Verfügbarkeit: Microstructure and mechanical properties of metallic high temperature materials

Microstructure and mechanical properties of metallic high temperature materials: research report

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Format:	Buch
Sprache:	German
Veröffentlicht:	Weinheim [u.a.] Wiley-VCH 1999
Schlagworte:	Heat resistant materials > Mechanical properties Metals > Mechanical properties Microstructure Mikrostruktur Mechanische Eigenschaft Superlegierung Hochtemperaturwerkstoff Hochschmelzendes Metall Forschungsbericht
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXII, 559 S. Ill., graph. Darst.
ISBN:	3527271422

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE . XIX INTRODUCTION . XXI PART I LIGHT METAL PM-ALUMINIUM AND TITANIUM-BASE ALLOYS 1 STRUCTURE AND PROPERTIES OF P/M AL-ALLOYS FOR HIGH-TEMPERATURE APPLICATION . 3 OLAF RODER, JOACHIM ALBRECHT, GERD LIITJERING 1.1 INTRODUCTION . 3 1.2 EXPERIMENTAL PROCEDURE . 4 1.3 RESULTS AND DISCUSSION . 4 1.3.1 MICROSTRUCTURE . 4 1.3.2 TENSILE PROPERTIES . 6 1.4 FATIGUE PROPERTIES . 14 1.5 CONCLUSION . 16 1.6 REFERENCES . 17 2 CREEP BEHAVIOUR AND MICROSTRUCTURE OF DISPERSION-STRENGTHENED PM-ALUMINIUM-MATERIALS AT ELEVATED TEMPERATURES . 18 ESSAM EL-MAGD, GUIDO NICOLINI 2.1 INTRODUCTION . 18 2.2 TEST MATERIALS AND EXPERIMENTAL PROCEDURE . 19 2.2.1 TEST MATERIALS . 19 2.2.2 CREEP TESTS . 19 2.2.3 MICROSTRUCTURE INSPECTIONS . 20 2.3 EXPERIMENTAL RESULTS . 21 2.3.1 MICROSTRUCTURE . 21 2.3.2 TENSION AND COMPRESSION CREEP TESTS . 21 2.4 DISCUSSION . 26 2.5 CONCLUSIONS . 31 2.6 REFERENCES . 32 CONTENTS 3 HIGH-TEMPERATURE FATIGUE BEHAVIOUR AND MICROSTRUCTURE OF A DISPERSOID-STRENGTHENED AND SIC-REINFORCED ALUMINIUM ALLOY . 34 ARND JUNG, HANS JURGEN MAIER, HANS-JURGEN CHRIST 3.1 INTRODUCTION . 34 3.2 MATERIALS AND EXPERIMENTAL PROCEDURE . 35 3.3 RESULTS . 36 3.3.1 MONOTONIC TENSILE PROPERTIES . 36 3.3.2 CYCLIC DEFORMATION BEHAVIOUR . 37 3.3.2.1 ISOTHERMAL FATIGUE BEHAVIOUR UNDER CONSTANT AMPLITUDE LOADING . 37 3.3.2.2 ISOTHERMAL FATIGUE BEHAVIOUR UNDER VARIABLE AMPLITUDE LOADING . 41 3.3.2.3 THERMOMECHANICAL FATIGUE BEHAVIOUR . 42 3.3.3 MODELLING OF THE CYCLIC STRESS-STRAIN RESPONSE . 44 3.4 DISCUSSION . 46 3.5 SUMMARY . 48 3.6 REFERENCES . 48 4 FATIGUE BEHAVIOUR OF DISPERSION-STRENGTHENED ALUMINIUM MATERIALS BETWEEN 293 AND 773 K . 50 INGO KROPFL, MARKUS BECK, KARL-HEINZ LANG, OTMAR VOHRINGER, ECKARD MACHERAUCH 4.1 INTRODUCTION . 50 4.2 MATERIALS . 51 4.3 EXPERIMENTAL PROCEDURE . 51 4.4 RESULTS . 52 4.4.1 ISOTHERMAL CYCLIC DEFORMATION . 52 4.4.2 SPECIMEN SHORTENING BY ANNEALING . 56 4.4.3 PURE THERMAL AND THERMAL CYCLIC DEFORMATION WITH ADDITIONAL EXTERNAL LOADING . 56 4.5 DISCUSSION . 58 4.6 CONCLUSIONS . 60 4.7 REFERENCES . 61 5 ON THE MICROSTRUCTURAL FEATURES GOVERNING THE HIGH-TEMPERATURE DEFORMATION BEHAVIOUR OF THE SILICON-BEARING NEAR-A TITANIUM ALLOY IMI834 . 62 HEINRICH KESTLER, BERTHOLD VON GROSSMANN, HEINZ WERNER HOPPEL, HAEL MUGHRABI 5.1 INTRODUCTION . 62 5.2 EXPERIMENTAL . 63 5.3 RESULTS AND DISCUSSION . 64 5.3.1 MICROSTRUCTURAL CHANGES DURING AGEING . 64 5.3.1.1 LAMELLA BOUNDARIES . 65 5.3.1.2 SILICIDES . 65 5.3.1.3 LOCAL CHEMICAL COMPOSITION OF THE MATRIX . 67 5.3.1.4 A 2 -PRECIPITATION . 68 5.3.2 MECHANICAL PROPERTIES . 