing recent developments of the so-called nodal-based floating frame of reference formulation, which avoids inertia shape integrals ab initio, does not rely on a lumped mass approximation, and exhibits a way to calculate the so-called invariants, which are constant “ingredients” required to set up the equations of motion, in a consistent way.
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浮动参照系公式的一致不变量和无惯性形状积分不变量
传统的基于连续力学的浮动参照系公式在运动方程中涉及到不方便的所谓惯性形状积分,这就是为什么商业多体软件代码采用集中质量近似来避免在计算机实现中对这些积分进行评估。本文概述了传统的连续介质力学浮动参照系公式,并通过总结所谓的基于节点的浮动参照系公式的最新发展来解决其缺点,该公式避免了从头开始的惯性形状积分,不依赖于集中质量近似,并展示了一种计算所谓不变量的方法,这些不变量是建立运动方程所需的常数“成分”,以一致的方式。
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