1、STP 1211 Advances in Fatigue Lifetime Predictive Techniques:Second Volume M.R.Mitchell and R.W.Landgraf,Editors ASTM Publication Code Number(PCN):04-012110-30 Printed in the U.S.A.1916 Race Street Philadelphia,PA 19103 Copyright by ASTM Intl(all rights reserved);Sat Dec 19 20:06:53 EST 2015Downloade
2、d/printed byUniversity of Washington(University of Washington)pursuant to License Agreement.No further reproductions authorized.Library of Congress ISBN:0-8031-1874-0 ISSN:1070-1079 ASTM Publication Code Number(PCN):04-012110-30 Copyright 1993 AMERICAN SOCIETY FOR TESTING AND MATERIALS,Philadelphia,
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4、e internal or personal use of specific clients,is granted by the AMERICAN SOCIETY FOR TESTING AND MATERIALS for users registered with the Copyright Clearance Center(CCC)Transactional Reporting Service,provided that the base fee of$2.50 per copy,plus$0.50 per page is paid directly to CCC,27 Congress
5、St.,Salem,MA 01970;(508)744-3350.For those organizations that have been granted a photocopy license by CCC,a separate system of payment has been arranged.The fee code for users of the Transactional Reporting Service is 0-8031-1874-0/93$2.50+.50.Peer Review Policy Each paper published in this volume
6、was evaluated by three peer reviewers.The authors addressed all of the reviewers 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 edi
7、tor(s),but also the work of these peer reviewers.The ASTM Committee on Publications acknowledges with appreciation their dedication and contribution to time and effort on behalf of ASTM.Printed in Ann Arbor,MI August 1993 Copyright by ASTM Intl(all rights reserved);Sat Dec 19 20:06:53 EST 2015Downlo
8、aded/printed byUniversity of Washington(University of Washington)pursuant to License Agreement.No further reproductions authorized.Foreword This publication,Advances in Fatigue Lifetime Predictive Techniques:Second Volume,contains papers presented at the Second Symposium on Advances in Fatigue Lifet
9、ime Pre-dictive Techniques,held in Pittsburgh,PA on 4-5 May 1992.The symposium was sponsored by ASTM Committee E-9 on Fatigue and its Subcommittee E09.08 on Fatigue of Materials.Michael R.Mitchell,Rockwell International Science Center,and Ronald W.Landgraf,Virginia Polytechnic Institute and State Un
10、iversity,presided as symposium co-chairmen and are co-editors of the resulting publication.Copyright by ASTM Intl(all rights reserved);Sat Dec 19 20:06:53 EST 2015Downloaded/printed byUniversity of Washington(University of Washington)pursuant to License Agreement.No further reproductions authorized.
11、Contents Overview Use of Mechanistic Life Prediction Methods for the Design of Damage-Tolerant Composite Material Systems-K.L.REIFSNIDER Contribution of Individual Spectrum Load Cycles to Damage in Notch Root Crack Initiation,Short and Long Crack Growth-R.SUNDER Calculation of Spectrum Load Notch Ro
12、ot Crack Growth Rate Under Elastic and Inelastic Conditions-R.SUNDER,R.V.PRAKASH,AND E.I.MITCHENKO Fatigue Damage Due to Sub-Threshold Load Cycles Between Periodic Overloads-Z.ZHOU AND F.J.ZWERNEMAN Exact Determination of&Ken and Crack Propagation Prediction for Selected Loading Sequences-s.J.ZHANG,
13、H.DOKER,H.NOWACK,K.SCHULTE,AND K.-H.TRAUTMANN FEM Analysis of Cyclic Deformation Around the Fatigue Crack Tip After a Single Overload-v.OLIVA AND I.KUNES A Creep Cavity Growth Model for Creep-Fatigue Life Prediction of a Unidirectional W/Cu Composite-Y.-S.KIM,M.J.VERmLLI,AND G.R.HALFORD Thermal-Mech
14、anical Fatigue Lifetime Prediction of an Austenitic Stainless Steel-H.J.SHI,C.ROBIN,AND G.PLUVINAGE The Cumulative Fatigue Damage Behavior of MAR-M 247 in Air and High-Pressure Hydrogen-M.A.MCGAW,S.KALLURI,D.MOORE,AND J.HEINE Crack Density and Fatigue Lifetime of Metals Under Variable Amplitude Load
15、ing-H.BOMAS AND P.MAYR Discussion 19 30 45 54 72 91 105 117 132 140 Copyright by ASTM Intl(all rights reserved);Sat Dec 19 20:06:53 EST 2015Downloaded/printed byUniversity of Washington(University of Washington)pursuant to License Agreement.No further reproductions authorized.Determination of Fatigu
16、e Limit Between 10 5 and 10 9 Cycles Using an Ultrasonic Fatigue Device-c.BATHIAS AND J.NI 141 Novel Methodology for Fatigue Lifetime Prediction-A.PUSKAR 153 Estimation of Fatigue Propagation Life in Resistance Spot Welds-s.D.SHEPPARD 169 A Reverse Plasticity Criterion for Specifying Optimal Proof Load Levels-S.M.TIPTON AND Jo R.SOREM,JR.186 Fatigue Lifetime Prediction of Angle-Plied Fiber-Rcinforced Elastomer Composites as Pneumatic Tire Materials-B.L.LEE,J.P.MEDZORIAN,P.K.HIPPO,D.S.LIU,AND P.C