Mechanical behavior of materials:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cambridge [u.a.]
Cambridge Univ. Pr.
2009
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| Ausgabe: | 2. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben. - Hier auch später erschienene, unveränderte Nachdrucke |
| Beschreibung: | XXII, 856 S. Ill., graph. Darst. |
| ISBN: | 9780521866750 |
Internformat
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| 245 | 1 | 0 | |a Mechanical behavior of materials |c Marc André Meyers ; Krishan Kumar Chawla |
| 250 | |a 2. ed. | ||
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Datensatz im Suchindex
| _version_ | 1804138830272397312 |
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| adam_text | MECHANICAL BEHAVIOR OF MATERIALS MARC ANDRE MEYERS UNIVERSITY OF
CALIFORNIA, SAN DIEGO KRISHAN KUMAR CHAWLA UNIVERSITY OF ALABAMA AT
BIRMINGHAM M CAMBRIDGE UNIVERSITY PRESS CONTENTS PREFACE TO THE FIRST
EDITION PAGE XVII PREFACE TO THE SECOND EDITION XXI A NOTE TO THE READER
XXIII CHAPTER L.L 1.2 1.3 1.4 1 MATERIALS: STRUCTURE, PROPERTIES, AND
PERFORMANCE INTRODUCTION MONOLITHIC, COMPOSITE, AND HIERARCHICAL
MATERIALS STRUCTURE OF MATERIALS 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6
1.3.7 1.3.8 1.3.9 1.3.10 1.3.11 1.3.12 1.3.13 CRYSTAL STRUCTURES METALS
CERAMICS GLASSES POLYMERS LIQUID CRYSTALS BIOLOGICAL MATERIALS AND
BIOMATERIALS POROUS AND CELLULAR MATERIALS NANO- AND MICROSTRUCTURE OF
BIOLOGICAL MATERIALS THE SPONGE SPICULE: AN EXAMPLE OF A BIOLOGICAL
MATERIAL ACTIVE (OR SMART) MATERIALS ELECTRONIC MATERIALS NANOTECHNOLOGY
STRENGTH OF REAL MATERIALS SUGGESTED READING EXERCISES L L 3 15 16 19 25
30 31 39 40 44 45 56 57 58 60 61 64 65 CHAPTER 2 I ELASTICITY AND
VISCOELASTICITY 71 2.1 INTRODUCTION 71 2.2 LONGITUDINAL STRESS AND
STRAIN 72 2.3 STRAIN ENERGY (OR DEFORMATION ENERGY) DENSITY 77 2.4 SHEAR
STRESS AND STRAIN 80 2.5 POISSON S RATIO 83 2.6 MORE COMPLEX STATES OF
STRESS 85 2.7 GRAPHICAL SOLUTION OF A BIAXIAL STATE OF STRESS: THE MOHR
CIRCLE 89 2.8 PURE SHEAR: RELATIONSHIP BETWEEN G AND E 95 2.9
ANISOTROPIC EFFECTS 96 2.10 ELASTIC PROPERTIES OF POLYCRYSTALS 107 2.11
ELASTIC PROPERTIES OF MATERIALS NO 2.11.1 ELASTIC PROPERTIES OF METALS
111 2.11.2 ELASTIC PROPERTIES OF CERAMICS 111 2.11.3 ELASTIC PROPERTIES
OF POLYMERS 116 2.11.4 ELASTIC CONSTANTS OF UNIDIRECTIONAL FIBER
REINFORCED COMPOSITE 117 CONTENTS 2.12 VISCOELASTICITY 120 2.12.1
STORAGE AND LOSS MODULI 124 2.13 RUBBER ELASTICITY 126 2.14
MOONEY-RIVLIN EQUATION 131 2.15 ELASTIC PROPERTIES OF BIOLOGICAL
MATERIALS 134 2.15.1 BLOOD VESSELS 134 2.15.2 ARTICULAR CARTILAGE 137
