ELASTIC-PLASTIC FRACTURE: SECOND SYMPOSIUM, VOLUME I — INELASTIC CRACK ANALYSIS A symposium sponsored by ASTM Committee E-24 on Fracture Testing Philadelphia, Pa., 6-9 Oct 1981 ASTM SPECIAL TECHNICAL PUBLICATION 803 C F Shih, Brown University, and J P Gudas, David Taylor Naval Ship R&D Center, editors ASTM Publication Code Number (PCN) 04-803001-30 1916 Race Street, Ptiiladelphia, Pa 19103 # Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions Copyright © by AMERICAN SOCIETY FOR TESTING AND MATERIALS 1983 Library of Congress Catalog Card Number: 82-83520 NOTE The Society is not responsible, as a body, for the statements and opinions advanced in this publication Printed in Baltimore, Md (b) November 1983 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized Foreword The Second International Symposium on Elastic-Plastic Fracture Mechanics was held in Philadelphia, Pennsylvania, 6-9 Oct 1981 This symposium was sponsored by ASTM Committee E-24 on Fracture Testing C F Shih, Brown University, and J P Gudas, David Taylor Naval Ship Research and Development Center, presided as symposium chairmen They are also editors of this publication Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized Related ASTM Publications Fracture Mechanics (13th Conference), STP 743 (1981), 04-743000-30 Fractography and Materials Science, STP 733 (1981), 04-733000-30 Crack Arrest Methodology and Applications, STP 711 (1980), 04-711000-30 Fracture Mechanics (12th Conference), STP 700 (1980), 04-700000-30 Elastic-Plastic Fracture, STP 688 (1979), 04-688000-30 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized A Note of Appreciation to Reviewers The quality of the papers that appear in this publication reflects not only the obvious efforts of the authors but also the unheralded, though essential, work of the reviewers On behalf of ASTM we acknowledge with appreciation their dedication to high professional standards and their sacrifice of time and effort ASTM Committee on Publications Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions au ASTM Editorial Staff Janet R Schroeder Kathleen A Greene Rosemary Horstman Helen M Hoersch Helen P Mahy Allan S Kleinberg Virginia M Barishek Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized Acknowledgments The editors would like to acknowledge the assistance of Professor G R Irwin, Dr J D Landes, Professor P C Paris, and Mr E T Wessel in planning and organizing the symposium We are grateful for the support provided by the ASTM staff, particularly Ms Kathy Greene and Ms Helen M Hoersch The timely submission of papers by the authors is greatly appreciated Finally, this publication would not have been possible without the tremendous effort and dedication that was put forth by the many reviewers Their high degree of professionalism ensured the quality of this publication The editors also wish to acknowledge the diligent assistance of Ms Susan Beigquist, Ms Ann Degnan, Mr Steven Kopf, and Mr Mark Kirk in preparing the index J P Gudas C F Shih Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized Contents Introduction I-l ELASTIC-PLASTIC CRACK ANALYSIS Dynamic Growth of an Antipiane Shear Crack in a Rate-Sensitive Elastic-Plastic Material—L B FREUND AND A S DOUGLAS 1-5 Elastic Field Surrounding a Rapidly Tearing Crack—A s KOBAYASHI AND O S LEE 1-21 Elastic-Plastic Steady Crack Growth in Plane Stress—A H DEAN 1-39 A Finite-Element Study of the Asymptotic Near-Tip Fields for Mode I Plane-Strain Cracks Growing Stably in Elastic-Ideally Plastic Solids—T.-L SHAM 1-52 Crack-Tip Stress and Deformation Fields in a Solid with a Vertex on Its Yield Surface—A NEEDLEMAN AND V TVERGAARD 1-80 The Je^-Integral Based on the Concept of Effective Energy Release R a t e — H MIYAMOTO, K KAGEYAMA, M KIKUCHI, AND K MACHIDA 1-116 A Criterion Based on Crack-Tip Energy Dissipation in Plane-Strain Crack Growth Under Large-Scale Yielding—M SAKA, T SHOJI, H TAKAHASHI, AND H ABE 1-130 Discontinuous Extension of Fracture in Elastic-Plastic Deformation Field—M P WNUK 1-159 Influence of Compressibility on the Elastic-Plastic Field of a Growing Crack—Y.