Microstructure and properties of high-temperature superconductors:
Gespeichert in:
| Beteilige Person: | |
|---|---|
| Format: | Buch |
| Sprache: | Englisch |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2013
|
| Ausgabe: | 2. ed. |
| Schlagwörter: | |
| Links: | http://deposit.dnb.de/cgi-bin/dokserv?id=4131574&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025742606&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| Umfang: | XIX, 779 S. Ill., graph. Darst. 235 mm x 155 mm |
| ISBN: | 9783642344404 3642344402 |
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| 100 | 1 | |a Parinov, Ivan A. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Microstructure and properties of high-temperature superconductors |c I. A. Parinov |
| 250 | |a 2. ed. | ||
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2013 | |
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Datensatz im Suchindex
| _version_ | 1819256275549028352 |
|---|---|
| adam_text | CONTENTS
1 SUPERCONDUCTORS AND SUPERCONDUCTIVITY: GENERAL ISSUES 1
1.1 SUPERCONDUCTIVITY DISCOVERY 1
1.2 PROGRESS AND PROGNOSIS OF SUPERCONDUCTIVITY APPLICATIONS. ... 5
1.2.1 TECHNICAL DIRECTIONS 8
1.2.2 ELECTRONICS 9
1.2.3 TRANSPORTATION 15
1.2.4 MEDICINE 18
1.2.5 MECHANICAL SYSTEMS 19
1.2.6 SCIENTIFIC RESEARCH 20
1.2.7 ELECTRIC POWER 25
1.3 SUPERCONDUCTIVITY PHENOMENA 30
1.3.1 CRITICAL FIELD 30
1.3.2 CRITICAL CURRENT 31
1.3.3 THE MEISSNER EFFECT 32
1.3.4 EQUIPOTENTIAL LINES FOR SUPERCONDUCTIVE INCLUSION ... 35
1.3.5 THE COOPER EFFECT 36
1.3.6 THE ISOTOPE EFFECT 38
1.3.7 PENETRATION DEPTH AND COHERENCE LENGTH 38
1.3.8 WEAK SUPERCONDUCTIVITY
AND THE JOSEPHSON EFFECTS 40
1.4 TYPE-I SUPERCONDUCTORS 43
1.4.1 MAGNETIC PROPERTIES OF TYPE-I SUPERCONDUCTORS 43
1.4.2 THE INTERMEDIATE STATE 45
1.4.3 INTERMEDIATE STATE AND SCALING LAWS 47
1.5 TYPE-II SUPERCONDUCTORS 49
1.6 THEORIES OF SUPERCONDUCTIVITY 50
HTTP://D-NB.INFO/1026468655
XIV
CONTENTS
1.7 CONNECTION OF SUPERCONDUCTIVITY
WITH OTHER PHYSICAL RESEARCHES 59
1.7.1 DEVELOPMENT OF COMMON RESEARCH METHODS
OF SUPERCONDUCTIVITY, CONDENSED MATTER PHYSICS,
ELECTROMAGNETISM AND GRAVITATION 59
1.7.2 SPONTANEOUS SYMMETRY BREAKING OR ON CONNECTION
BETWEEN SUPERCONDUCTIVITY AND ELEMENTARY
PARTICLE PHYSICS 61
1.7.3 FIELD THEORY AND STUDY OF SUPERCONDUCTING
PHASE TRANSITION 66
1.7.4 OPTICAL CONDUCTIVITY AND SPATIAL HETEROGENEITY
OF HTSC 68
1.7.5 ANALOGY BETWEEN SUPERCONDUCTING
CURRENT AND LASER 71
2 HIGH-TEMPERATURE SUPERCONDUCTORS. OVERVIEW 73
2.1 GENERAL REMARKS ON TYPE-II SUPERCONDUCTORS 73
2.2 HIGH-TEMPERATURE SUPERCONDUCTIVE CUPRATES 75
2.2.1 DOPING OF CUPRATES 75
2.2.2 ANDERSON PHASE DIAGRAM OF CUPRATE
SUPERCONDUCTIVITY 79