2.15.3 MECHANICAL PROPERTIES AT THE NANOMETER LEVEL 140 2.16 ELASTIC
PROPERTIES OF ELECTRONIC MATERIALS 143 2.17 ELASTIC CONSTANTS AND
BONDING 145 SUGGESTED READING 155 EXERCISES 155 CHAPTER 3 I PLASTICITY
I6I 3.1 INTRODUCTION 161 3.2 PLASTIC DEFORMATION IN TENSION 163 3.2.1
TENSILE CURVE PARAMETERS 171 3.2.2 NECKING 172 3.2.3 STRAIN RATE EFFECTS
176 3.3 PLASTIC DEFORMATION IN COMPRESSION TESTING 183 3.4 THE
BAUSCHUNGER EFFECT 187 3.5 PLASTIC DEFORMATION OF POLYMERS 188 3.5.1
STRESS-STRAIN CURVES 188 3.5.2 GLASSY POLYMERS 189 3.5.3 SEMICRYSTALLINE
POLYMERS 190 3.5.4 VISCOUS FLOW 191 3.5.5 ADIABATIC HEATING 192 3.6
PLASTIC DEFORMATION OF GLASSES 193 3.6.1 MICROSCOPIC DEFORMATION
MECHANISM 195 3.6.2 TEMPERATURE DEPENDENCE AND VISCOSITY 197 3.7 FLOW,
YIELD, AND FAILURE CRITERIA 199 3.7.1 MAXIMUM-STRESS CRITERION (RANKINE)
200 3.7.2 MAXIMUM-SHEAR-STRESS CRITERION (TRESCA) 200 3.7.3
MAXIMUM-DISTORTION-ENERGY CRITERION (VON MISES) 201 3.7.4 GRAPHICAL
REPRESENTATION AND EXPERIMENTAL VERIFICATION OF RANKINE, TRESCA, AND VON
MISES CRITERIA 201 3.7.5 FAILURE CRITERIA FOR BRITTLE MATERIALS 205
3.7.6 YIELD CRITERIA FOR DUCTILE POLYMERS 209 3.7.7 FAILURE CRITERIA FOR
COMPOSITE MATERIALS 211 3.7.8 YIELD AND FAILURE CRITERIA FOR OTHER
ANISOTROPIC MATERIALS 213 3.8 HARDNESS 214 3.8.1 MACROINDENTATION TESTS
216 3.8.2 MICROINDENTATION TESTS 221 3.8.3 NANOINDENTATION 225 3.9
FORMABILITY: IMPORTANT PARAMETERS 229 3.9.1 PLASTIC ANISOTROPY 231
CONTENTS 3.9.2 PUNCH-STRETCH TESTS AND FORMING-LIMIT CURVES (OR
KEELER-GOODWIN DIAGRAMS) 232 3.10 MUSCLE FORCE 237 3.11 MECHANICAL
PROPERTIES OF SOME BIOLOGICAL MATERIALS 241 SUGGESTED READING 245
EXERCISES 246 CHAPTER 4 I IMPERFECTIONS: POINT AND LINE DEFECTS 251 4.1
INTRODUCTION 251 4.2 THEORETICAL SHEAR STRENGTH 252 4.3 ATOMIC OR
ELECTRONIC POINT DEFECTS 254 4.3.1 EQUILIBRIUM CONCENTRATION OF POINT
DEFECTS 256 4.3.2 PRODUCTION OF POINT DEFECTS 259 4.3.3 EFFECT OF POINT
DEFECTS ON MECHANICAL PROPERTIES 260 4.3.4 RADIATION DAMAGE 261 4.3.5
ION IMPLANTATION 265 4.4 LINE DEFECTS 266 4.4.1 EXPERIMENTAL OBSERVATION
OF DISLOCATIONS 270 4.4.2 BEHAVIOR OF DISLOCATIONS 273 4.4.3 STRESS
FIELD AROUND DISLOCATIONS 275 4.4.4 ENERGY OF DISLOCATIONS 278 4.4.5
FORCE REQUIRED TO BOW A DISLOCATION 282 4.4.6 DISLOCATIONS IN VARIOUS
STRUCTURES 284 4.4.7 DISLOCATIONS IN CERAMICS 293 4.4.8 SOURCES OF
DISLOCATIONS 298 4.4.9 DISLOCATION PILEUPS 302 4.4.10 INTERSECTION OF
DISLOCATIONS 304 4.4.11 DEFORMATION PRODUCED BY MOTION OF DISLOCATIONS
(OROWAN S EQUATION) 306 4.4.12 THE PEIERLS-NABARRO STRESS 309 4.4.13 THE
MOVEMENT OF DISLOCATIONS: TEMPERATURE AND STRAIN RATE EFFECTS 310 4.4.14