-C GAO 1-176 Material Resistance and Instability Beyond /-Controlled Crack Growth—H A ERNST 1-191 An Elastoplastic Finite-Element Investigation of Crack Initiation Under Mixed-Mode Static and Dynamic Loading—T AHMAD, C R BARNES, AND M F KANNINEN Copyright Downloaded/printed University by 1-214 ASTM by of Washington Elastic-Plastic Analysis of a Nozzle Comer Crack by the FiniteElement Method—w BROCKS, H H ERBE, H D NOACK, AND H VEITH 1-240 Elastic-Plastic Finite-Element Analysis for Two-Dimensional Crack Problems—p D HILTON AND L N GIFFORD 1-256 FULLY ELASTIC CRACK AND SURFACE FLAW ANALYSIS Bounds for Fully Plastic Crack Problems for Infinite Bodies— M Y HE AND J W HUTCHINSON 1-277 Penny-Shaped Crack in a Round Bar of Power-Law Hardening Material—M Y HE AND J W HUTCHINSON 1-291 Elastic-Plastic and Fully Plastic Analysis of Crack Initiation, Stable Growth, and Instability in Flawed Cylinders—v KUMAR, M D GERMAN, AND C F SHIH 1-306 A Superposition Method for NonUnear Crack Problems— G YAGAWA AND T AIZAWA 1-354 Consistency Checks for Power-Law Calibration Functions— D M PARKS, V KUMAR, AND C F SHIH 1-370 Ductile Growth of Part-Through Surface Cracks: Experiment and Analysis—c s WHITE, R O RITCHIE, AND D M PARKS 1-384 Evaluation of J-Integral for Surface Cracks—M SHIRATORI AND T M I Y O S H I 1-410 Effects of Thickness on J-Integral in Structures—M SAKATA, s AOKI, K KISHIMOTO, M KANZAWA, AND N OGURE 1-425 J-Integral Analysis of Surface Cracks in Pipeline Steel Plates— R B KING, Y.-W CHENG, D T READ, AND H I McHENRY 1-444 Use of J-Integral Estimation Techniques to Determine Critical Fracture Toughness in Ductile Steels—G GREEN AND L MILES 1-458 Evaluation of Plate Specimens Containing Surface Flaws Using J-Integral Methods—w G REUTER, D T CHUNG, AND C R EIHOLZER Copyright Downloaded/printed University 1-480 by by of 1-744 ELASTIC-PLASTIC FRACTURE: SECOND SYMPOSIUM APPENDIX n Derivation of Initiation Toughness Values from Multiple Specimen Data and Load-Hold Conditions with Respect to the JK-Curves Values of / were calculated from the expression \0.7Sf(ao/W)-l\Aa J = Jo \1 where Jo A B b Aa f(ao/W) = = = ~ = A/Bb f (ao/W), area under the force/displacement curve, specimen thickness, remaining ligament, an average measurement of ductile crack extension derived from nine equidistant measurements across the full specimen thickness and taking the average of the two surface measurements as a single value, and = a factor to correct for the tensile component of loading in a compact specimen The toughness at ductile crack initiation (Ji) was taken as the intersection of a / = 4(yAa blunting line with the linear regression line for/ — Aa data lying within the Aa range: 0.15 mm < Aa < 0.06Z» Size requirements for validity were taken to be Initiation: a, B, b > 50 Ji/oj2 /-controlled growth: b > 10 J/dJ/da, a, B, b > TSJ/Of and jR-data and corresponding load-hold conditions are shown in Figs 12a to 12c The extent to which J^-curve data met the foregoing requirements (1-3) is shown in Table TABLE 5— Validity checks on R-curve data shown in Fig 12 J-ControUed Growth '' allowable Steel C-Mn Compact Specimen Type 20-mm a/W = 0.5 Co-op A533B-1 20-mm a/W = 0.5 150-mm A533B-140-mm a/W = 0.6 _ b Initiation, (50 Ji/Of) m 0.022 dJ 10 da (MNm~') (X) 0.70 (^) 0.012 (f^) 0.80 (^) 0.025 1.29 (^) (^) •^allowable ~ "('^^^ (MNm"') 0.28" (X) 0.42 (-^) 0.64" (X) •^ or X indicates whether or not all data from R-curve analyses met size requirement "Except for Condition G for the C-Mn steel (/$ = 0.3 MNm~'), all other load-hold conditions were achieved under 7-controlled crack growth Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized INGHAM AND MORLAND ON TIME-DEPENDENT PLASTICITY 1-745 (a) 20mm C,S C-Mn (b) 40mm C.S A533B-1 ex, 150mm PLATE 6%(W-al 0.5 (C) JZ0.411AQ*0.10 20mm C.S CO - OP A533B-I Ji = 0.13 M N m - ' 6% IW-a) 1.0 Aa (mm) 20 FIG 12—Jg-curve data and relative positions of load-hold for tests at 20°C Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized 1-746 ELASTIC-PLASTIC FRACTURE: SECOND SYMPOSIUM References [/] Ingham, T and Morland, E in Proceedings, Committee on the Safety of Nuclear Installations, Specialists Meeting on Plastic Tearing Instability, Washington University, St Louis, Mo., NUREG/CP-0010, Sept 1979, pp 330-358 [2] Hutchinson, J W and Paris, P C in Elastic-Plastic Fracture, ASTM STP 668, J D Landes, J A Begley, and G A Clarke, Eds., American Society for Testing and Materials, 1979, pp 37-64 [3] Paris, P C and Zahalak, G I in Proceedings, Committee on the Safety of Nuclear Installations, Specialists Meeting on Plastic Tearing Instability, Washington University, St Louis, Mo., NUREG/CP-0010, Sept 1979, pp 401-428 [4] Shih, C F in Proceedings, Committee on the Safety of Nuclear Installations, Specialists Meeting on Plastic Tearing Instability, Washington University, St Louis, Mo., NUREG/ CP-0010, Sept 1979, pp 144-193 [5] Chell, G G and Milne, I in Proceedings, Committee on the Safety of Nuclear Installations, Specialists Meeting on Plastic Tearing Instability, Washington University, St Louis, Mo., NUREG/CP-0010, Sept 1979, pp 376-401 [6] Green, G., Smith, R F., and Knott, J F in Proceedings, British Steel Corp Symposium on the Mechanics and Mechanisms of Crack Growth, M J May, Ed., Cambridge, U.K., April 1973, Paper [7] Green, G and Knott, J F., Journal of the Mechanics and Physics of Solids, Vol 23, No 3, 1975, pp 167-183 [8] Tsuru, S and Garwood, S J in Proceedings, Third International Conference on Mechanical Behavior of Materials, Cambridge, U.K., Vol 3, Aug 1979, pp 519- 528 [9] Schulze, D in Proceedings, Fourth Materialpriifungsanstalt (MPA) Seminar on "Safety of the Pressure Boundary of Light Water Reactors, Staatliche Material priifungsanstalt, Stuttgart University, Stuttgart, Germany, Oct 1978, Paper (in German) [10] Feamehough, G D in Proceedings, British Steel Corp Symposium on the Mechanics and Mechanisms of Crack Growth, E J May, Ed., Cambridge, U.K., April 1973, Paper 16 [//] Hahn, G T., Hoagland, R G., Rosenfield, A R., and Barnes, C R in Crack Arrest Methodology and Application, ASTM STP 711, G T Hahn and M F Kanninen, Eds., American Society for Testing and Materials, 1980, pp 248-269 [12] Krempl, E., Journal of the Mechanics and Physics of Solids, Vol 27, No 5/6 Dec 1979, pp 363-375 [13] Kujawski, D., Kalljanpur, V., and Krempl, E., Journal of the Mechanics and Physics of Solids, Vol 28, No 2, 1980, pp 129-148 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized STP10803-EB/NOV 1983 Index This Index combines entries for both volumes of STP 803 " I " denotes entries for Volume I, and "11" denotes entries for Volume II Abaqus, 1-384, 1-392 Abscissa Load based, 11-87 Strain based, 11-87 Acceptance criteria, 11-325 Acoustic emission, 11-405, 11-489, 11-497, 11-508, 11-512 Adiabatic heating, 11-772 Adina, 1-240, 1-321, 1-330, 11-211, 11-218 Annealing, 11-778 Antiplane shear, 1-577 ASME, II-7, 11-563 E399-78A, 11-281,11-354 E 813-81, 1-385, 11-421, 11-587 J-R curve round robin, 11-477 Asymptotic Continguity condition, 1-181 Equation, 1-180 Result, 1-70 Validity, 1-579 Austenitic pipe, 11-313 Automated procedure, 11-472 B Begley-Landes technique, 1-485, 1-495 Blunting line, 11-402, 11-420, 11-422, 11-531, 11-546 -^Btriler and pressure vessel code, II-7, 11-116, 11-157, 11-310, 11-465 Boundary Density function, 1-640 Element analysis, 1-637 Brittle Behavior, 11-80 Cracking, 11-772 Fracture, 11-262 BWR piping, 11-336 C-integral, 1-637, 1-645 C-parameter, 1-654 C-singular field, 1-573 Carburizing environment, 1-713 Cauchy stress, 1-97 CCP, 1-292, 1-354, 1-659, 11-124, 11-213, 11-315, 11-332 CEGB Assessment diagram, 11-207 Defect assessment procedure, 11-183 Diagram, 11-189 Two criteria assessment, 11-323 Centered fan zone, 1-145 Charpy Upper shelf impact energy, 11-157 V-notch impact test, 11-741 Circumferential