69 VI CONTENTS 5.3.2.1 TENSILE CREEP TESTS AT 600 C . 69 5.3.2.2 COMPRESSION TESTS AT T = 600 C . 71 5.3.2.3 COMPRESSION TESTS BETWEEN 450 AND 650 C . 72 5.3.2.4 TENSILE CREEP TESTS AT 350 MPA BETWEEN 600 AND 650 C . 74 5.4 REFERENCES . 77 6 PROCESSING WINDOW AND MECHANICAL BEHAVIOUR FOR FINE-GRAINED 0-STRUCTURE OF THE NEAR-A TITANIUM ALLOY TIMETAL 1100 . 79 JORG KUMPFERT, DIRK WEINEM, MANFRED PETERS, WOLFGANG A. KAYSSER 6.1 INTRODUCTION . 79 6.2 EXPERIMENTAL PROCEDURE . 80 6.3 RESULTS AND DISCUSSION . 81 6.3.1 MICROSTRUCTURE . 81 6.3.2 TENSILE BEHAVIOUR . 85 6.3.3 CREEP BEHAVIOUR . 87 6.3.4 FRACTURE TOUGHNESS . 90 6.4 SUMMARY . 92 6.5 REFERENCES . 93 7 CORRELATION BETWEEN MICROSTRUCTURE AND HIGH-TEMPERATURE PLASTICITY - SUPERPLASTICITY AND CREEP - OF PARTICLE-STRENGTHENED A-TI/TI 2 CO ALLOYS . 95 GEORG FROMMEYER, HARALD HOFMANN 7.1 INTRODUCTION . 96 7.2 EXPERIMENTAL PROCEDURE . 97 7.3 RESULTS AND DISCUSSION . 99 7.3.1 SUPERPLASTICITY OF FINE-GRAINED TI-10CO-4AL ALLOYS . 99 7.3.1.1 STRAIN RATE SENSITIVITY PARAMETERS AND SUPERPLASTIC ELONGATIONS . 99 7.3.1.2 ACTIVATION ANALYSIS . 101 7.3.1.3 GRAIN SIZE EXPONENT P . 101 7.3.1.4 ACCOMMODATION MODEL FOR GRAIN/PHASE BOUNDARY SLIDING AT HIGH STRAIN RATES . 102 7.3.2 CREEP PROPERTIES OF COARSE-GRAINED TI-12CO-5AL ALLOYS . 104 7.4 SUMMARY . 108 7.5 REFERENCES . 109 8 INFLUENCE OF MICROSTRUCTURE ON THE HIGH-TEMPERATURE FATIGUE BEHAVIOUR OF THE TITANIUM ALLOY IMI 834 . 110 FRANK TORSTER, ALBRECHT GYSLER, GERD LIITJERING 8.1 INTRODUCTION . 110 8.2 EXPERIMENTAL PROCEDURE . ILL 8.3 EXPERIMENTAL RESULTS . 112 8.4 DISCUSSION . 117 8.5 REFERENCES . 120 VII CONTENTS 9 INFLUENCE OF SILICIDE PRECIPITATES ON MICROSTRUCTURE AND FATIGUE OF TIMETAL 1100 . 122 CLEMENS MULLER, SEBASTIAN TERTSCH, HANS-ECKART EXNER, LOTHAR WAGNER 9.1 INTRODUCTION . 122 9.2 EXPERIMENTAL PROCEDURE . 123 9.3 NATURE AND DISTRIBUTION OF SILICIDES . 125 9.4 MICROSTRUCTURE AND MECHANICAL BEHAVIOUR . 126 9.5 CONCLUSIONS . 132 9.6 REFERENCES . 133 10 INFLUENCE OF LOADING FREQUENCY ON FATIGUE LIFE OF TIMETAL 1100 . . 134 CLEMENS MULLER, SEBASTIAN TERTSCH 10.1 INTRODUCTION . 134 10.2 EXPERIMENTAL PROCEDURE . 135 10.3 RESULTS AND DISCUSSION . 136 10.4 SUMMARY . 142 10.5 REFERENCES . 143 11 MEAN STRESS SENSITIVITY DURING FATIGUE OF THE NEAR-A TITANIUM ALLOY TIMETAL 1100. EFFECTS OF TEST TEMPERATURE . 144 JANNY LINDEMANN, LOTHAR WAGNER 11.1 INTRODUCTION . 144 11.2 EXPERIMENTAL . 145 11.3 RESULTS AND DISCUSSION . 146 11.4 CONCLUSIONS . 154 11.5 REFERENCES . 155 12 LOAD TYPE INFLUENCES ON THE HIGH-TEMPERATURE CREEP-FATIGUE BEHAVIOUR OF THE TITANIUM ALLOY IMI 834 AND CREEP-FATIGUE LIFE PREDICTION . 157 THOMAS KORDISCH, HORST NOWACK 12.1 INTRODUCTION . 157 12.2 MATERIALS AND EXPERIMENTAL PROCEDURE . 158 12.2.1 MATERIAL TESTED . 158 12.2.2 EXPERIMENTAL DETAILS . 159 12.2.2.1 TEST SETUP . 159 12.2.2.2 LONG CRACK TESTS . 159 12.2.2.3 SHORT CRACK TESTS . 160 12.2.2.4 LCF TESTS . 161 12.3 RESULTS . 163 12.3.1 MICROSCOPICAL DAMAGE MECHANISMS . 163 12.3.2 CRACK PROPAGATION . 165 12.3.2.1 BEHAVIOUR UNDER TIME-INDEPENDENT PURE FATIGUE LOADING . 165 12.3.2.2 BEHAVIOUR UNDER CREEP-FATIGUE LOADING . 168 12.3.3 LCF BEHAVIOUR . 169 12.4 LIFE PREDICTION . 170 12.4.1 FREQUENCY MODIFICATION METHOD . 