DISLOCATIONS IN ELECTRONIC MATERIALS 313 SUGGESTED READING 316 EXERCISES
317 CHAPTER 5 IMPERFECTIONS: INTERFACIAL AND VOLUMETRIC DEFECTS 321 5.1
INTRODUCTION 321 5.2 GRAIN BOUNDARIES 321 5.2.1 TILT AND TWIST
BOUNDARIES 326 5.2.2 ENERGY OF A GRAIN BOUNDARY 328 5.2.3 VARIATION OF
GRAIN-BOUNDARY ENERGY WITH MISORIENTATION 330 5.2.4 COINCIDENCE SITE
LATTICE (CSL) BOUNDARIES 332 5.2.5 GRAIN-BOUNDARY TRIPLE JUNCTIONS 334
5.2.6 GRAM-BOUNDARY DISLOCATIONS AND LEDGES 334 5.2.7 GRAIN BOUNDARIES
AS A PACKING OF POLYHEDRAL UNITS 336 5.3 TWINNING AND TWIN BOUNDARIES
336 5.3.1 CRYSTALLOGRAPHY AND MORPHOLOGY 337 5.3.2 MECHANICAL EFFECTS
341 5.4 GRAIN BOUNDARIES IN PLASTIC DEFORMATION (GRAIN-SIZE
STRENGTHENING) 345 5.4.1 HALL-PETCH THEORY 348 5.4.2 COTTRELL S THEORY
349 5.4.3 LI S THEORY 350 5.4.4 MEYERS-ASHWORTH THEORY 351 5.5 OTHER
INTERNAL OBSTACLES 353 5.6 NANOCRYSTALLINE MATERIALS 355 5.7 VOLUMETRIC
OR TRIDIMENSIONAL DEFECTS 358 5.8 IMPERFECTIONS IN POLYMERS 361
SUGGESTED READING 364 EXERCISES 364 CHAPTER 6 GEOMETRY OF DEFORMATION
AND WORK-HARDENING 369 6.1 INTRODUCTION 369 6.2 GEOMETRY OF DEFORMATION
373 6.2.1 STEREOGRAPHIC PROJECTIONS 373 6.2.2 STRESS REQUIRED FOR SLIP
374 6.2.3 SHEAR DEFORMATION 380 6.2.4 SLIP IN SYSTEMS AND WORK-HARDENING
381 6.2.5 INDEPENDENT SLIP SYSTEMS IN POLYCRYSTALS 384 6.3
WORK-HARDENING IN POLYCRYSTALS 384 6.3.1 TAYLOR S THEORY 386 6.3.2
SEEGER S THEORY 388 6.3.3 KUHLMANN-WILSDORFS THEORY 388 6.4 SOFTENING
MECHANISMS 392 6.5 TEXTURE STRENGTHENING 395 SUGGESTED READING 399
EXERCISES 399 CHAPTER 7 I FRACTURE: MACROSCOPIC ASPECTS 404 7.1
INTRODUCTION 404 7.2 THEORECTICAL TENSILE STRENGTH 406 7.3 STRESS
CONCENTRATION AND GRIFFITH CRITERION OF FRACTURE 409 7.3.1 STRESS
CONCENTRATIONS 409 7.3.2 STRESS CONCENTRATION FACTOR 409 7.4 GRIFFITH
CRITERION 416 7.5 CRACK PROPAGATION WITH PLASTICITY 419 7.6 LINEAR
ELASTIC FRACTURE MECHANICS 421 7.6.1 FRACTURE TOUGHNESS 422 CONTENTS
7.6.2 HYPOTHESES OF LEFM 423 7.6.3 CRACK-TIP SEPARATION MODES 423 7.6.4
STRESS FIELD IN AN ISOTROPIC MATERIAL IN THE VICINITY OF A CRACK TIP 424
7.6.5 DETAILS OF THE CRACK-TIP STRESS FIELD IN MODE I 425 7.6.6
PLASTIC-ZONE SIZE CORRECTION 428 7.6.7 VARIATION IN FRACTURE TOUGHNESS
WITH THICKNESS 431 7.7 FRACTURE TOUGHNESS PARAMETERS 434 7.7.1 CRACK
EXTENSION FORCE G 434 7.7.2 CRACK OPENING DISPLACEMENT 437 7.7.3 J
INTEGRAL 440 7.7.4 R CURVE 443 7.7.5 RELATIONSHIPS AMONG DIFFERENT
FRACTURE TOUGHNESS PARAMETERS 444 7.8 IMPORTANCE OF * IC IN PRACTICE 445
7.9 POST-YIELD FRACTURE MECHANICS 448 7.10 STATISTICAL ANALYSIS OF
FAILURE STRENGTH 449 APPENDIX: STRESS SINGULARITY AT CRACK TIP 458
