_STP_1367
2000
STP 1367 Fretting Fatigue:Current Technology and Practices DavidW.Hoeppner,V.Chandrasekaran,and Charles B.Elliott III,editors ASTM Stock Numer:STP 1367 100 Barr Harbor Drive West Conshohocken,PA 19428-2959 Printed in the U.S.A.Library of Congress Cataloging-in-Publication Data Fretting fatigue:current technology and practices/David W.Hoeppner,V.Chandrasekaran,and Charles B.Elliott III,editors.p.cm.-(STP;1367)ASTM Stock Number:STP1367.Includes bibliographical references and index.ISBN 0-8031-2851-7 1.Metals-Fatigue.2.Fretting corrosion.3.Contact mechanics.I.Hoeppner,David W.II.Chandrasekaran,V.,1964-II1.Elliott,Charles B.,1941-IV.International Symposium on Fretting Fatigue(2nd:1998:University of Utah)V.ASTM special technical publication;1367.TA460.F699 2000 620.166-dc21 99-059181 Copyright?9 2000 AMERICAN SOCIETY FOR TESTING AND MATERIALS,West Conshohocken,PA.All rights reserved.This material may not be reproduced or copied,in whole or in part,in any printed,mechanical,electronic,film,or other distribution and storage media,without the written consent of the publisher.Photocopy Rights Authorization to photocopy items for internal,personal,or educational classroom use,or the internal,personal,or educational classroom use of specific clients,is granted by the American Society for Testing and Materials(ASTM)provided that the appropriate fee is paid to the Copyright Clearance Center,222 Rosewood Drive,Danvers,MA 01923;Tel:508-750-8400;online:http:/ Review Policy Each paper published in this volume was evaluated by two peer reviewers and at least one editor.The authors addressed all of the reviewers comments to the satisfaction of both the technical editor(s)and the ASTM Committee on Publications.To make technical information available as quickly as possible,the peer-reviewed papers in this publication were prepared camera-ready as submitted by the authors.The quality of the papers in this publication reflects not only the obvious efforts of the authors and the technical editor(s),but also the work of the peer reviewers.In keeping with long standing publication practices,ASTM maintains the anonymity of the peer reviewers.The ASTM Committee on Publications acknowledges with appreciation their dedication and contribution of time and effort on behalf of ASTM.Printed in Baltimore,MD January 2000 Foreword This publication,Fretting Fatigue:Current Technology and Practices,contains papers presented at the symposium held at the University of Utah,Salt Lake City,Utah on Aug.31,1998.The sym-posium was sponsored by University of Utah,United Technologies Research Center,MTS Systems Corporation,FASIDE International,INC.and co-sponsored by Committee E8 on Fatigue and Frac-ture.The symposium was chaired by David W.Heoppner,V.Chandrasekaran,and Charles B.Elliott 111 served as co-chairmen.They all served as STP editors of this publication.Contents Overview ix BACKGROUND AND CRITICAL ISSUES RELATED TO FRETTING FATIGUE Plastic Deformation in Fretting Processes-A Review-R.B.WATERHOUSE 3 A New Approach to the Prediction of Fretting Fatigue Life That Considers the Shifting of the Contact Edge by Wear-T.HATTOPO,M.NAKAMURA,AND T.WATANABE 19 On the Standardization of Fretting Fatigue Test Method-Modeling Issues Related to the Thermal Constriction Phenomenon and Prediction of Contact Temperature-M.H.ATTIA 31 Fretting-Wear and Fretting-Fatigue:Relation Through a Mapping Concept-s.FOUVRY,P.KAPSA,AND L.VINCENT 49 High Temperature Fretting Fatigue Behavior in an XD TM 7-base TiAI-T.HANSSON,M.KAMARAJ,Y.MUTOH,AND B.PETIERSSON 65 Applications of Fracture Mechanics in Fretting Fatigue Life Assessment-A.E.GIANNAKOPOULOS,T.C.LINDLEY,AND S.SURESH Spectrum Load Effects on the Fretting Behavior of Ti-6A1-4V-s.E.KINYON AND D.W.HOEPPNER 100 FRETTING FATIGUE PARAMETER EFFECTS The Effects of Contact Stress and Slip Distanee on Fretting Fatigue Damage in Ti-6AI-4V/17-4PIt Contacts-D.L.ANTON,M.J.LUTIAN,L.H.FAVROW,D.LOGAN,AND B.ANNIGERI I 19 Length Scale Considerations in Fretting Fatigue-D.NOWELL,D.A.HILLS,AND R.MOOBOLA 141 An Investigation of Friction Force in Fretting Fatigue-w.SWITEK 154 A Multiaxial Fatigue Analysis of Fretting Contact Taking into Account the Size Effect-s.FOUVRY,P.KAPSA,AND L.VINCENT 167 Interaction of High-Cycle and Low-Cycle Fatigue on Fretting Behavior of Ti-6-4-R.CORTEZ,S.MALL,AND J.R.CALCATERRA Effects of Contact Load and Contact Curvature Radius of Cylinder Pad on Fretting Fatigue in High Strength Steel-s.-K.LEE,K.NAKAZAWA,M.SUMITA,AND N.MARUYAMA An Experimental Investigation of Fretting Fatigue with Spherical Contact in 7075-T6 Aluminum AIIoy-B.u.WITTKOWSKY,P.R.BIRCH,J.DOMINGUEZ,AND S.SURESH 183 199 213 ENVIRONMENTAL EFFECTS Fretting Fatigue of Some Nickel-Based Alloys in Steam Environment at 265-M.H.ATTIA 231 Fretting Fatigue of 8090-T7 and 7075-T651 Aluminum Alloys in Vacuum and Air Environments-c.B.ELLIOTT 111 AND A.M.GEORGESON 247 FRETTING FATIGUE CRACK NUCLEATION Influence of Ambient Air on Nucleation in Fretting Fatigue-J.