171 VIII CONTENTS 12.4.2 STRAIN RANGE PARTITIONING (SRP) METHOD . 172 12.5 DISCUSSION AND CONCLUSIONS . 174 12.6 REFERENCES . 176 PART II FERRITIC CHROMIUM AND AUSTENITIC ALLOY 800 STEELS 13 MICROSTRUCTURE-BASED MODELLING OF THE LONG-TERM MONOTONIC AND CYCLIC CREEP OF THE MARTENSITIC STEEL X 20(22) CRMOV 12 1 . 179 DETLEV HENES, HARALD MOHLIG, STEFAN STRAUB, JOACHIM GRANACHER, WOLFGANG BLUM, CHRISTINA BERGER 13.1 INTRODUCTION . 179 13.2 THE MODEL . 180 13.2.1 DEFORMATION KINETICS . 180 13.2.2 MICROSTRUCTURAL EVOLUTION . 181 13.2.3 INTEGRATION OF THE EQUATIONS . 182 13.3 EXPERIMENTAL . 183 13.4 RESULTS . 184 13.4.1 INFLUENCE OF THE INITIAL MICROSTRUCTURE ON MONOTONIC CREEP STRENGTH . . . 184 13.4.2 CYCLIC CREEP AT R = -1 . 186 13.5 DISCUSSION . 190 13.6 CONCLUSIONS . 190 13.7 REFERENCES . 191 14 A MICROSTRUCTURAL MODEL TO PREDICT THE MULTIAXIAL CREEP AND DAMAGE IN 12 CR STEEL GRADE AT 550 C . 192 WOLFGANG GAUDIG, KARL KUSSMAUL, KARL MAILE, MICHAEL TRAMER, JOACHIM GRANACHER, KARL HEINZ KLOOS 14.1 INTRODUCTION . 192 14.2 TEST MATERIAL . 193 14.3 GENERATION OF DATA BASE FOR MODEL DEVELOPMENT . 193 14.3.1 CONSTANT LOAD UNIAXIAL CREEP BEHAVIOUR . 193 14.3.2 TRANSMISSION ELECTRON MICROSCOPY ON UNIAXIAL CREEP TEST SPECIMENS . . . 194 14.4 PRESENTATION OF A COMBINED CREEP/DAMAGE MODEL . 196 14.5 FITTING OF THE MODEL DEVELOPED . 199 14.6 APPLICATION TO CREEP IN COMPACT TENSION SPECIMENS . 199 14.7 DISCUSSION . 203 14.8 CONCLUSIONS . 203 14.9 REFERENCES . 204 15 A MULTIAXIAL MODEL FOR THE EVOLUTION OF THE MICROSTRUCTURE AND FOR THE MECHANICAL BEHAVIOUR OF A 12 % CHROMIUM STEEL UNDER CREEP CONDITIONS . 206 RALF MOHRMANN, MATTHIAS SESTER 15.1 INTRODUCTION . 206 15.2 MECHANISMS AND MICROSTRUCTURAL MODELLING . 207 15.2.1 SUBGRAIN STRUCTURE . 207 15.2.2 CARBIDE STRUCTURE . 207 IX CONTENTS 15.2.3 GRAIN-BOUNDARY CAVITATION . 208 15.2.3.1 THE P PARAMETER AND SELF-CONSISTENT ESTIMATES OF THE CONSTITUTIVE BEHAVIOUR . 208 15.2.3.2 CELL MODEL RESULTS AND COMPARISON WITH SELF-CONSISTENT ESTIMATES . 209 15.2.3.3 MODIFIED RODIN AND PARKS MODEL . 211 15.3 THE COMPLETE CONSTITUTIVE MODEL . 212 15.4 NUMERICAL METHODS . 213 15.4.1 ADJUSTMENT OF MODEL PARAMETERS . 213 15.4.2 FINITE ELEMENT IMPLEMENTATION . 214 15.5 RESULTS . 214 15.5.1 PARAMETER ADJUSTMENT . 214 15.5.2 COMPARISON OF CALCULATED AND MEASURED LOAD-LINE DISPLACEMENT . 216 15.5.2.1 CT SPECIMENS WITH DRILLED HOLES . 216 15.5.2.2 CT SPECIMENS WITH SHARP CRACKS . 218 15.5.3 COMPARISON OF MEASURED AND CALCULATED VALUES . 219 15.6 DISCUSSION AND CONCLUSION . 220 15.7 REFERENCES . 221 16 CYCLIC DEFORMATION BEHAVIOUR AND MICROSTRUCTURAL CHANGES OF THE 12% CHROMIUM STEEL X22CRMOV121 . 222 THOMAS PETERSMEIER, DIETMAR EIFLER 16.1 INTRODUCTION . 223 16.2 MATERIAL . 223 16.3 EXPERIMENTAL PROCEDURE . 224 16.4 CHARACTERISTIC EXPERIMENTAL RESULTS . 225 16.4.1 LIFE-ORIENTATED INVESTIGATIONS . 225 16.4.2 CYCLIC DEFORMATION BEHAVIOUR . 227 16.4.3 TRANSMISSION ELECTRON MICROSCOPY INVESTIGATIONS AND HARDNESS MEASUREMENTS . 229 16.4.4 CARBIDE DISTRIBUTION . 232 16.5 CONCLUSIONS . 233 16.6 REFERENCES . 233 17 INFLUENCE OF THE MAXIMUM CYCLE TEMPERATURE AND THE DWELL TIME ON THE THERMAL-MECHANICAL FATIGUE BEHAVIOUR OF A 12 % CHROMIUM STEEL . 235 THOMAS SAUBERLICH, GUNTHER PITZ, DETLEF LOHE 17.1 INTRODUCTION . 