SUGGESTED READING 460 EXERCISES 460 CHAPTER 8 I FRACTURE: MICROSCOPIC
ASPECTS 466 8.1 INTRODUCTION 466 8.2 FACTURE IN METALS 468 8.2.1 CRACK
NUCLEATION 468 8.2.2 DUCTILE FRACTURE 469 8.2.3 BRITTLE, OR CLEAVAGE,
FRACTURE 480 8.3 FACTURE IN CERAMICS 487 8.3.1 MICROSTRUCTURAL ASPECTS
487 8.3.2 EFFECT OF GRAIN SIZE ON STRENGTH OF CERAMICS 494 8.3.3
FRACTURE OF CERAMICS IN TENSION 496 8.3.4 FRACTURE IN CERAMICS UNDER
COMPRESSION 499 8.3.5 THERMALLY INDUCED FRACTURE IN CERAMICS 504 8.4
FRACTURE IN POLYMERS 507 8.4.1 BRITTLE FRACTURE 507 8.4.2 CRAZING AND
SHEAR YIELDING 508 8.4.3 FRACTURE IN SEMICRYSTALLINE AND CRYSTALLINE
POLYMERS 512 8.4.4 TOUGHNESS OF POLYMERS 513 8.5 FRACTURE AND TOUGHNESS
OF BIOLOGICAL MATERIALS 517 8.6 FACTURE MECHANISM MAPS 521 SUGGESTED
READING 521 EXERCISES 521 CHAPTER 9 I FRACTURE TESTING 525 9.1
INTRODUCTION 525 9.2 IMPACT TESTING 525 9.2.1 CHARPY IMPACT TEST 526 XII
CONTENTS 9.2.2 DROP-WEIGHT TEST 529 9.2.3 INSTRUMENTED CHARPY IMPACT
TEST 531 9.3 PLANE-STRAIN FRACTURE TOUGHNESS TEST 532 9.4 CRACK OPENING
DISPLACEMENT TESTING 537 9.5 J-INTEGRAL TESTING 538 9.6 FLEXURE TEST 540
9.6.1 THREE-POINT BEND TEST 541 9.6.2 FOUR-POINT BENDING 542 9.6.3
INTERLAMINAR SHEAR STRENGTH TEST 543 9.7 FRACTURE TOUGHNESS TESTING OF
BRITTLE MATERIALS 545 9.7.1 CHEVRON NOTCH TEST 547 9.7.2 INDENTATION
METHODS FOR DETERMINING TOUGHNESS 549 9.8 ADHESION OF THIN FILMS TO
SUBSTRATES 552 SUGGESTED READING 553 EXERCISES 553 CHAPTER 10 SOLID
SOLUTION, PRECIPITATION, AND DISPERSION STRENGTHENING 558 10.1
INTRODUCTION 558 10.2 SOLID-SOLUTION STRENGTHENING 559 10.2.1 ELASTIC
INTERACTION 560 10.2.2 OTHER INTERACTIONS 564 10.3 MECHANICAL EFFECTS
ASSOCIATED WITH SOLID SOLUTIONS 564 10.3.1 WELL-DEFINED YIELD POINT IN
THE STRESS-STRAIN CURVES 565 10.3.2 PLATEAU IN THE STRESS-STRAIN CURVE
AND LUEDERS BAND 566 10.3.3 STRAIN AGING 567 10.3.4 SERRATED
STRESS-STRAIN CURVE 568 10.3.5 SNOEK EFFECT 569 10.3.6 BLUE BRITTLENESS
570 10.4 PRECIPITATION- AND DISPERSION-HARDENING 571 10.5
DISLOCATION-PRECIPITATE INTERACTION 579 10.6 PRECIPITATION IN
MICROALLOYED STEELS 585 10.7 DUAL-PHASE STEELS 590 SUGGESTED READING 590
EXERCISES 591 CHAPTER I I I MARTENSITIC TRANSFORMATION 594 11.1
INTRODUCTION 594 11.2 STRUCTURES AND MORPHOLOGIES OF MARTENSITE 594 11.3
STRENGTH OF MARTENSITE 600 11.4 MECHANICAL EFFECTS 603 11.5 SHAPE-MEMORY
EFFECT 608 11.5.1 SHAPE-MEMORY EFFECT IN POLYMERS 614 11.6 MARTENSITIC
TRANSFORMATION IN CERAMICS 614 SUGGESTED READING 618 EXERCISES 619
CONTENTS CHAPTER 12 SPECIAL MATERIALS: INTERMETALLICS AND FOAMS 621 12.1
12.2 12.3 12.4 INTRODUCTION SUICIDES ORDERED INTERMETALLICS 12.3.1