cracked height, 11-291 Cleavage, 11-99 Crack extension, 1-387, 11-508 Fracture, 11-284, 11-513 Toughness, 11-201 1-747 CopyrightCopyright' by ASTM1983 Int'lb (all reserved); Wed Dec 23 18:00:43 EST 2015 y ASrights I M International www.astm.org Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized 1-748 ELASTIC-PLASTIC FRACTURE: SECOND SYMPOSIUM Mode, 11-725 Stress, 11-284 Cluster inclusion, 11-756, 11-759 CMOD, 1-36 COA, 1-131 Coalescence, 1-159 COD, 1-295, 1-306, 1-581, II-4L 11-623 Criteria, 11-196 Design curve, 11-196 Method, 11-81, 11-99 Type design curve, 11-84 Versus Kic test specimen, 11-483 Collapse Approach net section, 11-310 Limit diagram, 11-263 Load, 11-262, 11-274 Net section, 11-311, 11-320 Compact /ic specimen, 1-267 Specimen, 11-439, 11-451 Compatibility equation, 1-178 Compliance, 11-134 Double clip gage, 11-374 Single measure, 11-374 Compressibility, 1-176 Computer Compliant, 11-440 Control, 11-439 Condition Displacement controlled, 11-141 Displacement rate controlled, 1-692 Load controlled, 11-144, 11-149 Total displacement controlled, 11-137 Total load controlled, 11-147 Constant load test, 1-724 Constitutive equation, 1-596 Constraint Effect, 1-590 Factor, 11-612 Container pressurized, 11-671 Contiguity condition, 1-178 Asymptotic, 1-181 Crack Antiplane shear, 1-5 Arrest, 11-457 Axial, 1-306, 1-313 Border, 1-411 Circumferential, 1-306, 1-319, 11-294, 11-331 Closure Behavior, 11-701 Estimate, 11-689 Measurement, 11-700 Driving Force, 11-181 Force diagram, 1-341 Extension Force, 11-180 Slow stable, 11-354 Growing, 1-176 Growth Acceleration, 11-713 Analysis, 1-311 Behavior, 11-257 Constant load, 1-725 Criterion, 1-581, 1-583 Cyclic dominated, 11-723 Extended, 11-582 Rate, 1-505, 1-684, 1-692 R-curve dominated, 11-723 Simulation, 1-269 Slow stable, 11-399 Stable, 1-39, 1-132,1-475 Steady state, 1-573, 1-574 Time dependent, 1-691 Initiation, 1-221, 1-306, 1-333, 11-296,11-310, 11-321, 11-611, 11-803 Length variable, 11-255 Nonlinear, 1-354, 1-363 Nozzle corner, 1-240 Opening Angle criterion critical, 1-49 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions author INDEX Measurement, 11-700 Profile, 1-68 Stress, 1-623, 1-633 Stress field, 1-628 Part through, 1-384, 11-293, 11-299, 11-310 Penny shaped, 1-291 Problem Fully plastic, 1-277 Two dimensional, 1-256 Radial, 11-294 Rapidly tearing, 1-21 Semi-elliptical, 1-415 Semi-infinite, 1-542 Short, 11-72 Size Critical, 11-310 Effective, 11-18 Stability, 11-16 Stationary, 1-58, 1-622 Surface, 1-410, 1-444 Through wall circumferential, 11-310 Tip, 1-297 Blunting, 1-469 Contraction, 11-625 Deformation, 1-468 Field, 1-80 Energy dissipation, 1-130, 1-151 Field Mode III, 1-535 Profile, 1-94 Strain, 11-628 Stress and strain field, 11-121 Stress field, 1-80, 1-505 Stress intensity, 1-474 Creep Condition steady state, 1-594 Crack growth, 1-676, 1-690, 1-708 Intermediate temperature, 1-718 Rate, 1-612 Deformation, 1-655 Effect, 1-691 1-749 Fatigue condition, 1-505 Fracture mechanism, 1-551 Rate secondary, 1-533 Recovery, 1-594, 1-613 Region steady state, 1-605 Small scale Initial state, 1-610 Steady state, 1-608 Strain, 1-513 Stress intensity factor, 1-557 Zone, 1-578 Effective, 1-577 Extent maximum, 1-588 Growing, 1-541 Growth of, 1-652 Size steady state, 1-588 Creeping Material, 1-654 Plate, 1-637 Solid, 1-675 CTOA, 1-36, 1-131, 11-119 CTOD, 1-58, 1-92, 1-385, 1-398, 1-467, 11-373, 11-385, 11-646 Cyclic Growth effect, 11-736 J-integral, 11-689, 11-695 Load displacement loop, 11-690 Strain hardening law, 11-796 Cycling Balanced, 1-513 Rapid, 1-513 Slow, 1-508 Unbalanced rapid, 1-514 Cylinder Flawed, 1-306 Thick walled, 1-265 D Dead load condition, 11-74 Deflection rate, 1-686 Load point, 1-687 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions auth 1-750 ELASTIC-PLASTIC FRACTURE: SECOND SYMPOSIUM Deformation, 1-404, 1-625 Cumulative plastic, 11-801 Inelastic, 1-522 Plastic, 11-710 Ratcheting, 11-714 Residual, 11-702 Theory of plasticity, 1-277 Delta J