236 17.2 MATERIAL AND EXPERIMENTAL PROCEDURE . 236 17.3 CYCLIC DEFORMATION BEHAVIOUR . 237 17.4 CHANGE OF THE MICROSTRUCTURE . 241 17.5 DISCUSSION . 244 17.6 REFERENCES . 247 18 MICROSTRUCTURE CHARACTERIZATION OF THE FERRITIC STEEL X22CRMOV 12 1 AFTER ISOTHERMAL AND THERMAL-MECHANICAL FATIGUE LOADING . 248 ULRICH MARTIN, UTA KLEIN, HEINRICH OETTEL 18.1 INTRODUCTION . 248 X CONTENTS 18.2 MATERIALS CHARACTERIZATION . 249 18.3 EXPERIMENTAL . 250 18.3.1 ISOTHERMAL FATIGUE AND THERMAL-MECHANICAL FATIGUE (TMF) TESTS . 250 18.3.2 TEM MEASUREMENT OF THE DISLOCATION DENSITY . 250 18.3.3 TEM MEASUREMENT OF THE CARBIDE SIZES BY DYNAMIC DARK FIELD TECHNIQUE . 251 18.4 CHARACTERISTIC EXPERIMENTAL RESULTS . 251 18.4.1 ISOTHERMAL FATIGUE BEHAVIOUR AND MICROSTRUCTURE . 251 18.4.1.1 INFLUENCE OF THE ISOTHERMAL FATIGUE TEMPERATURE . 252 18.4.1.2 INFLUENCE OF THE STRESS AMPLITUDE AND THE NUMBER OF FATIGUE CYCLES . . . 255 18.4.2 THERMAL-MECHANICAL FATIGUE BEHAVIOUR AND MICROSTRUCTURE . 257 18.4.2.1 INFLUENCE OF THE MAXIMUM CYCLE TEMPERATURE . 257 18.4.2.2 INFLUENCE OF THE NUMBER OF CYCLES AND THE HOLD-TIME AT MAXIMUM CYCLE TEMPERATURE . 258 18.5 DISCUSSION . 258 18.6 CONCLUSIONS . 260 18.7 REFERENCES . 260 19 PROPAGATION OF SHORT CRACKS IN ALLOY 800HT AND IN THE STEEL 22CRMOV12-L AT HIGH TEMPERATURE UNDER BIAXIAL FATIGUE . 261 ZHIPING MU, HORST VEHOFF 19.1 INTRODUCTION . 261 19.2 EXPERIMENTAL TECHNIQUES . 262 19.2.1 MATERIALS . 262 19.2.2 TESTING AND CRACK LENGTH MEASUREMENT . 262 19.3 BEHAVIOUR OF SHORT CRACKS . 263 19.3.1 ALLOY 800HT . 263 19.3.2 22CRMOV12-L . 265 19.4 CRACK GROWTH AND LIFE PREDICTION . 266 19.5 RESULTS AND DISCUSSION . 267 19.6 CONCLUSIONS . 271 19.7 REFERENCES . 271 20 FLOW BEHAVIOUR AND MICROSTRUCTURE OF THE HEAT-RESISTANT STEELS X20CRMOV12.1 AND X5NICRTIA132.20 (ALLOY 800) . 272 PETER KLIMANEK, KLAUS CYRENER, CHRISTOPHE GERMAIN, KERSTIN JENKNER, ULRICH MARTIN, ORTRUD OETTEL, ANDREA OSTWALDT, DIRK OSTWALDT, WOLFGANG PANTLEON 20.1 INTRODUCTION . 272 20.2 EXPERIMENTAL PROCEDURES . 273 20.2.1 SAMPLE MATERIALS AND PREPARATION . 273 20.2.2 MECHANICAL MEASUREMENTS . 274 20.2.3 TECHNIQUES OF MICROSTRUCTURE ANALYSIS . 274 20.3 RESULTS AND DISCUSSION . 275 20.3.1 STEEL X20CRMOV12.1 . 275 20.3.1.1 FLOW-CURVE CHARACTERISTICS . 275 XI CONTENTS 20.3.1.2 MICROSTRUCTURE DEVELOPMENT AND STRUCTURE-PROPERTY RELATIONSHIPS . 278 20.3.2 STEEL X5NICRTIA132.20 (AHOY 800) . 281 20.3.2.1 FLOW-CURVE CHARACTERISTICS . 281 20.3.2.2 MICROSTRUCTURE DEVELOPMENT AND STRUCTURE-PROPERTY RELATIONSHIPS . 283 20.3.3 MODELLING OF THE DEFORMATION BEHAVIOUR . 286 20.4 SUMMARY AND CONCLUSIONS . 288 20.5 REFERENCES . 289 21 MICROSTRUCTURE AND CREEP BEHAVIOUR OF ALLOY 800HT . 291 GUIDO NICOLINI, ESSAM EL-MAGD 21.1 INTRODUCTION . 291 21.2 EXPERIMENTAL DETAILS . 293 21.2.1 MATERIAL AND HEAT TREATMENT . 293 21.2.2 MECHANICAL TESTING . 293 21.2.3 MICROSCOPIC AND METALLOGRAPHIC EXAMINATIONS . 294 21.3 RESULTS . 294 21.3.1 CREEP BEHAVIOUR AND CREEP DAMAGE . 294 21.3.2 EVOLUTION OF THE MICROSTRUCTURE . 296 21.3.3 MODEL FOR DESCRIBING THE CREEP BEHAVIOUR . 299 21.4 SUMMARY . 303 21.5 REFERENCES . 304 22 MECHANICAL BEHAVIOUR AND MICROSTRUCTURAL EVOLUTION OF ALLOY 800H UNDER BIAXIAL CYCLIC LOADING . 