2.2.3 INFLUENCE OF HIGH PRESSURE ON SUPERCONDUCTIVITY .... 82
2.2.4 SPECIFIC-HEAT ANOMALY AT TEMPERATURE
OF SUPERCONDUCTING TRANSITION IN HTSC 87
2.2.5 COHERENCE LENGTH AND HTSC ANISOTROPY 89
2.2.6 VORTEX STRUCTURE OF HTSC AND MAGNETIC
FLUX PINNING 92
2.2.7 INTERACTIONS OF VORTICES WITH PINNING CENTERS 96
2.2.8 FUTURE STUDIES OF VORTEX STATE 99
2.2.9 ENERGY GAP PROPERTIES OF SUPERCONDUCTORS 101
2.3 HIGH-TEMPERATURE SUPERCONDUCTIVE OXYPNICTIDES 105
2.4 FUTURE STUDIES OF HIGH-TEMPERATURE
SUPERCONDUCTIVITY MECHANISM 109
2.5 WEAK LINKS AND JOSEPHSON JUNCTIONS ILL
2.5.1 CLASSIFICATION OF JOSEPHSON JUNCTIONS 113
2.5.2 TUNNELING JUNCTIONS BASED ON HIGH-TEMPERATURE
SUPERCONDUCTORS 115
3 COMPOSITION FEATURES AND HTSC PREPARATION TECHNIQUES 125
3.1 YBCO FILMS AND COATED CONDUCTORS 125
3.2 BSCCO FILMS, TAPES AND WIRES 137
3.3 FILMS AND WIRES, BASED ON THALLIUM
AND MERCURIAL CUPRATES 151
3.4 BSCCO BULKS 153
CONTENTS XV
3.5 Y(/?E)BCO BULKS 160
3.6 SUPERCONDUCTIVE PNICTIDES 168
4 EXPERIMENTAL INVESTIGATIONS OF HTSC 171
4.1 EXPERIMENTAL METHODS OF HTSC INVESTIGATIONS 171
4.1.1 SPECIAL TECHNIQUES 171
4.1.2 ARPES 176
4.1.3 MEASURING METHODS OF MECHANICAL
AND STRENGTH PROPERTIES 179
4.1.4 ACOUSTIC EMISSION METHOD 184
4.1.5 OPTICAL INTERFEROMETRY 192
4.2 INTERGRANULAR BOUNDARIES IN HTSC 199
4.3 SUPERCONDUCTING COMPOSITES, BASED ON BSCCO 211
4.3.1 BSCCO/AG TAPES 211
4.3.2 IRREVERSIBILITY LINES FOR BSCCO 224
4.3.3 BSCCO BULKS 226
4.4 MELT-PROCESSED Y(/?)BCO 239
4.4.1 MICROSTRUCTURE FEATURES 239
4.4.2 GROWTH PROCESSES IN SEEDED SAMPLE 242
4.4.3 BEHAVIOR OF 211(422) DISPERSE PHASE 246
4.4.4 EFFECTS OF DOPING ADDITIVES 254
4.4.5 MECHANICAL LOADING EFFECTS 261
4.4.6 MECHANICAL AND STRENGTH PROPERTIES 263
5 CARBON PROBLEM 273
5.1 YBCO SYSTEM 273
5.2 BSCCO SYSTEMS 282
5.3 CARBON EMBRITTLEMENT AND FRACTURE
OF YBCO SUPERCONDUCTOR 285
5.3.1 MATHEMATICAL MODEL FOR CARBONATE PRECIPITATION
AND FRACTURE 286
5.3.2 DISCUSSION OF RESULTS 294
5.4 MODELING OF CARBON SEGREGATION AND FRACTURE PROCESSES
OF HTSC 296
5.4.1 EQUILIBRIUM SLOW AND FAST CRACK GROWTH 297
5.4.2 STEADY-STATE CRACK GROWTH 300
5.4.3 SOME NUMERICAL RESULTS 303
6 GENERAL ASPECTS OF HTSC MODELING 307
6.1 YIELD CRITERIA AND FLOW RULES FOR HTSC
POWDERS COMPACTION 309
6.1.1 HTSC COMPACTION AND YIELD CRITERION 310
6.1.2 NON-ASSOCIATED PLASTICITY OF HTSC POWDERS 312
XVI CONTENTS
6.2 VOID TRANSFORMATIONS DURING SINTERING OF SAMPLE 318
6.2.1 VOID SEPARATION FROM INTERGRANULAR BOUNDARY 320
6.2.2 SIZE TRAJECTORIES IN THE PORE/GRAIN BOUNDARY
SYSTEM DURING SINTERING 327
6.2.3 ESTIMATION OF PORE SEPARATION EFFECTS FOR HTSC .... 335
6.3 MODELING EPITAXIAL GROWTH OF THIN FILMS 337
6.3.1 SHARP INTERFACE FORMULATION 338
