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An analytical method for calculating the natural frequencies of spatial compliant mechanisms

Vivien Platl, Lena Zentner

2022Mechanism and Machine Theory20 citationsDOIOpen Access PDF

Abstract

Compliant mechanisms are becoming increasingly important in both research and industry. The design and the static analysis of such mechanisms has made much progress in recent years, yet comparatively little research has been done on their dynamic behaviour. The aim of this paper is to advance the dynamic analysis of spatial compliant mechanisms by pursuing the calculation of their natural frequencies. So far, their determination is only possible with time-consuming 3D-FEM simulations or via pseudo-rigid-body models and Lagrangian equations. An analytical method is developed to simplify and accelerate the calculation of the natural frequencies of compliant mechanisms. The method is integrated into an algorithm on which a graphical user interface is developed to allow the design and calculation of the system in the most time efficient and intuitive way. The results are verified by 3D-FEM simulations and validated through an experiment. The evaluation shows good agreement with the reference models. The results of this paper allow a reliable and efficient calculation of natural frequencies and serve to facilitate further work regarding the dynamic analysis of compliant mechanisms.

Topics & Concepts

Finite element methodComputer scienceNatural frequencyInterface (matter)Natural (archaeology)Work (physics)AlgorithmSimulationVibrationMechanical engineeringEngineeringStructural engineeringAcousticsHistoryBubblePhysicsMaximum bubble pressure methodArchaeologyParallel computingPiezoelectric Actuators and ControlSoft Robotics and ApplicationsIterative Learning Control Systems
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