306 PEDRO DOLABELLA PORTELLA, FENG JIAO, WERNER OSTERLE, JOSEPH ZIEBS 22.1 INTRODUCTION . 306 22.2 EXPERIMENTAL PROCEDURE . 307 22.3 CYCLIC HARDENING . 309 22.4 MICROSTRUCTURAL EVOLUTION . 313 22.5 TRANSIENT EFFECTS DUE TO CHANGES IN THE LOADING PATH . 316 22.6 CONCLUSIONS . 316 22.7 REFERENCES . 319 23 GRAIN-BOUNDARY SELF-DIFFUSION OF ALLOY 800 AND INFLUENCE OF S, P AND C ON GRAIN-BOUNDARY DIFFUSION AND CREEP CAVITY FORMATION IN ALLOY 800 . 320 JANINE LINDEMANN, KLAUS HENNESEN, RALPH MAST, HELMUT VIEFHAUS, VASILI SVETCHNIKOV, HANS JURGEN GRABKE 23.1 INTRODUCTION . 320 23.2 MATERIAL PREPARATION . 321 23.3 RESULTS AND DISCUSSION . 322 23.3.1 DIFFUSION MEASUREMENTS . 322 23.3.2 SEGREGATION MEASUREMENTS . 326 23.3.3 CREEP MEASUREMENTS . 330 23.4 CONCLUSIONS . 332 23.5 REFERENCES . 332 XII CONTENTS PART III (MONOCRYSTALLINE) NICKEL-BASE SUPERALLOYS 24 ELASTICITY OF HIGH-TEMPERATURE ALLOYS . 337 WOLFGANG HERMANN, HANS-GEORG SOCKEL 24.1 INTRODUCTION . 337 24.2 ELASTICITY OF ANISOTROPIC SOLIDS . 338 24.2.1 SINGLE CRYSTALS . 338 24.2.2 TEXTURED MATERIALS . 339 24.3 EXPERIMENTAL . 342 24.4 MATERIALS . 343 24.5 RESULTS AND DISCUSSION . 345 24.5.1 ELASTICITY . 345 24.5.1.1 NICKEL-BASE ALLOYS . 345 24.5.1.2 IRON-ODS ALLOY PM 2000 . 347 24.5.1.3 TITANIUM ALLOYS . 348 24.5.2 THERMAL EXPANSION . 350 24.6 SUMMARY . 352 24.7 APPENDIX . 353 24.8 REFERENCES . 354 25 INVESTIGATIONS ON TEM FOIL PREPARATION AND MICROSTRUCTURE OF THE SUPERALLOYS N18 AND CMSX-4 . 356 SIMONE NEVES, HEINZ-JOSEF PENKALLA, FLORIAN SCHUBERT 25.1 INTRODUCTION . 356 25.2 MATERIALS AND EXPERIMENTAL PROCEDURE . 357 25.3 EXPERIMENTAL RESULTS . 359 25.3.1 RESULTS OF TEM FOIL PREPARATION . 359 25.3.2 RESULTS OF THE TENSILE TESTS . 360 25.3.3 MICROSTRUCTURES IN THE AS-RECEIVED AND THE AS-EXPOSED STATE . 360 25.3.4 MICROSTRUCTURE IN THE DEFORMED STATE . 363 25.4 DISCUSSION . 366 25.4.1 TEM FOIL PREPARATION . 366 25.4.2 TENSILE TESTS . 367 25.4.3 MICROSTRUCTURE AFTER DEFORMATION . 367 25.5 CONCLUSIONS . 367 25.6 REFERENCES . 368 26 IDENTIFICATION OF SLIP SYSTEMS AND CRSS ANISOTROPY OF A MONO CRYSTALLINE NICKEL-BASE SUPERALLOY IN THE TEMPERATURE RANGE OF THE YIELD STRENGTH MAXIMUM . 370 DIRK BETTGE, WERNER OSTERLE 26.1 INTRODUCTION . 370 26.2 EXPERIMENTAL PROCEDURE . 372 26.3 RESULTS . 374 26.4 DISCUSSION . 379 26.5 CONCLUSIONS . 382 26.6 REFERENCES . 383 XIII CONTENTS 27 MECHANICAL AND MICROSTRUCTURAL INVESTIGATIONS OF PROCESSES GOVERNING ANNEALING AND SHEAR CREEP ANISOTROPY OF THE SINGLE CRYSTAL SUPERALLOY CMSX-4 AT TEMPERATURES ABOVE 1000 C . 384 MATTHIAS KOLBE, MUTHUSWAMI KAMARAJ, MARTIN HEITKEMPER, MALTE PROBST-HEIN, KLAUS NEUKING, GUNTHER EGGELER 27.1 INTRODUCTION . 384 27.2 EXPERIMENTAL METHODS . 385 27.3 RESULTS AND DISCUSSION . 386 27.3.1 FINITE ELEMENT CALCULATIONS OF THE DOUBLE SHEAR SPECIMEN . 386 27.3.2 MECHANICAL TESTING . 387 27.3.2.1 OVERALL SHEAR CREEP BEHAVIOUR . 387 27.3.2.2 TEMPERATURE DEPENDENCE OF SHEAR CREEP RATE . 388 27.3.3 MICROSTRUCTURAL INVESTIGATIONS . 388 27.4 SUMMARY . 395 27.5 REFERENCES . 396 28 PHASE-SPECIFIC STRAINS AND STRESSES IN Y-HARDENED NICKEL-BASE SUPERALLOYS AFTER HIGH-TEMPERATURE DEFORMATION DETERMINED BY HIGH-RESOLUTION X-RAY AND NEUTRON DIFFRACTION TECHNIQUES . 397 WALTER REIMERS, THOMAS GNAUPEL-HEROLD, ANDREAS MULLER 28.1 INTRODUCTION . 