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Modelling of a general lumped-compliance beam for compliant mechanisms

Jiaxiang Zhu, Guangbo Hao

2023International Journal of Mechanical Sciences17 citationsDOIOpen Access PDF

Abstract

Compliant mechanisms are crucial in a wide range of applications, and straight flexure beams with uniform thickness serve as their fundamental building blocks. While techniques and methods exist to estimate the sophisticated load-displacement behavior of these beams, dealing with the nonlinear large deformation and parametric design of complex compliant mechanisms using these beams remains a significant challenge. To address this challenge, an analytical model has been developed to integrate six independent geometric parameters into a general lumped-compliance beam, known as the general lumped-compliance beam model (GLBM). This approach enables the determinate synthesis of force-displacement characteristics in compliant mechanisms that feature any two flexure beams connected in series, such as the conventional lumped-compliance beam, distributed beam, inverted beam, and folded beam. The closed-form beam constraint model (BCM) is utilized to derive the GLBM that accurately captures geometric nonlinearity and load-dependent effects. To demonstrate the effectiveness of this modeling technique, we verified five specific configurations of the GLBM using nonlinear finite element analysis (FEA). In addition, we selected two representative compliant mechanisms, a revolute joint and a bistable mechanism, for nonlinear analysis and experimental validation, which further showcases the efficacy of this proposed GLBM.

Topics & Concepts

Compliant mechanismBeam (structure)Revolute jointNonlinear systemFinite element methodStructural engineeringDisplacement (psychology)Parametric statisticsMechanism (biology)Constraint (computer-aided design)EngineeringComputer scienceMechanical engineeringMathematicsPhysicsStatisticsPsychotherapistQuantum mechanicsPsychologyPiezoelectric Actuators and ControlShape Memory Alloy TransformationsForce Microscopy Techniques and Applications
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