6.3.2 EPITAXIAL GROWTH INVOLVING ELASTICITY 345
6.4 HTSC MICROSTRUCTURE FORMATION DURING SINTERING 348
6.5 MICROCRACKING OF INTERGRANULAR BOUNDARIES AT
SAMPLE COOLING 352
6.6 STUDY OF STATISTICAL PROPERTIES OF THE MODEL STRUCTURES 355
6.7 MODELING OF MACROCRACKS 358
7 MODELING OF BSCCO SYSTEMS AND COMPOSITES 365
7.1 TRANSFORMATION OF BI-2212 TO BI-2223 PHASE 365
7.1.1 EDGE DISLOCATIONS AS CHANNELS
FOR FAST ION DIFFUSION 366
7.1.2 THE LAYER-RIGIDITY MODEL 367
7.1.3 DYNAMICS OF BI-2223 PHASE GROWTH 371
7.1.4 FORMATION ENERGY OF BI-2223 PHASE 374
7.1.5 EFFECT OF DEFORMATION ON BI-2212/BI-2223
TRANSFORMATION 376
7.2 MODELING OF PREPARATION PROCESSES FOR BSCCO/AG TAPES .... 379
7.2.1 SAMPLE TEXTURING BY EXTERNAL MAGNETIC FIELD 379
7.2.2 DEFORMATION AT TAPE COOLING 381
7.2.3 EFFECTS OF MECHANICAL LOADING 382
7.2.4 MATHEMATICAL MODELING OF COLD DRAWING
OF FILAMENTARY COMPOSITES 388
7.2.5 MATHEMATICAL MODELING OF COLD ROLLING 397
7.2.6 FINITE-ELEMENT MODELING
OF DEFORMATION PROCESSES 401
8 MODELING OF YBCO OXIDE SUPERCONDUCTORS 407
8.1 MODELING OF 123 PHASE SOLIDIFICATION FROM LIQUID 407
8.1.1 HETEROGENEOUS MECHANISM 407
8.1.2 MODELS BASED ON YTTRIUM DIFFUSION IN LIQUID 407
8.1.3 MODELS BASED ON INTERFACE PHENOMENA 414
8.1.4 MODELS OF PLATELETS-LIKE GROWTH OF 123 PHASE 420
8.1.5 MODELING OF SOLIDIFICATION KINETICS 427
8.1.6 MULTI-PHASE FIELD METHOD 430
8.2 STRESS-STRAIN STATE OF HTSC IN APPLIED MAGNETIC FIELDS .... 435
CONTENTS XVII
9 MODELING CONDUCTIVE AND ELASTIC PROPERTIES
OF SUPERCONDUCTIVE COMPOSITES 439
9.1 EFFECTIVE CONDUCTIVITY OF SUPERCONDUCTIVE COMPOSITES 440
9.1.1 TWO-PHASE COMPOSITES WITH PHASE-INTERCHANGE
PROPERTIES 440
9.1.2 CONDUCTIVITY OF COMPOSITES WITH PERIODIC ARRAYS
OF SUPERCONDUCTIVE INCLUSIONS 442
9.1.3 EFFECTIVE MEDIUM APPROXIMATION FOR DEFINITION
OF EFFECTIVE CONDUCTIVITY OF SUPERCONDUCTIVE
COMPOSITE 443
9.1.4 CLUSTER EXPANSIONS 446
9.1.5 STRONG CONTRAST EXPANSIONS 447
9.1.6 STRONG BOUND ESTIMATIONS 449
9.1.7 IMPROVED ESTIMATIONS OF RANGE BOUNDS
FOR EFFECTIVE CONDUCTIVITY OF SUPERCONDUCTIVE
COMPOSITES 452
9.2 EFFECTIVE ELASTICITY OF SUPERCONDUCTIVE COMPOSITES 455
9.2.1 EFFECTIVE MEDIUM APPROXIMATIONS FOR DEFINITION
OF EFFECTIVE ELASTIC MODULI 456
9.2.2 STRONG BOUND ESTIMATIONS FOR ELASTIC PROPERTIES 457
9.3 COUPLES BETWEEN CONDUCTIVITY AND ELASTIC PROPERTIES 459
9.4 ASYMPTOTICAL METHODS FOR DEFINITION OF PROPERTIES
OF SUPERCONDUCTIVE COMPOSITES 463
9.4.1 CONDUCTIVITY OF FILAMENTARY COMPOSITES 464
9.4.2 CONDUCTIVITY OF GRANULAR COMPOSITES 474
9.4.3 EFFECTIVE ELASTIC PROPERTIES OF COMPOSITES 480
10 COMPUTER SIMULATION OF HTSC MICROSTRUCTURE
AND TOUGHENING MECHANISMS 483
10.1 YBCO CERAMIC SINTERING AND FRACTURE 483
