Thermally activated mechanisms in crystal plasticity:
Gespeichert in:
| Beteiligte Personen: | , |
|---|---|
| Format: | Buch |
| Sprache: | Englisch |
| Veröffentlicht: |
Amsterdam [u.a.]
Pergamon
2003
|
| Ausgabe: | 1. ed. |
| Schriftenreihe: | Pergamon materials series
8 |
| Schlagwörter: | |
| Links: | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010352045&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| Beschreibung: | Includes bibliographical references and index |
| Umfang: | XVIII, 433 S. Ill., graph. Darst. |
| ISBN: | 0080427030 |
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| 245 | 1 | 0 | |a Thermally activated mechanisms in crystal plasticity |c by D. Caillard ; J. L. Martin |
| 250 | |a 1. ed. | ||
| 264 | 1 | |a Amsterdam [u.a.] |b Pergamon |c 2003 | |
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| 490 | 1 | |a Pergamon materials series |v 8 | |
| 500 | |a Includes bibliographical references and index | ||
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| adam_text | PERGAMON MATERIALS SERIES THERMALLY ACTIVATED MECHANISMS IN CRYSTAL
PLASTICITY BY D. CAILLARD CEMES/CNRS-BP4347, F 31055 TOULOUSE CEDEX J.
L. MARTIN IPMC/EPFL-CH 1015 LAUSANNE 2003 PERGAMON AN IMPRINT OF
ELSEVIER AMSTERDAM - BOSTON - LONDON - NEW YORK - OXFORD - PARIS SAN
DIEGO - SAN FRANCISCO - SINGAPORE - SYDNEY - TOKYO * CONTENTS SERIES
PREFACE V PREFACE VII READER S GUIDE IX CHAPTER 1 INTRODUCTION 1.1.
SCOPE AND OUTLINE 3 1.2. THERMAL ACTIVATION THEORY: A SUMMARY 5
REFERENCES 8 CHAPTER 2 EXPERIMENTAL CHARACTERIZATION OF DISLOCATION
MECHANISMS 2.1. TRANSIENT MECHANICAL TESTS 13 2.1.1 STRAIN-RATE JUMP
EXPERIMENTS 14 2.1.2 STRESS RELAXATION TESTS 15 2.1.3 CREEP TESTS 20
2.1.4 INTERPRETATION OF REPEATED STRESS RELAXATION TESTS 21 2.1.4.1
GENERAL CONSIDERATIONS 22 2.1.4.2 ACTIVATION VOLUME AND MICROSTRUCTURAL
PARAMETERS 23 2.1.5 INTERPRETATION OF REPEATED CREEP TESTS 26 2.1.6
EXPERIMENTAL ASSESSMENTS . 28 2.1.6.1 TRANSITION BETWEEN MONOTONIC AND
TRANSIENT TESTS 28 2.1.6.2 EXAMPLES OF REPEATED CREEP TESTS 31 2.1.6.3
RESULTS OF STRESS RELAXATION SERIES 31 2.1.6.4 RESULTS OF CREEP SERIES
AND COMPARISON WITH STRESS RELAXATIONS 35 2.1.7 STRESS REDUCTION
EXPERIMENTS 38 2.1.8 CONCLUSIONS ABOUT TRANSIENT MECHANICAL TESTS 39
2.2. DEFORMATION EXPERIMENTS IN THE ELECTRON MICROSCOPE 40 2.2.1 SOME
KEY TECHNICAL POINTS 41 2.2.2 QUANTITATIVE INFORMATION PROVIDED BY IN
SITU EXPERIMENTS 42 2.2.3 RELIABILITY OF IN SITU EXPERIMENTS IN TEM 43
2.3. IN SITU SYNCHROTRON X-RAY TOPOGRAPHY 45 2.4. OBSERVATION OF SLIP
TRACES AT THE SPECIMEN SURFACE 48 2.5. CONCLUSION ABOUT THE
CHARACTERIZATION OF DISLOCATION MECHANISMS 51 REFERENCES * 51 XI XII
CONTENTS CHAPTER 3 INTERACTIONS BETWEEN DISLOCATIONS AND SMALL-SIZE
OBSTACLES 3.1. THERMALLY ACTIVATED GLIDE ACROSS FIXED SMALL-SIZE