DISLOCATION STRUCTURES IN ORDERED INTERMETALLICS 12.3.2 EFFECT OF
ORDERING ON MECHANICAL PROPERTIES 12.3.3 DUCTILITY OF INTERMETALLICS
CELLULAR MATERIALS 12.4.1 STRUCTURE 12.4.2 MODELING OF THE MECHANICAL
RESPONSE 12.4.3 COMPARISON OF PREDICTIONS AND EXPERIMENTAL RESULTS
12.4.4 SYNTACTIC FOAM 12.4.5 PLASTIC BEHAVIOR OF POROUS MATERIALS
SUGGESTED READING EXERCISES CHAPTER 13 1 CREEP AND SUPERPLASTICITY 13.1
13.2 13.3 13.4 13.5 13.6 13.7 13.8 13.9 13.10 13.11 13.12 INTRODUCTION
CORRELATION AND EXTRAPOLATION METHODS FUNDAMENTAL MECHANISMS RESPONSIBLE
FOR CREEP DIFFUSION CREEP DISLOCATION (OR POWER LAW) CREEP DISLOCATION
GLIDE GRAIN-BOUNDARY SLIDING DEFORMATION-MECHANISM (WEERTMAN-ASHBY) MAPS
CREEP-INDUCED FRACTURE HEAT-RESISTANT MATERIALS CREEP IN POLYMERS
DIFFUSION-RELATED PHENOMENA IN ELECTRONIC 621 621 622 624 628 634 639
639 639 645 645 646 650 650 653 653 659 665 666 670 673 675 676 678 681
688 MATERIALS 695 13.13 SUPERPLASTICITY 697 SUGGESTED READING 705
EXERCISES 705 CHAPTER 14 I FATIGUE 713 14.1 INTRODUCTION 713 14.2
FATIGUE PARAMETERS AND S-N (WOEHLER) CURVES 714 14.3 FATIGUE STRENGTH OR
FATIGUE LIFE 716 14.4 EFFECT OF MEAN STRESS ON FATIGUE LIFE 719 14.5
EFFECT OF FREQUENCY 721 14.6 CUMULATIVE DAMAGE AND LIFE EXHAUSTION 721
14.7 MECHANISMS OF FATIGUE 725 14.7.1 FATIGUE CRACK NUCLEATION 725
14.7.2 FATIGUE CRACK PROPAGATION 730 14.8 LINEAR ELASTIC FRACTURE
MECHANICS APPLIED TO FATIGUE 735 14.8.1 FATIGUE OF BIOMATERIALS 744 14.9
HYSTERETIC HEATING IN FATIGUE 746 14.10 ENVIRONMENTAL EFFECTS IN FATIGUE
748 14.11 FATIGUE CRACK CLOSURE 748 14.12 THE TWO-PARAMETER APPROACH 749
14.13 THE SHORT-CRACK PROBLEM IN FATIGUE 750 14.14 FATIGUE TESTING 751
14.14.1 CONVENTIONAL FATIGUE TESTS 751 14.14.2 ROTATING BENDING MACHINE
751 14.14.3 STATISTICAL ANALYSIS OF S-N CURVES 753 14.14.4
NONCONVENTIONAL FATIGUE TESTING 753 14.14.5 SERVOHYDRAULIC MACHINES 755
14.14.6 LOW-CYCLE FATIGUE TESTS 756 14.14.7 FATIGUE CRACK PROPAGATION
TESTING 757 SUGGESTED READING 758 EXERCISES 759 CHAPTER 15 I COMPOSITE
MATERIALS 765 15.1 INTRODUCTION 765 15.2 TYPES OF COMPOSITES 765 15.3
IMPORTANT REINFORCEMENTS AND MATRIX MATERIALS 767 15.3.1 MICROSTRUCTURAL
ASPECTS AND IMPORTANCE OF THE MATRIX 769 15.4 INTERFACES IN COMPOSITES
770 15.4.1 CRYSTALLOGRAPHIC NATURE OF THE FIBER-MATRIX INTERFACE 771
15.4.2 INTERFACIAL BONDING IN COMPOSITES 772 15.4.3 INTERFACIAL
INTERACTIONS 773 15.5 PROPERTIES OF COMPOSITES 774 15.5.1 DENSITY AND
HEAT CAPACITY 775 15.5.2 ELASTIC MODULI 775 15.5.3 STRENGTH 780 15.5.4
ANISOTROPIC NATURE OF FIBER REINFORCED COMPOSITES 783 15.5.5 AGING
RESPONSE OF MATRIX IN MMCS 785 15.5.6 TOUGHNESS 785 15.6 LOAD TRANSFER