397 28.2 EXPERIMENTAL . 398 28.3 THE INVESTIGATED MATERIAL . 399 28.4 THE MICROSTRUCTURE-DEPENDENT MODEL AND THE INTERPRETATION OF DIFFRACTION PATTERNS . 400 28.5 STRESS EVALUATION PROCEDURE . 402 28.6 RESULTS AND DISCUSSION . 404 28.6.1 COHERENCY STRESSES IN THE UNDEFORMED MATERIAL . 404 28.6.2 STRESSES IN THE TENSILE-DEFORMED MATERIAL STATE . 405 28.6.3 STRESSES IN THE CREEP-DEFORMED MATERIAL STATE . 406 28.7 INTERPRETATION OF STRESS STATES BY DISLOCATION GLIDING AND CLIMBING . . . 407 28.8 REFERENCES . 409 29 DEFORMATION MECHANISMS AT 1000 C IN SINGLE CRYSTALLINE NICKEL BASE SUPERALLOYS AFTER MULTIAXIAL LOADING . 411 INGO STELLER, FLORIAN SCHUBERT 29.1 INTRODUCTION . 411 29.2 EXPERIMENTAL WORK . 412 29.2.1 CHARACTERIZATION OF THE INVESTIGATED ALLOYS . 412 29.2.2 EXPERIMENTAL WORK . 413 29.3 RESULTS AND DISCUSSION . 414 29.3.1 MECHANICAL BEHAVIOUR IN TENSILE AND TORSIONAL EXPERIMENTS . 414 29.3.2 MICROSTRUCTURAL INVESTIGATIONS . 415 29.3.2.1 ALLOY 279 AFTER TORSIONAL AND COMBINED TENSILE-TORSIONAL LOAD . 415 29.3.2.2 ALLOY CMSM-4 + Y AFTER TENSILE AND TORSIONAL LOAD . 416 29.3.3 TEM INVESTIGATIONS . 417 XIV CONTENTS 29.3.3.1 INITIAL STAGE . 417 29.3.3.2 ALLOY 279 AFTER TORSIONAL LOAD . 418 29.3.3.3 ALLOY CMSX-4 + Y AFTER TENSILE AND TORSIONAL LOAD . 420 29.4 SUMMARY . 422 29.5 REFERENCES . 423 30 INFLUENCE OF DIRECTIONAL COARSENING ON THE ISOTHERMAL HIGH-TEM PERATURE FATIGUE BEHAVIOUR OF THE MONOCRYSTALLINE NICKEL-BASE SUPERALLOYS CMSX-6 AND CMSX-4 . 425 MICHAEL OTT, ULRICH TETZLAFF, HAEL MUGHRABI 30.1 INTRODUCTION . 425 30.2 EXPERIMENTAL . 426 YY 30.2.1 MATERIALS . 426 30.2.2 EXPERIMENTAL PROCEDURE . 427 30.3 RESULTS AND DISCUSSION . 428 30.3.1 INFLUENCE OF TOTAL STRAIN AMPLITUDE AND TEMPERATURE . 428 30.3.2 MICROSTRUCTURES AFTER FATIGUE TEST (IN AIR) . 431 30.3.3 INFLUENCE OF THE Y/Y'-MORPHOLOGY ON THE FATIGUE LIFE OF THE ALLOY CMSX-4 . 433 30.3.4 COMPARISON BETWEEN THE ALLOYS CMSX-6 AND CMSX-4 . 433 30.3.5 FATIGUE CRACK INITIATION AND PROPAGATION . 434 30.3.5.1 FATIGUE CRACK INITIATION . 434 30.3.5.2 FATIGUE CRACK PROPAGATION . 435 30.4 CONCLUDING DISCUSSION . 437 30.5 CONCLUSIONS . 438 30.6 REFERENCES . 439 31 INFLUENCE OF CELLULAR RECRYSTALLIZATION ON THE FATIGUE BEHAVIOUR OF SINGLE CRYSTAL NI-BASED SUPERALLOYS . 441 PEDRO DOLABELLA PORTELLA, WERNER OSTERLE 31.1 INTRODUCTION . 441 31.2 EXPERIMENTAL PROCEDURE . 443 31.3 SOME ASPECTS CONCERNING THE NUCLEATION OF CELLULAR RECRYSTALLIZATION IN CMSX-6 . 444 31.4 KINETICAL EVALUATION OF THE CELLULAR RECRYSTALLIZATION IN CMSX-6 . 446 31.5 INFLUENCE OF RECRYSTALLIZED AREAS AT THE SPECIMEN SURFACE ON THE LCF BEHAVIOUR . 447 31.6 CONCLUSIONS . 452 31.7 REFERENCES . 453 32 INFLUENCE OF MICROSTRUCTURE ON THE MECHANICAL PROPERTIES OF U 720 LI 454 GUNDI BAUMEISTER, JOACHIM ALBRECHT, GERD LIITJERING 32.1 INTRODUCTION . 454 32.2 EXPERIMENTAL PROCEDURE . 455 32.3 RESULTS AND DISCUSSION . 455 32.3.1 VARIATION OF THE GRAIN SIZE . 455 32.3.2 INFLUENCE OF HEAT TREATMENT . 459 XV CONTENTS 32.4 CONCLUSIONS . 461 32.5 REFERENCES . 462 PART IV NICKEL AND IRON-BASE ODS SUPERALLOYS 33 LCF AND MICROSTRUCTURE OF THE ODS NICKEL-BASE SUPERALLOY PM 1000 AT 1123 K . 465 FRANK E. H. MULLER, MARTIN HEIHNAIER, LUDWIG SCHULTZ 33.1 INTRODUCTION . 465 33.2 EXPERIMENTAL . 