OBSTACLES 57 3.1.1 THE RECTANGULAR FORCE-DISTANCE PROFILE 59 3.1.2 THE
PARABOLIC FORCE-DISTANCE PROFILE 61 3.1.3 THE COTTRELL-BILBY POTENTIAL
(COTTRELL AND BILBY, 1949) 62 3.2. DISLOCATIONS INTERACTING WITH MOBILE
SOLUTE ATOMS 63 3.2.1 LONG-RANGE ELASTIC INTERACTIONS 63 3.2.2 STATIC
AGEING, DYNAMIC STRAIN AGEING AND THE PORTEVIN-LECHATELIER EFFECT 65
3.2.3 DIFFUSION-CONTROLLED GLIDE 68 3.3. COMPARISON WITH EXPERIMENTS 72
3.3.1 THE FOREST MECHANISM 72 3.3.2 DISLOCATIONS-SOLUTE ATOMS
INTERACTIONS 73 3.3.2.1 DOMAIN 2: THERMALLY ACTIVATED MOTION ACROSS
FIXED OBSTACLES 76 3.3.2.2 DOMAIN 3: STRESS INSTABILITIES AND PLC EFFECT
80 3.3.2.3 DOMAIN 4: GLIDE CONTROLLED BY SOLUTE-DIFFUSION 80 REFERENCES
81 CHAPTER 4 FRICTIONAL FORCES IN METALS 4.1. DISLOCATION CORE
STRUCTURES AND PEIERLS POTENTIALS 85 4.2. KINK-PAIR MECHANISM 88 4.2.1
PRINCIPLES 89 4.2.2 SEVERAL PEIERLS POTENTIALS AND ASSOCIATED PEIERLS
STRESSES 89 4.2.3 ENERGY OF AN ISOLATED KINK 92 4.2.3.1 DORN AND RAJNAK
CALCULATION (SMOOTH POTENTIALS) 92 4.2.3.2 LINE TENSION APPROXIMATION 93
4.2.3.3 ABRUPT POTENTIAL 94 4.2.4 ENERGY OF A CRITICAL BULGE (HIGH
STRESS APPROXIMATION) 95 4.2.4.1 DORN AND RAJNAK CALCULATION (1964) 95
4.2.4.2 LINE TENSION APPROXIMATION 96 4.2.4.3 ABRUPT POTENTIAL 100 4.2.5
ENERGY OF A CRITICAL KINK-PAIR (LOW STRESS APPROXIMATION: COULOMB
ELASTIC INTERACTION) 101 4.2.6 TRANSITION BETWEEN HIGH STRESS AND LOW
STRESS REGIMES 102 4.2.7 PROPERTIES OF DISLOCATIONS GLIDING BY THE
KINK-PAIR MECHANISM 109 CONTENTS XIII 4.3. THERMALLY ACTIVATED CORE
TRANSFORMATIONS 111 4.3.1 TRANSFORMATIONS INTO A HIGHER ENERGY CORE
STRUCTURE 111 4.3.2 TRANSFORMATION INTO A LOWER ENERGY CORE STRUCTURE
112 4.3.3 SESSILE-GLISSILE TRANSFORMATIONS IN SERIES (LOCKING-UNLOCKING
MECHANISM) 113 4.3.4 TRANSITION BETWEEN THE LOCKING-UNLOCKING AND THE
KINK-PAIR MECHANISM 115 4.3.5 PROPERTIES OF DISLOCATIONS GLIDING BY THE
LOCKING-UNLOCKING MECHANISM 121 4.4. CONCLUSIONS 121 REFERENCES 122
CHAPTER 5 DISLOCATION CROSS-SLIP 5.1. MODELLING CROSS-SLIP 127 5.1.1
ELEMENTARY MECHANISMS 127 5.1.1.1 THE FLEISCHER MODEL (1959) 128 5.1.1.2
THE WASHBURN MODEL (1965) 129 5.1.1.3 THE SCHOECK, SEEGER, WOLF MODEL
130 5.1.1.4 THE FRIEDEL-ESCAIG CROSS-SLIP MECHANISM 130 5.1.2
CONSTRICTION ENERGY 131 5.1.3. ESCAIG S DESCRIPTION OF CROSS-SLIP (1968)
134 5.1.3.1 THE ACTIVATION ENERGY FOR CROSS-SLIP 134 5.1.3.2 THE
ACTIVATION VOLUME 139 5.1.3.3 ORIENTATION EFFECTS 140 5.1.3.4
REFINEMENTS IN THE ACTIVATION ENERGY ESTIMATION 141 5.2. EXPERIMENTAL
ASSESSMENTS OF ESCAIG S MODELLING 142 5.2.1 THE BONNEVILLE-ESCAIG
TECHNIQUE 143 5.2.2 EXPERIMENTAL OBSERVATIONS OF CROSS-SLIP 143 5.2.2.1
TEM OBSERVATIONS 143 5.2.2.2 OPTICAL SLIP TRACE OBSERVATIONS 144 5.2.2.3
PECULIAR FEATURES OF THE DEFORMATION CURVES 144 5.2.3 THE ACTIVATION
PARAMETERS 148 5.2.4 EXPERIMENTAL STUDY OF ORIENTATION EFFECTS 150 5.3.