10.1.1 SINTERING MODEL OF SUPERCONDUCTING CERAMIC 483
10.1.2 CERAMIC CRACKING DURING COOLING 486
10.1.3 FORMATION OF MICROCRACKS AROUND 211 PARTICLES
IN 123 MATRIX 488
10.1.4 FRACTURE FEATURES AT EXTERNAL LOADING 492
10.1.5 CRACK TIP SHIELDING INTRODUCED ITS GEOMETRY 494
10.1.6 MICROCRACKING PROCESS ZONE NEAR MACROCRACK 498
10.1.7 CRACK BRANCHING 502
10.1.8 CRACK BRIDGING 504
10.1.9 SOME NUMERICAL RESULTS 510
10.2 CRACK SHIELDING PROCESSES IN FERROELASTICS
AND FERROELECTRICS 516
10.2.1 FERROELASTICS AND FERROELECTRICS WITH EFFECT
OF NEGATIVE STIFFNESS OF COMPONENTS 517
XVIII
CONTENTS
10.2.2 FRACTURE FEATURES IN DOMAIN STRUCTURE
OF FERROELECTRIC 525
10.2.3 DOMAIN STRUCTURE AND FRACTURE
OF FERROELECTRIC CERAMIC 529
10.2.4 INFLUENCE OF DOMAIN SWITCHING NEAR
THE CRACK ON FRACTURE TOUGHNESS 532
10.2.5 THERMODYNAMICS OF MARTENSITIC TRANSFORMATION
IN HTSC 536
10.2.6 ABOUT TOUGHENING OF SUPERCONDUCTING CERAMICS.... 539
10.3 TOUGHENING MECHANISMS FOR LARGE-GRAIN YBCO 542
10.3.1 MODEL REPRESENTATIONS 542
10.3.2 EFFECT OF 211 PARTICLES ON YBCO FRACTURE 544
10.3.3 SOME NUMERICAL RESULTS 549
10.4 FATIGUE FRACTURE 549
10.4.1 NUCLEATION AND GROWTH MECHANISMS
OF SHORT CRACKS 550
10.4.2 CRACK CLOSURE MECHANISMS 552
10.5 SMALL CYCLIC FATIGUE OF YBCO CERAMICS 553
10.5.1 MODEL REPRESENTATIONS 553
10.5.2 MICROSTRUCTURE DISSIMILITUDE EFFECT 554
10.5.3 FRACTURE ENERGY AND MICROSTRUCTURE FEATURES 557
10.5.4 SOME NUMERICAL RESULTS 560
10.6 RESIDUAL THERMAL STRESSES IN YBCO/AG COMPOSITE 560
10.7 TOUGHENING OF BI-2223 BULK, FABRICATED BY
HOT-PRESSING METHOD 562
10.7.1 MICROSTRUCTURE FORMATION BY PROCESSING 562
10.7.2 BI-2223 TOUGHENING BY SILVER DISPERSION 566
11 MECHANICAL DESTRUCTIONS OF HTSC JOSEPHSON
JUNCTIONS AND COMPOSITES 569
11.1 INTERFACE FRACTURE 570
11.2 THIN FILMS ON SUBSTRATES 574
11.3 STEP-EDGE JUNCTIONS 578
11.4 TRANSVERSE FRACTURE 581
11.5 HTSC SYSTEMS OF S-N-S TYPE 585
11.6 TOUGHENING MECHANISMS 587
11.7 CHARTS OF MATERIAL PROPERTIES AND FRACTURE 589
11.8 CONCLUDING REMARKS 593
12 MODELING OF ELECTROMAGNETIC AND SUPERCONDUCTING
PROPERTIES OF HTSC 595
12.1 MODELING OF INTERCRYSTALLINE DISLOCATIONS 595
12.2 CURRENT-LIMITING MECHANISMS AND GRAIN
BOUNDARY PINNING 600
CONTENTS XIX
12.3 VORTEX STRUCTURES AND CURRENT LINES
IN HTSC WITH DEFECTS 602
12.4 NON-LINEAR CURRENT IN SUPERCONDUCTORS WITH OBSTACLES 608
12.5 DOUBLE CRITICAL-STATE MODEL FOR TYPE-II SUPERCONDUCTORS .... 616
12.6 CURRENT PERCOLATION AND PINNING OF MAGNETIC
FLUX IN HTSC 618
12.6.1 MODEL OF NON-LINEAR RESISTOR NETWORK 620
12.6.2 SIMULATION OF CURRENT PERCOLATION AND MAGNETIC
FLUX IN YBCO COATED CONDUCTORS 628
12.6.3 MODELING OF ELECTROMAGNETIC PROPERTIES
OF BSCCO/AG TAPES 631
