Overview and Kinetostatic Characterization of Compliant Shell Mechanism Building Blocks

Journal article (2020)

Authors

Joep Nijssen Mechatronic Systems Design - Mechanical, Maritime and Materials Engineering

J.P.A. Nijssen Mechatronic Systems Design - Mechanical, Maritime and Materials Engineering

G. Radaelli Mechatronic Systems Design - Mechanical, Maritime and Materials Engineering

Giuseppe Radaelli Mechatronic Systems Design - Mechanical, Maritime and Materials Engineering

Charles J. Kim Bucknell University

Just Herder Mechatronic Systems Design - Mechanical, Maritime and Materials Engineering , Precision and Microsystems Engineering

J.L. Herder Mechatronic Systems Design - Mechanical, Maritime and Materials Engineering , Precision and Microsystems Engineering

Research Group

Mechatronic Systems Design (Mechanical, Maritime and Materials Engineering) (TU Delft)

Building blocks Compliant mechanisms Mechanism design Shell mechanisms Mechanism synthesis Compliance ellipsoid Theoretical kinematics Type synthesis

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http://resolver.tudelft.nl/uuid:2202a9c0-457d-4c38-9360-4a28133ef03a

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Published Date

2020

Language

English

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Faculty

Mechanical, Maritime and Materials Engineering

Department

Precision and Microsystems Engineering

Research Group

Mechatronic Systems Design

Abstract

Compliant shell mechanisms utilize thin-walled structures to achieve motion and force generation. Shell mechanisms, because of their thin-walled nature and spatial geometry, are building blocks for spatial mechanism applications. In spatial compliant mechanism design, the ratio of compliance is the representation of the kinetostatics involved. Using shell mechanisms in concept design, however, can prove difficult without a uniform characterization method. In this article, we make use of compliance ellipsoids to achieve characterization of the ratio of compliance for shell mechanisms. Ten promising shells are presented with the kinetostatic characteristics, combined with a uniform method of determining the kinetostatic characteristics for other unknown shells. Finally, we show how shells are indeed a valid alternative in the spatial mechanism design, compared to conventional flexure mechanisms.

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