ATOMISTIC MODELLING OF DISLOCATION CROSS-SLIP 151 5.4. DISCUSSION AND
CONCLUSIONS 153 5.4.1 WHO IS CLOSER TO THE TRUTH? 153 5.4.2 CROSS-SLIP
AND STAGE III IN FCC METALS 154 REFERENCES 155 XIV CONTENTS CHAPTER 6
EXPERIMENTAL STUDIES OF PEIERLS-NABARRO-TYPE FRICTION FORCES IN METALS
AND ALLOYS 6.1. PRISMATIC SLIP IN HCP METALS 159 6.1.1 PRISMATIC SLIP IN
TITANIUM 159 6.1.2 PRISMATIC SLIP IN ZIRCONIUM 167 6.1.3 PRISMATIC SLIP
IN MAGNESIUM 170 6.1.4 PRISMATIC SLIP IN BERYLLIUM 173 6.1.5 CONCLUSIONS
ON PRISMATIC SLIP IN HCP METALS 182 6.2. GLIDE ON NON-CLOSE-PACKED
PLANES IN FCC METALS 183 6.2.1 {110} SLIP 183 6.2.2 {100} SLIP IN
ALUMINIUM 185 6.2.2.1 CREEP TEST RESULTS 187 6.2.2.2 RESULTS OF CONSTANT
STRAIN-RATE TESTS 189 6.2.2.3 FEATURES OF DISLOCATIONS IN (001) 192
6.2.3 ORIGIN OF NON-OCTAHEDRAL GLIDE IN ALUMINIUM 194 6.2.4 GLIDE^ON
NON-CLOSE-PACKED PLANES IN COPPER 196 6.2.4.1 STRESS-STRAIN CURVES 196
6.2.4.2 MICROSTRUCTURAL FEATURES 196 6.2.4.3 CRITICAL STRESS FOR
NON-OCTAHEDRAL GLIDE 197 6.2.5 MODELLING OF NON-OCTAHEDRAL GLIDE IN FCC
METALS 199 6.2.5.1 POSSIBLE MECHANISMS 199 6.2.5.2 {001} GLIDE IN
ALUMINIUM AND THE KINK-PAIR MECHANISM 199 6.2.5.3 MODELLING {110} GLIDE
IN ALUMINIUM 202 6.2.5.4 NON-OCTAHEDRAL GLIDE IN COPPER 203 6.2.5.5
COMPARISON OF FCC METALS 204 6.2.6 THE RELEVANCE OF SLIP ON
NON-CLOSE-PACKED PLANES IN CLOSE-PACKED METALS 205 6.2.6.1 OPTIMUM
CONDITIONS FOR UNCONVENTIONAL SLIP IN ALUMINIUM 205 6.2.6.2
NON-CONVENTIONAL GLIDE AS A RATE CONTROLLING PROCESS 206 6.3.