versus delta A, 1-192,11-302, 11-316, 11-621 Design curve, 11-80 COD type, 11-84 /, 11-81 Deviatoric stress, 1-506 Diffusion effect of, 1-590 Discretization process, 1-44 Dislocation continuously distributed, 1-117 Displacement controlled bending, 11-296 Dominant singularity, 1-552 Double Edge notched tensile plate, 11-213 Punch specimen, 1-463 Driving force ratio, 1-17 Ductile Brittle Transition temperature, 11-287 Transmission regime, 11-278 Crack Extension, 11-285, 11-746 Growth, 11-278 Fracture, 11-81, 11-207, 11-291, 11-763 Dynamic, 1-21 Margin, 11-309 Strain induced, 1-633 Toughness, 11-582 Unstable, 1-725 Growth, 1-384 Initiation, 1-731, 11-754 Mechanism, 11-281 Stable crack growth, 11-739 Steel, 1-458 Striation, 11-713 Tearing, 1-391, 11-429, 11-725, 11-763 Behavior, 11-218 Instability, 11-179 Resistance, 11-523 Upper shelf regime, 11-777 Void growth, 1-159 Ductility parameter, 1-164 Dugdale strip Yield model, 11-24 Yield zone, 1-22, 1-31 Yielding model, 11-633 Dynamic Elastic plastic finite element, 1-215 Growth, 1-5 Loading, 11-338 E ECB computation, I-lOl Edge crack, 1-287 Effective energy, 1-119 Elastic Compliance, 11-381 Dominance, 11-729 Field, 1-21 Plastic Analysis, 1-240, 1-417 Crack propagation, 11-708 Criteria, 11-692 Deformation, 1-306 Deformation field, 1-159 Energy rate parameter, 1-690 Failure criterion, 11-274 Finite element, 1-329 Finite element analysis, 1-256, 1-433, 11-218, 11-335 Fracture toughness, 1-721, 11-400,11-420, 11-511, 11-531, 11-726 Material rate sensitive, 1-5 Method, 11-508 Parameter, 1-703 Regime, 1-310 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized INDEX Solid, 1-39 Steady crack growth, 1-39 Strain, 1-53 Strain hardening, 1-392 Singular field K-controlled, 1-623 Stress Concentration, 1-541 Intensity linear, 1-6 Singulatity, 11-213 Toughness linear, 11-724 Unloading compliance, 11-466 Elastoplastic Analysis, 11-800 Fracture, 11-483 Electric potential, 11-404, 11-509 Elevated temperature testing, 11-359 Energy dissipation rate, 1-145 Energy rate, 1-676 Integral, 1-691, 1-703 Energy release rate effective, 1-116 Engineering approach, 1-308,11-104, 11-110 Enriched element, 1-263 Environmental effect, 1-703 EPFM, 1-384, II-5, 11-41, 11-43, 11-43, 11-81, 11-315, 11-421, 11-508, 11-611 EPRI, 1-382, 11-59, 11-116, 11-207, 11-779, 11-787 Estimation, 11-74 Type curve, 11-87 Equation governing, 1-7, 1-15 Estimation method, 11-239 FAD, 1-336, 11-103, 11-104, 11-107, 11-189, 11-207, 11-239, 11-240, 11-256, 11-263, 11-274, 11-313 Deformation plasticity, 11-206, 11-209 Failure Curve, 11-240 Stress, net section, 11-292 1-751 Fatigue crack, 11-796 Acceleration, 11-427 Growth, 1-505, 11-716 Rate^ 11-702 Propagation, 11-710 Fatigue life, 11-803 FEM, 1-40, 1-240, 1-320, 1-411, 1-416, 1-559, 1-577, 1-622 3D, 1-426 Incompressible, 1-292 Finite element Analysis, 1-312, 1-384, 1-637, 11-638 3-D, 11-171 Computation, 1-55, 11-88, 11-124, 11-379, 11-394 Eigenfunction calculation, 1-354 Formulation, I-ll Incremental plasticity, 11-211 Method, 11-182, 11-263, 11-652 Finite strain Numerical analysis, 1-80 Region, 1-104 Treatment, 1-256 Flaw Beltline, 11-172 Fully circumferential, 11-322 Surface, 1-480, 11-34 Through, 11-34 Wall, 11-317 Flow Law inelastic, 1-522 Localization, 1-113 Stress, 11-325 Forward gradient method, 1-621 Fractograph, 11-411 Fractographic feature, 11-752 Fractography, 1-473, 11-742 Fracture Cleavage, 11-513 Criteria, 11-632 Criterion J-integral, 1-125 Dimple mode, 11-708, 11-721, 11-771 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized 1-752 ELASTIC-PLASTIC FRACTURE: SECOND SYMPOSIUM Elastoplastic, 11-483 Initiation, 11-483, 11-489, 11-496 Mode transition in, 11-279 Morphology, 11-744 Parameter, 1-141 Resistance, 1-6 Static mode, 11-714 Stress criterion, 1-630 Surface, 11-713 Tearing, 11-515 Toughness, 1-17, 11-284, 11-353, n-536 Critical, 1-458 Low temperature, 11-771 Test, 11-381 Upper shelf, 11-156 Fully plastic solution, 1-309 Geometry independence, 11-563, 11-601 Grain