An Energy-Based Framework for Nonlinear Kinetostatic Modeling of Compliant Mechanisms Utilizing Beam Flexures

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jmr-19-1225.pdf (473.41 KB)

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https://asmedigitalcollection.asme.org/computingengineering/article-abstract/21/6/064501/1103461/An-Energy-Based-Framework-for-Nonlinear?

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https://doi.org/10.1115/1.4050472
 http://hdl.handle.net/11603/22537

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UMBC Mechanical Engineering Department
UMBC Center for Space Sciences and Technology (CSST) / Center for Research and Exploration in Space Sciences & Technology II (CRSST II)
UMBC Faculty Collection

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Author/Creator ORCID

https://orcid.org/0000-0003-2707-2533

Date

2021-12

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journal articles
preprints
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Citation of Original Publication

Chen, Guimin et al.; An Energy-Based Framework for Nonlinear Kinetostatic Modeling of Compliant Mechanisms Utilizing Beam Flexures; Journal of Computing and Information Science in Engineering, 21, 6, December 2021; https://doi.org/10.1115/1.4050472

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Abstract

Although energy-based methods have advantages over the Newtonian methods for kinetostatic modeling, the geometric nonlinearities inherent in deflections of compliant mechanisms preclude most of the energy-based theorems. Castigliano’s first theorem and the Crotti–Engesser theorem, which do not require the problem being solved to be linear, are selected to construct the energy-based kinetostatic modeling framework for compliant mechanisms in this work. Utilization of these two theorems requires explicitly formulating the strain energy in terms of deflections and the complementary strain energy in terms of loads, which are derived based on the beam constraint model. The kinetostatic modeling of two compliant mechanisms are provided to demonstrate the effectiveness of the explicit formulations in this framework derived from Castigliano’s first theorem and the Crotti–Engesser theorem.