466 33.3 RESULTS AND DISCUSSION . 468 33.3.1 MONOTONIC DEFORMATION BEHAVIOUR . 468 33.3.2 CYCLIC DEFORMATION BEHAVIOUR . 470 33.3.3 MICROSTRUCTURE AFTER HIGH-TEMPERATURE DEFORMATION . 473 33.3.4 COMPARISON OF MONOTONIC AND CYCLIC STRESS-STRAIN CURVE . 475 33.4 CONCLUDING REMARKS . 477 33.5 REFERENCES . 477 34 INFLUENCE OF THERMOMECHANICAL TREATMENT ON GRAIN GROWTH IN THE Y '-RICH NICKEL-BASE ODS SUPERALLOY PM3030 . 479 MARTIN LIEBEHERR, GUNTER GOTTSTEIN 34.1 INTRODUCTION . 479 34.2 EXPERIMENTAL . 481 34.2.1 MATERIAL . 481 34.2.2 HOT DEFORMATION . 481 34.2.3 ANNEALING . 482 34.2.4 MICROSTRUCTURE AND TEXTURE . 482 34.3 RESULTS . 483 34.3.1 ANNEALING . 483 34.3.2 HOT DEFORMATION . 487 34.4 DISCUSSION . 490 34.4.1 DISCONTINUOUS GRAIN GROWTH . 490 34.4.2 TEXTURE . 493 34.5 CONCLUSIONS . 493 34.6 REFERENCES . 494 35 HIGH-TEMPERATURE CREEP OF THE IRON-BASE ODS ALLOY PM 2000 AND ITS MODELLING . 495 ROLAND HERZOG, FLORIAN SCHUBERT, HUBERTUS NICKEL, HANS SCHUSTER 35.1 INTRODUCTION . 496 35.2 EXPERIMENTAL DETAILS . 497 35.3 MATERIAL CHARACTERISATION . 497 35.4 EXPERIMENTAL RESULTS AND MODEL CALCULATIONS . 500 35.4.1 STEADY-STATE CREEP . 500 35.4.2 TRANSIENT CREEP . 504 35.5 CONCLUSIONS . 507 35.6 REFERENCES . 508 XVI CONTENTS 36 MICROMECHANICAL ANALYSIS OF THE CREEP BEHAVIOUR OF IRON-BASE SUPERALLOYS . 509 BERND REPPICH, MARTIN HEILMAIER, JORG WUNDER, HELMUT BAUMEISTER, THOMAS HUBER 36.1 INTRODUCTION . 510 36.2 EXPERIMENTAL . 513 36.3 DISCUSSION . 516 36.3.1 THE MATRIX BEHAVIOUR . 516 36.3.2 THE CREEP STRENGTH OF THE ODS SUPERALLOY PM 2000 . 517 36.3.2.1 THE INFLUENCE OF THE GRAIN STRUCTURE . 517 36.3.2.2 THE HYPOTHESIS OF THE "DEFORMATION-ACTIVE VOLUME FRACTION" . 520 36.3.2.3 MODELLING THE PM 2000 SHEET MATERIAL IN TERMS OF THE "MODIFIED" THRESHOLD STRESS CONCEPT . 522 36.4 FINAL REMARKS . 525 36.5 REFERENCES . 527 37 INFLUENCE OF GRAIN, DISLOCATION AND PHASE STRUCTURE ON THE LONG TERM DEFORMATION BEHAVIOUR OF FE-BASE ODS ALLOYS IN THE CREEP REGIME . 530 MANFRED WEISSE, WOLFGANG BLUM, JOACHIM GRANACHER, MICHAEL MONSEES 37.1 INTRODUCTION . 530 37.2 MATERIALS . 531 37.3 MICROSTRUCTURE: DISLOCATIONS, PARTICLES, PORES . 531 37.4 DEFORMATION TESTS . 533 37.4.1 TENSILE CREEP RUPTURE . 533 37.4.2 COMPRESSIVE DEFORMATION BEHAVIOUR . 536 37.4.3 MODEL OF DEFORMATION . 539 37.4.4 FRACTURE CHARACTERISTICS . 543 37.5 CONCLUSIONS . 545 37.6 REFERENCES . 545 38 INFLUENCE OF MICROSTRUCTURAL PARAMETERS ON THE DEFORMATION AND FAILURE BEHAVIOUR OF THE ODS ALLOY PM 2000 UNDER CREEP AND CREEP-FATIGUE LOADING . 547 KLAUS BOTHE, KARL KUSSMAUL, KARL MAILE 38.1 INTRODUCTION . 547 38.2 MATERIAL AND MANUFACTURING OF SPECIMEN . 548 38.3 EXPERIMENTAL INVESTIGATIONS . 548 38.3.1 TENSILE TESTS . 549 38.3.2 CREEP TESTS . 550 38.3.3 FATIGUE TESTS . 551 38.3.4 MICROSTRUCTURAL ANALYSIS . 555 38.4 DISCUSSION . 558 38.5 CONCLUSIONS . 558 38.6 REFERENCES . 559 XVII