boundary, 1-709 Particle, 1-566 Griffith-Irwin criterion, 1-160 Growth Circumferential, 11-307 Radial, 11-307 H Hardware, 11-470 HAZ, 11-292, 11-332 Cracking, 11-47 Natural, 11-55 Homogeneous structure, 11-417 Hoop stress average, 1-342 HRR Dominance, 1-406 Field, 1-96, 1-102 J-controlled, 1-406 Singular field, 1-594, 1-610 Singularity, 1-127, 1-346, 1-354, 1-359, 1-363, 1-573 Stress field, 1-628 Theory, 1-297 HSST, 11-563, 11-671, 11-681, 11-778 Low shelf weld deposit, 11-784 Test vessel, 11-160 Hyperbolic sine law creep behavior, 1-532 Hysteresis loop, n-361, 11-689, 11-710, n-798 lAR weld, 11-783 Inclusion, n-745, 11-796, 11-805 Shape, 11-759 Inconel alloy X750, 1-710 Incremental theory of plasticity, 1-241 Inertia term, 1-15 Infinite body, 1-277 Initiation toughness, 1-744, 11-521 Instability, 1-191, 1-306, 1-333, 11-14 Analysis, 1-311, 11-782 Arrest of, 11-140 Equation, 11-138 Point, 1-340, 11-49 Prediction, 1-201 Testing, 11-439 Intergranular cavity, 1-551 Internal stress variable, 1-597 Irradiated low shelf nuclear steel, 11-777 Irradiation, 11-783 Damaged material, 11-35 Embrittlement, 11-777 Neutron, 11-156 Isochromatic, 1-32 Isotropic Hardening, 1-83 Strain hardening, 1-241 Iterative solution procedure, 1-260 J-applied, 1-333, 11-11, 11-34, 11-182 J-applied versus T-appIied, 11-17, 11-167 J-based curve, 11-86 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized INDEX J-controUed Crack growth, 11-310 Growth, 1-191, 1-307, 1-499, II-5, 11-10, 11-36, 11-239, 11-321 Zone, 1-628 J-corner theory, 1-85, I-llO J-critical, 1-492, 11-167 Value, 11-98 J-deformation, 1-359, 1-370 Theory, 1-195, 11-567 J-design curve, 11-81 J-dominance, 1-346, 1-406, 11-780 J-estimate, 11-659 J-estimation curve, 11-96 J-external integral, 1-116, 1-118 J-far field, 1-195 J-flow theory, 1-83, 1-103 J-flow theory plasticity, 1-258 /,e, 1-425, 11-13, 11-322, 11-415, 11-420, 11-431, 11-465, 11-582, 11-766 Measurement, 11-531 Test, 1-410 Testing procedure, 11-398 J-integral, 1-116,1-191,1-216,1-277, 1-295, 1-410, 1-417, 1-430, 1-629, 1-694, 1-698, 11-133, 11-618, 11-623 Analysis, 1-444, 11-702 Approach, 11-709 Contour, 1-445, 1-448 Cyclic, 11-689, 11-695 Estimation, 1-458, 1-464 Expression, 1-350 Method, 1-480 J-lower bound, 1-278 J-material, 11-11, 11-162 J-modified, 1-196 J-upper bound, 1-278 J-R curve, 1-139, 1-214, 1-306,1-336, 1-385, 1-405, 1-476, II-8, 11-124, 11-133,11-338, 11-434, 11-465,11-476, 11-563, 11-582, 11-723, 11-766, 11-777 Elastic compliance, 11-582 1-753 Plane strain, 11-10 Test, 11-353 Toughness upper shelf, 11-562 J-R determination, 11-365 J-T curve, 1-337 J-test, 11-474, 11-741 Computer controlled, 11-464 J versus applied stress, 1-338 J versus strain, 11-166 J versus T-diagram, II-8,11-13,11-22, 11-28, 11-292 J versus T-material curve, 11-14 JSME, 11-398, 11-420 K K-field applied, 1-588 ATic, 11-279, 11-400, 11-531, 11-563, 11-770, 11-777 ^ i j , 11-279 Key curve concept, 11-569 Kirchoff stress, 1-97 Lagrangian formulation, 1-83 Leak before break, 1-420, 11-292, 11-303, 11-313 LEFM, 1-159, 1-307, 1-311, 1-385, 1-654, II-7,11-43,11-80,11-84, 11-103, 11-115,11-207,11-310, 11-421,11-509,11-611,11-633, 11-778 Plastic zone corrected, 11-18 Quasi, 11-483 Ligament Uncracked, 1-319, 11-35 Yield net, 11-89 Yielded, 11-30 Limit Load concept, 11-310 State behavior, 11-89 Line Integral, 1-624 Path independence of, 1-642 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions aut 1-754 ELASTIC-PLASTIC FRACTURE: SECOND SYMPOSIUM Spring Element, 1-411 Model, 1-387, 1-392, 1-411, 1-417, 1-454 Linear Elastic Energy rate parameter, 1-701 Parameter, 1-703 Region, 11-513 Regression fit, 11-601 Load Deadweight, 11-313 Deformation, 11-257 Displacement, 11-457 Dynamic, 11-338 High rate, 11-336 History effect, 11-723 Point displacement, 11-386 Pressure, 11-313 Seismic inertia, 11-313 Water hammer, 11-313 Loading Biaxial, IM27 Dynamic, 1-214 Mixed character, 11-127 Static, 1-214 Local Inhomogeneity, 11-413 Resistance, 1-138 LVDT, n-357, 11-798 