This paper presents an approach based on parameterized compliance for type synthesis of flexure mechanisms with serial, parallel, or hybrid topologies. The parameterized compliance matrixes have been derived for commonly used flexure elements which are significantly influenced by flexure parameters including material and geometric properties. Different parameters of flexure elements generate different degree of freedom (DOF) characteristic of types. Enlightened by the compliance analysis of flexure elements, a parameterization approach with detailed processes and steps is introduced in this paper to help analyze and synthesize flexure mechanisms in the case study as serial chains, parallel chains, and combination hybrid chains. For a hybrid flexure, finite element modeling simulations results are compared to analytical compliance elements characters. Within linear deformations, the maximum compliance errors of analytical models are less than 6% compared with FE models. The final goal of this work is to provide a parameterized approach for type synthesis of flexure mechanisms that can be used to configure and change the parameters of flexure mechanisms to achieve desired DOF requirements of types initially.
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ASME 2014 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference
August 17–20, 2014
Buffalo, New York, USA
Conference Sponsors:
- Design Engineering Division
- Computers and Information in Engineering Division
ISBN:
978-0-7918-4636-0
PROCEEDINGS PAPER
A Parameterization Approach for Compliance Analysis and Synthesis of Flexure Mechanisms
M. Jia
Beihang University, Beijing, China
R. P. Jia
Beihang University, Beijing, China
J. J. Yu
Beihang University, Beijing, China
Paper No:
DETC2014-34996, V05AT08A039; 12 pages
Published Online:
January 13, 2015
Citation
Jia, M, Jia, RP, & Yu, JJ. "A Parameterization Approach for Compliance Analysis and Synthesis of Flexure Mechanisms." Proceedings of the ASME 2014 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. Volume 5A: 38th Mechanisms and Robotics Conference. Buffalo, New York, USA. August 17–20, 2014. V05AT08A039. ASME. https://doi.org/10.1115/DETC2014-34996
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