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spelling	Microstructure and mechanical properties of metallic high temperature materials research report Deutsche Forschungsgemeinschaft. Ed. by Haël Mughrabi ... Weinheim [u.a.] Wiley-VCH 1999 XXII, 559 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Heat resistant materials Mechanical properties Metals Mechanical properties Microstructure Mikrostruktur (DE-588)4131028-7 gnd rswk-swf Mechanische Eigenschaft (DE-588)4217961-0 gnd rswk-swf Superlegierung (DE-588)4137767-9 gnd rswk-swf Hochtemperaturwerkstoff (DE-588)4025280-2 gnd rswk-swf Hochschmelzendes Metall (DE-588)4160194-4 gnd rswk-swf (DE-588)4155043-2 Forschungsbericht gnd-content Superlegierung (DE-588)4137767-9 s DE-604 Hochschmelzendes Metall (DE-588)4160194-4 s Mikrostruktur (DE-588)4131028-7 s 1\p DE-604 Hochtemperaturwerkstoff (DE-588)4025280-2 s 2\p DE-604 Mechanische Eigenschaft (DE-588)4217961-0 s 3\p DE-604 Mughrabi, Haël Sonstige oth Deutsche Forschungsgemeinschaft Sonstige (DE-588)2007744-0 oth DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008373654&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Microstructure and mechanical properties of metallic high temperature materials research report Heat resistant materials Mechanical properties Metals Mechanical properties Microstructure Mikrostruktur (DE-588)4131028-7 gnd Mechanische Eigenschaft (DE-588)4217961-0 gnd Superlegierung (DE-588)4137767-9 gnd Hochtemperaturwerkstoff (DE-588)4025280-2 gnd Hochschmelzendes Metall (DE-588)4160194-4 gnd
subject_GND	(DE-588)4131028-7 (DE-588)4217961-0 (DE-588)4137767-9 (DE-588)4025280-2 (DE-588)4160194-4 (DE-588)4155043-2
title	Microstructure and mechanical properties of metallic high temperature materials research report
title_auth	Microstructure and mechanical properties of metallic high temperature materials research report
title_exact_search	Microstructure and mechanical properties of metallic high temperature materials research report
title_full	Microstructure and mechanical properties of metallic high temperature materials research report Deutsche Forschungsgemeinschaft. Ed. by Haël Mughrabi ...
title_fullStr	Microstructure and mechanical properties of metallic high temperature materials research report Deutsche Forschungsgemeinschaft. Ed. by Haël Mughrabi ...
title_full_unstemmed	Microstructure and mechanical properties of metallic high temperature materials research report Deutsche Forschungsgemeinschaft. Ed. by Haël Mughrabi ...
title_short	Microstructure and mechanical properties of metallic high temperature materials
title_sort	microstructure and mechanical properties of metallic high temperature materials research report
title_sub	research report
topic	Heat resistant materials Mechanical properties Metals Mechanical properties Microstructure Mikrostruktur (DE-588)4131028-7 gnd Mechanische Eigenschaft (DE-588)4217961-0 gnd Superlegierung (DE-588)4137767-9 gnd Hochtemperaturwerkstoff (DE-588)4025280-2 gnd Hochschmelzendes Metall (DE-588)4160194-4 gnd
topic_facet	Heat resistant materials Mechanical properties Metals Mechanical properties Microstructure Mikrostruktur Mechanische Eigenschaft Superlegierung Hochtemperaturwerkstoff Hochschmelzendes Metall Forschungsbericht
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008373654&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT mughrabihael microstructureandmechanicalpropertiesofmetallichightemperaturematerialsresearchreport AT deutscheforschungsgemeinschaft microstructureandmechanicalpropertiesofmetallichightemperaturematerialsresearchreport

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