Rezeroing, 11-370 M M-parameter, 11-570 Martensitic phase transformation, n-774 Material Inhomogeneity, 11-437 Toughness estimation, n-162 Merkle-Corten relation, n-125, n-476 Microcrack formation, 1-709 Micromechanism, 11-739 Microstructural effect, 1-708 Multiple clip gage system, 11-488 N NDT, 11-512 Near tip Crack opening, 1-55 Field, 1-600 Asymptotic, 1-52 Strain, 1-300 Stress and strain field, 1-291,1-574 Newton-Raphson iteration, 1-293, 1-315 Nickel-base superalloy, 1-710 Notch depth, 11-91 NRC, 11-157, 11-207, n-778, 11-787 Nuclear Piping, 11-332 Power plant piping, 11-309 Pressure vessel, n-739 Design, 11-465 Reactor, 1-411 System, 11-115 Vessel, II-5 O Omega criterion, 11-562, n-572 Orientation Dependence, 11-752 Effect, 11-754 Oscillation, 1-378, 1-402 PAPST, 1-257 Paris equation, 1-496 Path independent Expression, 1-123 Integral, 1-533 Phase transformation, 11-772 Photoelasticity dynamic, 1-21 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions author INDEX Pipe Fracture, 11-338 Specimen, 11-439 Plane strain Analysis, 1-306, 1-346 Constraint, 11-577 Crack growth, 1-130 Crack Mode I, 1-52 Lower bound solution in, 11-263 Stable crack growth, 1-53 Plane stress, 1-39 Deformation, 11-670 Plastic Collapse, 11-89 Collapse limit, 11-679 Deformation, 11-710 Extension, 1-684 Flow unstable, 11-769 Fracture, 11-116 Mechanics, 11-345 Parameters, 11-121 Hardening modulus, 1-396 Limit, 11-184, 11-191 Strain, 1-12 Straining, 11-773 Zone, 1-47, 1-417 Active, 1-13 Shape, 1-65 Plasticity Criteria, 11-692 General, 11-89 Time dependent, 1-721 Unconstrained, 11-670 Zone, 11-701 PLLA, 11-43 Post test fatigue, 11-459 Potential Drop, 11-488, 11-497 Energy, 1-277 Power law Calibration function, 1-370 Creeping material, 1-573 Hardening Deformation theory, 1-671 Material, 1-291, 1-354, 1-656 1-755 Prandtl slipline field, 1-145 Precision Double, 1-43 Single, 1-43 Pressure vessel, 1-411 Wall cracks in, 11-15 Pressurized container, 11-671 PWR vessel, 11-158 Quasi Linear system, 1-537 Static fracture, 1-160 Statically growing crack, 1-574 R R6 Curve, 11-86, 11-189, 11-240, 11-323, 11-659 Analysis, 11-661 Strain hardening diagram, 11-279 R-curve, 1-311, 1-389, 1-405, 1-723, 11-181, 11-372, 11-388, 11-400, 11-429, 11-780, 11-791 Analyses, validation of, 11-657 Behavior, strain effect on, 11-741 Crack grovrth, 1-467 Fatigue crack growth, 11-716 Method, ASTM, JSME, 11-398 Modified, 11-547 Power law, 11-780 Region II, 11-531, 11-546 Strain rate effect on, 1-735 WP, 1-138 Ramberg-Osgood Material, 11-211 Stress strain law, 1-310, 1-328, 11-106, 11-158, 11-194, 11-229 Rapid load variation, 1-509 Ratcheting Crack, 11-729 Deformation, 11-714 Extension, 11-708 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized 1-756 ELASTIC-PLASTIC FRACTURE: SECOND SYMPOSIUM Reactor Pressure vessel, 11-156 Vessel, 11-779 Rebound compliance, 11-59, 11-64 Reference stress, 1-690, 1-696 Reirradiation, 11-778 Residual Austenite, 11-805 Stress, 1-35 Compressive, 1-29 Field, 1-24 Rigid plastic slipline theory, 1-81 Rolling Fatigue, 11-796 Texture, 11-413 Rotational factor, 11-385 Safety Assessment diagram, 11-303 Factor, 11-325 Saturation stress model, 11-251 SEM, 11-513 Examination, 11-489 Fractographic calibration, 11-496 Semi-infinite plane, 1-287 Sensitivity study, 11-466 Separability, 11-461 Serrated flow, 11-772 Serration, 11-763 Servo-hydraulic test machine, 11-440, 11-448, 11-474 Shear-strain component, 1-7 Side groove, 1-146, 1-407, 11-590, 11-780 Single Edge notch specimen, 1-21 Specimen compliance, 11-779 Singular behavior, 1-603 Singularity field, 1-132 Size effect, 1-148, 11-52, 11-787 Sliding Displacement, 1-467 Grain boundary, 1-551 Mode, 1-214 Slipline Field Prandtl, 1-145 Theory, 1-406 Software, 11-450 Damping, 11-440 Spring compliant, 11-440 Stability Analysis, 1-165, 11-292 Assessment diagram, 1-336 Diagram, 1-312 Stable growth, 1-306, 1-333 Stainless steel A533B, 1-306, 1-354 AISI 310S, 11-763 ASTM A276 Type 304, 1-433 Austenitic, 1-690, 