1、STP 1297 Elevated Temperature Effects on Fatigue and Fracture Robert S.Piascik,Richard P.Gangloff,and Ashok Saxena,editors ASTM Publication Code Number(PCN):04-012970-30 ASTM 100 Barr Harbor Drive West Conshohocken,PA 19428-2959 Printed in the U.S.A.Copyright by ASTM Intl(all rights reserved);Wed De
2、c 23 19:37:59 EST 2015Downloaded/printed byUniversity of Washington(University of Washington)pursuant to License Agreement.No further reproductions authorized.Library of Congress Cataloging-in-Publication Data Elevated temperature effects on fatigue and fracture/Robert S.Piascik,Richard P.Gangloff,a
3、nd Ashok Saxena,editors.(STP:1297);ASTM publication code number(PCN):04-012970-30.Includes bibliographical references and indexes.ISBN 0-8031-2413-9 1.Fracture mechanics.2.Materials-Fatigue-Effect of temperature on.I.Piascik,Robert S.II.Gangloff,R.P.II1.Saxena,A.(Ashok)IV.Series:ASTM special technic
4、al publication:1297.TA409.E45 1997 96-52047 620.1 66-dc21 CIP Copyright?9 1997 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 sto
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6、vided 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 of the editors.The authors addressed all of the reviewers
7、 comments to the satisfaction of both the technical editor(s)and the ASTM Committee on Publications.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 these peer reviewers.The ASTM Committee on Publicati
8、ons acknowledges with appreciation their dedication and contribution to time and effort on behalf of ASTM.Printed in Philadelphia,PA February 1997 Copyright by ASTM Intl(all rights reserved);Wed Dec 23 19:37:59 EST 2015Downloaded/printed byUniversity of Washington(University of Washington)pursuant t
9、o License Agreement.No further reproductions authorized.Foreword The Twenty-Seventh National Symposium on Fatigue and Fracture Mechanics was held in Williamsburg,Virginia on 26-29 June 1995.The sponsor of the event was ASTM Committee E-8 on Fatigue and Fracture.The symposium chairman was R.S.Piascik
10、,NASA Langley Research Center.Symposium co-chairmen were:J.C.Newman,Jr.,NASA Langley Research Center;R.P.Gangloff,University of Virginia;and N.E.Dowling,Virginia Polytechnic Insti-tute and State University.This special technical publication highlights a topical subset of the meeting:research on the
11、critical effect of temperature on the fatigue and fracture of structural materials.The editors of this publication were R.S.Piascik,R.P.Gangloff,and A.Saxena.Copyright by ASTM Intl(all rights reserved);Wed Dec 23 19:37:59 EST 2015Downloaded/printed byUniversity of Washington(University of Washington
12、)pursuant to License Agreement.No further reproductions authorized.Contents Overview vii CREEP CRACK GROWTH Creep Crack Growth Behavior of Aluminum Alloy 2519:Part I-Experimental Analysis-B.CARTER HAMILTON,DAVID E.HALL,ASHOK SAXENA,AND DAVID L.MCDOWELL Creep Crack Growth Behavior of Aluminum Alloy 2
13、519:Part II-Numerical Analysis-DAVID E.HALL,B.CARTER HAMILTON,DAVID L.MCDOWELL AND ASHOK SAXENA A Micromechanical Model for Creep Damage and Its Application to Crack Growth in a 12%Cr SteeI-MATTHIAS SESTER,RALF MOHRMANN,AND HERMANN RIEDEL Application of Reference Stress and Probabilistic Methodologi
14、es to Assessing Creep Crack Growth-G.GRAHAM CHELL,CHRIS J.KUHLMAN,HARRY R.MILLWATER,AND DAVID S.RIHA Environmentally Enhanced Crack Growth in Nickel-Based Alloys at Elevated Temperatures-MiNG GAD,SHYUAN-FANG CHEN,GIM SYANG CHEN,AND ROBERT P.WEI 19 37 54 74 FATIGUE Analysis of the Intergranular Crack
15、ing Process Inside Polycrystailine Heat-Resistant Materials Under Creep-Fatigue ConditionS-NAOYA TADA,WEISHENG ZHOU,TAKAYUKI KITAMURA,AND RYUICHI OHTANI Effects of Loading Rate on Creep Crack Growth During the Succeeding Load-Hold Period Under Trapezoidal Fatigue Waveshapes-E BONG YOON,UN BONG BAEK,
16、AND CHANG MIN SUH Atmospheric Influence on Fatigue Crack Propagation in Titanium Alloys at Elevated Temperature-CHRiSTiNE SARRAZIN-BAUDOUX,SANDRINE LESTERLIN,AND JEAN PETIT 87 102 117 Fatigue Crack Growth of Two Advanced Titanium Alloys at Room and Elevated Temperature-TODD P.ALBERTSON,ROBERT R.STEPHENS,AND THOMAS D.BAYHA 140 Copyright by ASTM Intl(all rights reserved);Wed Dec 23 19:37:59 EST 2015Downloaded/printed byUniversity of Washington(University of Washington)pursuant to License Agreement