12.6.4 AGING AT MECHANICAL LOADING 635
12.6.5 EFFECTIVE ELECTRICAL CONDUCTIVITY OF SUPERCONDUCTING
OXIDE SYSTEMS 638
APPENDIX A: CLASSIFICATION OF SUPERCONDUCTORS 645
APPENDIX B: IMPLEMENTATION OF CARBON-INDUCED
EMBRITTLEMENT MODEL 677
APPENDIX C: MACROSTRUCTURE MODELING OF HEAT CONDUCTION 683
APPENDIX D: COMPUTATIONAL ALGORITHMS FOR DEFINITION
OF STRUCTURE-SENSITIVE PROPERTIES OF SOME
HTSC CERAMICS AND COMPOSITES 699
APPENDIX E: EDEN MODEL 709
REFERENCES 713
INDEX
763
|
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| dewey-hundreds | 500 - Natural sciences and mathematics |
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| dewey-search | 537.623 |
| dewey-sort | 3537.623 |
| dewey-tens | 530 - Physics |
| discipline | Physik Werkstoffwissenschaften / Fertigungstechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
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| id | DE-604.BV040764081 |
| illustrated | Illustrated |
| indexdate | 2024-12-20T16:25:12Z |
| institution | BVB |
| isbn | 9783642344404 3642344402 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-025742606 |
| oclc_num | 836001758 |
| open_access_boolean | |
| owner | DE-11 |
| owner_facet | DE-11 |
| physical | XIX, 779 S. Ill., graph. Darst. 235 mm x 155 mm |
| publishDate | 2013 |
| publishDateSearch | 2013 |
| publishDateSort | 2013 |
| publisher | Springer |
| record_format | marc |
| spellingShingle | Parinov, Ivan A. Microstructure and properties of high-temperature superconductors Hochtemperatursupraleiter (DE-588)4220922-5 gnd |
| subject_GND | (DE-588)4220922-5 |
| title | Microstructure and properties of high-temperature superconductors |
| title_auth | Microstructure and properties of high-temperature superconductors |
| title_exact_search | Microstructure and properties of high-temperature superconductors |
| title_full | Microstructure and properties of high-temperature superconductors I. A. Parinov |
| title_fullStr | Microstructure and properties of high-temperature superconductors I. A. Parinov |
| title_full_unstemmed | Microstructure and properties of high-temperature superconductors I. A. Parinov |
| title_short | Microstructure and properties of high-temperature superconductors |
| title_sort | microstructure and properties of high temperature superconductors |
| topic | Hochtemperatursupraleiter (DE-588)4220922-5 gnd |
| topic_facet | Hochtemperatursupraleiter |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=4131574&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025742606&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT parinovivana microstructureandpropertiesofhightemperaturesuperconductors |