11-658 Type 304, 1-306, 1-615, 11-297, 11-331, 11-338 Type 316, 1-690, 11-611 Standard offset procedure, 11-484 Steady state Amplitude, 1-546 Solution, 1-47 Steel A508 Class 2, 1-241, 11-723 A508 Class 2A, 11-356, 11-562 A508 forging, 11-678 A533B Class 1, 1-721, 11-263, 11-739 A533B pressure vessel, 11-678 AISI 4340, 1-433 ASTM 4340, 11-509 ASTM A470 Class 6, 11-532 ASTM A508 Class 3, 11-532 ASTM A516 Grade 70, 11-689 ASTM A533B HSST 03, 11-582 ASTM A542 Class 3, 1-384 Austenitic, 11-185, 11-194, 11-678 Bainitic pressure vessel, 1-384, 11-758 Carbon manganese, 1-460, 1-721 DUCOL W30, 11-376 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized INDEX Ferritic, 11-658 HT 60, 11-405, 11-428 HT 80, 11-405 HY 100, 1-215 HY 130, 11-582, 11-590, 11-678, 11-723 Low carbon, 11-709 Ni-Cr-Mo-V, 11-678 Nuclear pressure vessel, 11-739, 11-777 Plate pipeline, 1-444 Production procedure, 11-759 Strain Aging, 11-363 Amplitude, 11-799 Diametral, 11-797 Effective, 11-91 Energy density, 1-262 Finite deformation, 1-81 Hardening, 11-674 Assessment diagram, 11-192 Model, 11-246 Rate, 1-7 Effect, 11-341 Field, 1-594 Hardening, 11-773 Invariant nonelastic, 1-650 Singularities, 1-622 Stress And deformation field, 1-12 And strain rate intensity, 1-607 Biaxial, 11-95 Bracket Power hardening, 11-24 Ramberg-Osgood, 11-25 Strip yield model, 11-24 Cauchy, 1-97 Cleavage, 11-284 Concentration, 1-551, 11-92 Criterion critical net section, 11-331 Critical net section flow, 11-315 Dependence exponential, 1-539 Distribution, 1-60, 1-62 1-637 1-757 Field, 1-297 Axial force on, n-264 Statically admissible, 11-267 Gradient, 11-805 Hertzian, 11-800 Intensity factor, 1-354, 1-415, 1-421, 1-521, 1-690, 1-695, 11-109, 11-274 Kirchoff, 1-97 Membrane, 11-325 Residual, 11-88, 11-93, 11-198, 11-240 Saturation, 11-244 Secondary, 11-33 Thermal, n-34, 11-95, 11-198, 11-240 Stretch zone, 1-389, 11-383, 11-390 Method, 11-428 Width, 11-399, 11-402, 11-420 Strip Necking, 11-649 Yield model stress bracket, 11-24 Yielding zone, 11-646 Structure uniaxially loaded, 11-667 Sulfidizing environment, 1-713 Superposition method, 1-354 1-363 Surface Crack tip contraction, 11-614 Elliptical defect, 1-471 Flaw, 11-32 Analysis, 11-28 SWRI large tension specimen test, 11-162 T-applied, 11-63, 11-142, 11-440 T-geometry independence of, 11-70 T-material, 1-389, 11-13, 11-63, 11-162, 11-440, 11-518, 11-595 Tearing Crack extension, 11-508 Fracture, 11-515 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions authorized 1-758 ELASTIC-PLASTIC FRACTURE: SECOND SYMPOSIUM Instability, 1-411, II-5, 11-110, 11-440, 11-451, 11-778 Criterion, 11-10 Theory, 11-133, 11-136 Modulus, 1-265, 1-307, 1-339, 1-384, 11-11, 11-59, 11-62, 11-134,11-156, 11-373, 11-440, 11-508, 11-587, 11-595, 11-780 Modified, 1-199 Modified applied, 1-201 Parameter, 1-132 Tensile stress uniform, 1-420 Test specimen geometry, 11-663 Thickness Effect, 1-425, 11-632 Ligament ratio, 11-592 Three-point bend, 11-334, 11-372 Time dependent Effect, 1-722 Failure, 1-731, 1-742 Toughness Uniaxial tensile stress strain response, 1-370 Unloading compliance, 11-354, 11-372, 11-509, 11-773 Computer, 11-584 Elastic, 11-466 Gage, 11-357 Unloading slope determination, 11-361 Crack growth behavior, 11-726 Properties, 11-49 Trailing wake, 1-26 Transition Region, 11-531 Temperature region, 11-532 Tunneling, 11-782 Turner theory, 11-188 Wall breakthrough, 11-298 Work hardening, 1-418, 11-88 Solid, 1-80 U Ultrasonic method, 11-405 End on, 11-509 Virtual work, 1-42 Viscoplastic analysis, 1-615 Void Growth, 1-584 Interaction, 1-589 Von Mises yield criterion, 1-241, 1-258, 11-267 W YFM, 11-483 Yield level, 11-94 Yielding Large scale, 1-130, 11-634 Model small scale, 1-622, 1-632 Small scale, 1-40, 1-57, 1-541, 11-634 Tensile small scale, 1-615 Copyright by ASTM Int'l (all rights reserved); Wed Dec 23 18:00:43 EST 2015 Downloaded/printed by University of Washington (University of Washington) pursuant to License Agreement No further reproductions author