FROM MATRIX TO FIBER 788 15.6.1 FIBER AND MATRIX ELASTIC 789 15.6.2
FIBER ELASTIC AND MATRIX PLASTIC 792 15.7 FRACTURE IN COMPOSITES 794
15.7.1 SINGLE AND MULTIPLE FRACTURE 795 15.7.2 FAILURE MODES IN
COMPOSITES 796 15.8 SOME FUNDAMENTAL CHARACTERISTICS OF COMPOSITES 799
15.8.1 HETEROGENEITY 799 CONTENTS 15.8.2 ANISOTROPY 799 15.8.3 SHEAR
COUPLING 801 15.8.4 STATISTICAL VARIATION IN STRENGTH 802 15.9
FUNCTIONALLY GRADED MATERIALS 803 15.10 APPLICATIONS 803 15.10.1
AEROSPACE APPLICATIONS 803 15.10.2 NONAEROSPACE APPLICATIONS 804 15.11
LAMINATED COMPOSITES 806 SUGGESTED READING 809 EXERCISES 810 CHAPTER 16
I ENVIRONMENTAL EFFECTS 815 16.1 INTRODUCTION 815 16.2 ELECTROCHEMICAL
NATURE OF CORROSION IN METALS 815 16.2.1 GALVANIC CORROSION 816 16.2.2
UNIFORM CORROSION 817 16.2.3 CREVICE CORROSION 817 16.2.4 PITTING
CORROSION 818 16.2.5 MTERGRANULAR CORROSION 818 16.2.6 SELECTIVE
LEACHING 819 16.2.7 EROSION-CORROSION 819 16.2.8 RADIATION DAMAGE 819
16.2.9 STRESS CORROSION 819 16.3 OXIDATION OF METALS 819 16.4
ENVIRONMENTALLY ASSISTED FRACTURE IN METALS 820 16.4.1 STRESS CORROSION
CRACKING (SCC) 820 16.4.2 HYDROGEN DAMAGE IN METALS 824 16.4.3 LIQUID
AND SOLID METAL EMBRITTLEMENT 830 16.5 ENVIRONMENTAL EFFECTS IN POLYMERS
831 16.5.1 CHEMICAL OR SOLVENT ATTACK 832 16.5.2 SWELLING 832 16.5.3
OXIDATION 833 16.5.4 RADIATION DAMAGE 834 16.5.5 ENVIRONMENTAL CRAZING
835 16.5.6 ALLEVIATING THE ENVIRONMENTAL DAMAGE IN POLYMERS 836 16.6
ENVIRONMENTAL EFFECTS IN CERAMICS 836 16.6.1 OXIDATION OF CERAMICS 839
SUGGESTED READING 840 EXERCISES 840 APPENDIXES 843 INDEX 851
|
| any_adam_object | 1 |
| author | Meyers, Marc André Chawla, Krishan K. 1942- |
| author_GND | (DE-588)120679728 |
| author_facet | Meyers, Marc André Chawla, Krishan K. 1942- |
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| ctrlnum | (OCoLC)429486374 (DE-599)GBV568569733 |
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| dewey-ones | 620 - Engineering and allied operations |
| dewey-raw | 620.11292 |
| dewey-search | 620.11292 |
| dewey-sort | 3620.11292 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Werkstoffwissenschaften / Fertigungstechnik |
| edition | 2. ed. |
| format | Book |
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| id | DE-604.BV035402116 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:34:25Z |
| institution | BVB |
| isbn | 9780521866750 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-017322745 |
| oclc_num | 429486374 |
| open_access_boolean | |
| owner | DE-92 DE-703 DE-83 DE-573 DE-29T |
| owner_facet | DE-92 DE-703 DE-83 DE-573 DE-29T |