LOW-TEMPERATURE PLASTICITY OF BCC METALS 209 6.3.1 MECHANICAL PROPERTIES
209 6.3.1.1 IRON AND IRON ALLOYS 209 6.3.1.2 NIOBIUM 212 6.3.1.3 OTHER
BCC METALS 213 6.3.2 MICROSTRUCTURAL OBSERVATIONS 214 6.3.3
INTERPRETATIONS 216 6.3.4 CONCLUSIONS ON THE LOW-TEMPERATURE PLASTICITY
OF BCC METALS 220 CONTENTS XV 6.4. THE IMPORTANCE OF FRICTION FORCES IN
METALS AND ALLOYS 220 REFERENCES 221 CHAPTER 7 THE PEIERLS-NABARRO
MECHANISM IN COVALENT CRYSTALS 7.1. DISLOCATION CORE STRUCTURES AND
PEIERLS-NABARRO FRICTION FORCES 227 7.2. DISLOCATION VELOCITIES 229
7.2.1 HIGH KINK MOBILITY (METAL-LIKE MODEL OF SUZUKI ET AL., 1995) 229
7.2.2 LOW KINK MOBILITY: CASE OF UNDISSOCIATED DISLOCATIONS 230 7.2.2.1
POINT-OBSTACLE MODEL OF CELLI ET AL. (1963) 232 7.2.2.2 KINK DIFFUSION
MODEL OF HIRTH AND LOTHE (1982) 233 7.2.3 LOW KINK MOBILITY: CASE OF
DISSOCIATED DISLOCATIONS 241 7.3. EXPERIMENTAL RESULTS ON DISLOCATION
VELOCITIES 247 7.3.1 MOBILITY AS A FUNCTION OF CHARACTER 248 7.3.1.1
ELEMENTAL SEMICONDUCTORS (SI) 248 7.3.1.2 COMPOUND SEMICONDUCTORS 252
7.3.2 VELOCITY AS A FUNCTION OF STRESS 256 7.3.3 VELOCITY AS A FUNCTION
OF TEMPERATURE 259 7.3.4 REGIMES OF DISLOCATION MOVEMENTS 264 7.3.5
VELOCITY ENHANCEMENT UNDER IRRADIATION 268 7.3.6 EXPERIMENTS AT VERY
HIGH STRESSES 272 7.4. CONCLUSIONS 275 REFERENCES 276 CHAPTER 8
DISLOCATION CLIMB 8.1. INTRODUCTION: BASIC MECHANISMS ; 281 8.1.1
DEFINITION OF CLIMB 281 8.1.2 MECHANICAL FORCES FOR PURE CLIMB 282 8.1.3
DIFFUSION OF POINT DEFECTS 282 8.1.4 JOG-POINT DEFECT INTERACTIONS 283
8.1.4.1 JOG-VACANCY INTERACTIONS 284 8.1.4.2 JOG-INTERSTITIAL
INTERACTIONS 287 8.1.4.3 SUMMARY 288 8.2. VACANCY EMISSION CLIMB
MECHANISM 288 8.2.1 HIGH JOG DENSITY 289 8.2.1.1 CLIMBING DISLOCATIONS
WITH A SMALL AVERAGE CURVATURE 289 8.2.1.2 GROWTH OR SHRINKING OF SMALL
PRISMATIC DISLOCATION LOOPS 292 8.2.2 LOW JOG DENSITY 293 8.2.2.1 NO
PIPE DIFFUSION 293 XVI CONTENTS 8.2.2.2 THE ROLE OF PIPE DIFFUSION 295
8.2.2.3 JOG-PAIR NUCLEATIONS 298 8.2.2.4 STRESS DEPENDENCE OF THE CLIMB
VELOCITY 300 8.2.3 CONCLUSION ON THE VACANCY-EMISSION CLIMB MECHANISM
301 8.3. VACANCY OR INTERSTITIAL-ABSORPTION CLIMB MECHANISM 302 8.3.1
HIGH JOG DENSITY (E.G. CURVED DISLOCATIONS) 303 8.3.2 LOW JOG DENSITY
(E.G. POLYGONAL DISLOCATIONS) 304 8.3.3 GROWTH AND SHRINKING OF
PRISMATIC LOOPS DURING ANNEALING 305 8.4. EXPERIMENTAL STUDIES OF CLIMB
PROCESSES 307 8.4.1 PURE CLIMB-PLASTICITY 307 8.4.1.1 CLIMB IN HCP
MAGNESIUM AND BERYLLIUM 307 8.4.1.2 CLIMB IN INTERMETALLIC ALLOYS 309
8.4.1.3 CLIMB IN QUASICRYSTALS 310 8.4.2 GROWTH AND SHRINKING OF LOOPS
DURING ANNEALING 311 8.4.2.1 SHRINKING OF VACANCY LOOPS IN THIN FOILS
312 8.4.2.2 COMPETITIVE LOOP GROWTH IN BULK MATERIALS 313 8.4.2.3 GROWTH
OF LOOPS UNDER HIGH DEFECT SUPERSATURATIONS 314 8.4.2.4 CONCLUSIONS ON
THE LOOP-ANNEALING EXPERIMENTS 315 8.4.3 IRRADIATION-INDUCED CREEP 316
8.5. CONCLUSION 318 REFERENCES 318 CHAPTER 9 DISLOCATION MULTIPLICATION,
