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Research on the dynamics of compliant mechanisms. Indiana: Purdue University, 1991.ĬHEN Zhitai. The design and analysis of large-deflection members in compliant mechanisms. The results could provide great theoretical significance and application values for the structural optimization of compliant mechanisms, the improvement of their dynamic properties and the expansion of their application range. From the simulation results, the dynamic characteristics of compliant mechanism are relatively sensitive to the structure size, section parameter, and characteristic parameter of material on mechanisms.
#COMPLIANT MECHANISMS HOWELL PDF DOWNLOAD SOFTWARE#
Finally, in combination with the finite element analysis software ANSYS, the frequency characteristics and sensitivity of the compliant mechanism are analyzed by taking the compliant parallel-guiding mechanism and the compliant bistable mechanism as examples. Subsequently, based on the modified pseudo-rigid-body model, the dynamic equations of the ordinary compliant four-bar mechanism are established using the analytical mechanics. Firstly, the pseudo-rigid-body model under the static and kinetic conditions is modified to enable the modified pseudo-rigid-body model to be more suitable for the dynamic analysis of the compliant mechanism.
Based on a modified pseudo-rigid-body model, the frequency characteristics and sensitivity of the large-deformation compliant mechanism are studied. 112 Classification of Four-Bar Mechanisms. 8 2 Endurance Limit and Fatigue Strength Modification Factors. 79 Estimating Endurance Limit and Fatigue Strength. 21Ģ.1 Linear versus Nonlinear Deflections. 11 1.5.1 1.5.2 1.5.3Ĭompliant Mechanisms versus Compliant Structures. Librllry 0JC011gress CC1tC1logi11g-i11-P11blicC1tio11 Dlltll:
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If professional advice or other expert assistance is required, the services of a competent professional person should be sought. It is sold with the understanding that the publisher is not engaged in rendering professional services. This publication is designed to provide accurate and authoritative information in regard to the subject matter covered. Requests to the Publisher for permission should be addressed to the Permissions Department, John Wiley & Sons, Inc., 605Third Avenue, New York, NY 10158-0012, (212) 850-6011, fax (212) 850-6008, E-Mail: WILEY.COM. No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, scanning or otherwise, except as permitted under Section 107 or 108 of the 1976 United States Copyright Act, without either the prior written permission of the Publisher, or authorization through payment of the appropriate per-copy fee to the Copyright Clearance Center, 222 Rosewood Drive, Danvers, MA 01923, (978) 750-8400, fax (978) 750-4744. New York / Chichester / Weinheim / ,Brisbane I Singapore / TorontoĬopyright© 2001 by John Wiley & Sons, Inc. HOWELL Mechanical Engineering Department Brigham Young UniversityĪ Wiley-lnterscience Publication JOHN WILEY & SONS, INC. G.6 Topological Synthesis of Compliant Mechanisms G.3 Determination of Isomorphic Mechanisms G.1 Matrix Representation for Rigid-Link Mechanisms
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5.2 Cantilever Beam with a Force at the Free End (Fixed-Pinned)ĥ.7 Segment with Force and Moment (Fixed-Fixed)ĥ.8 Other Methods of Pin Joint Simulationĥ.10 Use of Commercial Mechanism Analysis SoftwareĦ.4 Virtual Displacements and Virtual WorkĦ.6 Application of the Principle of Vi1tual WorkĦ.7 Spring Function for Fixed-Pinned MembersĨ.1 Rigid-Body Replacement (Kinematic) SynthesisĨ.2 Synthesis with Compliance: Kinetostatic Synthesisĩ Optimal Synthesis with Continuum Modelsĩ.2 Formulation of the Optimization Problemĩ.3 Size, Shape, and Topology Optimizationġ1.4 Slider-Crank or Slider-Rocker Mechanismsĭ.I Cantilever Beam with a Force at the Free Endĭ.2 Cantilever Beam with a Force Along the Lengthĭ.3 Cantilever Beam with a Uniformly Distributed Loadĭ.4 Cantilever Beam with a Moment at the Free Endĭ.5 Simply Supported Beam with a Force at the Centerĭ.6 Simply Supported Beam with a Force Along the Lengthĭ.7 Simply Supported Beam with a Uniformly Distributed Loadĭ.8 Beam with One End Fixed and the Other End Simply Supportedĭ.9 Beam with Fixed Ends and a Center Loadĭ.10 Beam with Fixed Ends and a Uniformly Distributed Loadĭ.11 Beam with One End Fixed and the Other End GuidedĮ.2 Vertical Force at the Free End of a Cantilever BeamĮ.3 Cantilever Beam with a Force at the Free EndĮ.5 Cantilever Beam with an Applied Moment at the Free End