| physical | XXII, 856 S. Ill., graph. Darst. |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Cambridge Univ. Pr. |
| record_format | marc |
| spelling | Meyers, Marc André Verfasser aut Mechanical behavior of materials Marc André Meyers ; Krishan Kumar Chawla 2. ed. Cambridge [u.a.] Cambridge Univ. Pr. 2009 XXII, 856 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturangaben. - Hier auch später erschienene, unveränderte Nachdrucke Strength of materials Matériaux - Propriétés mécaniques Matériaux - Propriétés mécaniques ram Résistance des matériaux Résistance des matériaux ram Werkstoff (DE-588)4065579-9 gnd rswk-swf Mechanische Eigenschaft (DE-588)4217961-0 gnd rswk-swf Werkstoff (DE-588)4065579-9 s Mechanische Eigenschaft (DE-588)4217961-0 s DE-604 Chawla, Krishan K. 1942- Verfasser (DE-588)120679728 aut DE-601 pdf/application http://www.gbv.de/dms/bowker/toc/9780521866750.pdf Inhaltsverzeichnis GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017322745&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Meyers, Marc André Chawla, Krishan K. 1942- Mechanical behavior of materials Strength of materials Matériaux - Propriétés mécaniques Matériaux - Propriétés mécaniques ram Résistance des matériaux Résistance des matériaux ram Werkstoff (DE-588)4065579-9 gnd Mechanische Eigenschaft (DE-588)4217961-0 gnd |
| subject_GND | (DE-588)4065579-9 (DE-588)4217961-0 |
| title | Mechanical behavior of materials |
| title_auth | Mechanical behavior of materials |
| title_exact_search | Mechanical behavior of materials |
| title_full | Mechanical behavior of materials Marc André Meyers ; Krishan Kumar Chawla |
| title_fullStr | Mechanical behavior of materials Marc André Meyers ; Krishan Kumar Chawla |
| title_full_unstemmed | Mechanical behavior of materials Marc André Meyers ; Krishan Kumar Chawla |
| title_short | Mechanical behavior of materials |
| title_sort | mechanical behavior of materials |
| topic | Strength of materials Matériaux - Propriétés mécaniques Matériaux - Propriétés mécaniques ram Résistance des matériaux Résistance des matériaux ram Werkstoff (DE-588)4065579-9 gnd Mechanische Eigenschaft (DE-588)4217961-0 gnd |
| topic_facet | Strength of materials Matériaux - Propriétés mécaniques Résistance des matériaux Werkstoff Mechanische Eigenschaft |
| url | http://www.gbv.de/dms/bowker/toc/9780521866750.pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017322745&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT meyersmarcandre mechanicalbehaviorofmaterials AT chawlakrishank mechanicalbehaviorofmaterials |
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