EXHAUSTION AND WORK-HARDENING 9.1. DISLOCATION MULTIPLICATION 323 9.1.1
MODELS OF SOURCES I 323 9.1.2 OBSERVED DISLOCATION SOURCES 326 9.1.2.1
GLIDE SOURCES WITH ONE PINNING POINT 326 9.1.2.2 CLOSED LOOP
MULTIPLICATION 327 9.1.2.3 OPEN LOOP MULTIPLICATION 328 9.1.3
MULTIPLICATION PROCESSES IN COVALENT MATERIALS 331 9.1.3.1 GENERAL
FEATURES 332 9.1.3.2 THREE DIMENSIONAL MESOSCOPIC SIMULATIONS OF
DISLOCATION MULTIPLICATION 336 9.1.3.3 TESTING THE PROPER MULTIPLICATION
LAWS 339 9.1.3.4 CONCLUSIONS ABOUT DISLOCATION MULTIPLICATION IN
COVALENT CRYSTALS 342 9.2. MOBILE DISLOCATION EXHAUSTION 343 9.2.1 CELL
FORMATION 343 CONTENTS XVII 9.2.2 EXHAUSTION THROUGH LOCK FORMATION IN
NI 3 AL 344 9.2.3 IMPURITY OR SOLUTE PINNING (COTTRELL EFFECT) 347 9.2.4
EXHAUSTION WITH ANNIHILATION 349 9.3. WORK-HARDENING VERSUS
WORK-SOFTENING 352 9.4. CONCLUSIONS ABOUT DISLOCATION MULTIPLICATION,
EXHAUSTION AND SUBSEQUENT WORK-HARDENING 355 9.5. DISLOCATION
MULTIPLICATION AT SURFACES 355 9.5.1 DISLOCATION GENERATION AT CRACK
TIPS 355 9.5.2 DISLOCATION NUCLEATION AT A SOLID FREE SURFACE 356 9.5.3
CONCLUSION ON DISLOCATION MULTIPLICATION AT FREE SURFACES 358 REFERENCES
358 CHAPTER 10 MECHANICAL BEHAVIOUR OF SOME ORDERED INTERMETALLIC
COMPOUNDS 10.1. NI 3 AL AND LL 2 COMPOUNDS 363 10.1.1 GENERAL
CONSIDERATIONS 363 10.1.2 DISLOCATION CORES 366 10.1.2.1 TECHNICAL
DIFFICULTIES BOUND TO DISLOCATION CORE CHARACTERIZATION IN NI 3 AL 367
10.1.2.2 DATA ABOUT FAULT ENERGIES 371 10.1.3 CUBE GLIDE 372 10.1.3.1
DISLOCATION CORES 372 10.1.3.2 DISLOCATION MOBILITY 374 10.1.4
OCTAHEDRAL GLIDE 376 10.1.4.1 GENERAL CONSIDERATIONS 376 10.1.4.2
MICROSCOPIC ASPECT OF {111} GLIDE 377 10.1.4.3 COMPLETE VERSUS
INCOMPLETE KWL 379 10.1.5 UNDERSTANDING THE MECHANICAL PROPERTIES OF NI
3 AL COMPOUNDS 381 10.1.5.1 DEFINITION OF THE YIELD STRESS 381 10.1.5.2
TEMPERATURE VARIATIONS OF THE YIELD STRESS AND WORK-HARDENING RATE 382
10.1.5.3 YIELD STRESS PEAK TEMPERATURE (SINGLE CRYSTALS) 383 10.1.5.4
YIELD STRESS PEAK TEMPERATURE (POLYCRYSTALS) 388 10.1.5.5 CONCLUSION
ABOUT THE PEAK TEMPERATURE FOR THE YIELD STRESS 389 10.1.5.6 THE
TEMPERATURE OF THE WORK-HARDENING PEAK IN SINGLE CRYSTALS 390 10.1.5.7
THE TEMPERATURE OF THE WORK-HARDENING PEAK IN POLYCRYSTALS 394 XVIII
CONTENTS 10.1.5.8 CONCLUSIONS ABOUT THE PEAK IN WORK-HARDENING 397
10.1.6 THE ROLE OF DIFFERENT FAULT ENERGIES 399 10.1.7 STRENGTH AND
DISLOCATION DENSITY ~ * 400 10.1.7.1 VALUES OF DISLOCATION DENSITIES IN
NI 3 AL 400 10.1.7.2 DISLOCATION DENSITIES AND MECHANICAL PARAMETERS 400
10.2. STRESS ANOMALIES IN OTHER INTERMETALLICS . 402 10.2.1 OTHER LI 2
CRYSTALS 403 10.2.2 B2 ALLOYS 406 10.2.2.1 DEFORMATION MECHANISMS IN P
CUZN 406 10.2.2.2 FEAL COMPOUNDS 408 10.2.3 CONCLUSION ON STRENGTH
ANOMALIES IN ORDERED INTERMETALLICS 408 10.3. CREEP BEHAVIOUR OF NI 3 AL
COMPOUNDS 409 10.4. CONCLUSIONS J 411 REFERENCES 411 CONCLUSION 417
GLOSSARY OF SYMBOLS 419 INDEX 425
|
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| id | DE-604.BV017173331 |
| illustrated | Illustrated |
| indexdate | 2024-12-20T11:15:44Z |
| institution | BVB |
| isbn | 0080427030 |
| language | English |
| lccn | 2003053563 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-010352045 |
| oclc_num | 52269092 |
| open_access_boolean | |
| owner | DE-703 DE-29T DE-91G DE-BY-TUM DE-83 |
| owner_facet | DE-703 DE-29T DE-91G DE-BY-TUM DE-83 |
| physical | XVIII, 433 S. Ill., graph. Darst. |
| publishDate | 2003 |
| publishDateSearch | 2003 |
| publishDateSort | 2003 |
| publisher | Pergamon |
| record_format | marc |
| series | Pergamon materials series |
| series2 | Pergamon materials series |
| spellingShingle | Caillard, Daniel Martin, Jean-Luc Thermally activated mechanisms in crystal plasticity Pergamon materials series Crystals Plastic properties Materials at high temperatures Temperaturabhängigkeit (DE-588)4203793-1 gnd Plastizität (DE-588)4046283-3 gnd Versetzung Kristallographie (DE-588)4187993-4 gnd Beweglichkeit Physik (DE-588)4257325-7 gnd Wärme (DE-588)4064171-5 gnd Kristall (DE-588)4033209-3 gnd |
| subject_GND | (DE-588)4203793-1 (DE-588)4046283-3 (DE-588)4187993-4 (DE-588)4257325-7 (DE-588)4064171-5 (DE-588)4033209-3 |
| title | Thermally activated mechanisms in crystal plasticity |
| title_auth | Thermally activated mechanisms in crystal plasticity |
| title_exact_search | Thermally activated mechanisms in crystal plasticity |
| title_full | Thermally activated mechanisms in crystal plasticity by D. Caillard ; J. L. Martin |
| title_fullStr | Thermally activated mechanisms in crystal plasticity by D. Caillard ; J. L. Martin |
| title_full_unstemmed | Thermally activated mechanisms in crystal plasticity by D. Caillard ; J. L. Martin |
| title_short | Thermally activated mechanisms in crystal plasticity |
| title_sort | thermally activated mechanisms in crystal plasticity |
| topic | Crystals Plastic properties Materials at high temperatures Temperaturabhängigkeit (DE-588)4203793-1 gnd Plastizität (DE-588)4046283-3 gnd Versetzung Kristallographie (DE-588)4187993-4 gnd Beweglichkeit Physik (DE-588)4257325-7 gnd Wärme (DE-588)4064171-5 gnd Kristall (DE-588)4033209-3 gnd |
| topic_facet | Crystals Plastic properties Materials at high temperatures Temperaturabhängigkeit Plastizität Versetzung Kristallographie Beweglichkeit Physik Wärme Kristall |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010352045&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV012398006 |
| work_keys_str_mv | AT caillarddaniel thermallyactivatedmechanismsincrystalplasticity AT martinjeanluc thermallyactivatedmechanismsincrystalplasticity |
Inhaltsverzeichnis
Paper/Kapitel scannen lassen
Paper/Kapitel scannen lassen
Teilbibliothek Maschinenwesen
| Signatur: |
0702 MTA 070f 2004 A 70 Lageplan |
|---|---|
| Exemplar 1 | Ausleihbar Am Standort |