Ultra-fine grained steels:
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer [u.a.]
2009
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Based on an original Chinese ed.: "Chaoxijing Gang Gang de Zuzhi Xihua Lilun yu Kongzhi Jishu" |
| Beschreibung: | XII, 569 S. Ill., graph. Darst. |
| ISBN: | 9783540772293 9787502444150 |
Internformat
MARC
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| 020 | |a 9787502444150 |c hardcover (Metallurgical Industry Press) |9 978-7-502-44415-0 | ||
| 024 | 3 | |a 9783540772293 | |
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| 035 | |a (OCoLC)320778950 | ||
| 035 | |a (DE-599)DNB98816129X | ||
| 040 | |a DE-604 |b ger |e rakddb | ||
| 041 | 0 | |a eng | |
| 044 | |a cc |c XB-CN |a gw |c XA-DE-BE |a xxu |c XD-US | ||
| 049 | |a DE-703 |a DE-634 | ||
| 050 | 0 | |a TN705 | |
| 082 | 0 | |a 620.17 |2 22//ger | |
| 082 | 0 | |a 620.17 |2 22/ger | |
| 082 | 0 | |a 669.96142 |2 22/ger | |
| 084 | |a UQ 8050 |0 (DE-625)146587: |2 rvk | ||
| 084 | |a 620 |2 sdnb | ||
| 084 | |a 660 |2 sdnb | ||
| 245 | 1 | 0 | |a Ultra-fine grained steels |c Yuqing Weng |
| 264 | 1 | |a Berlin [u.a.] |b Springer [u.a.] |c 2009 | |
| 300 | |a XII, 569 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Based on an original Chinese ed.: "Chaoxijing Gang Gang de Zuzhi Xihua Lilun yu Kongzhi Jishu" | ||
| 650 | 7 | |a Aço |2 larpcal | |
| 650 | 7 | |a Ferro |2 larpcal | |
| 650 | 7 | |a Ligas metálicas |2 larpcal | |
| 650 | 4 | |a Iron alloys | |
| 650 | 4 | |a Iron |x Metallurgy | |
| 650 | 4 | |a Steel alloys | |
| 650 | 4 | |a Steel |x Metallurgy | |
| 650 | 0 | 7 | |a Stahl |0 (DE-588)4056834-9 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Ultrafeinkorn |0 (DE-588)7641499-1 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Stahl |0 (DE-588)4056834-9 |D s |
| 689 | 0 | 1 | |a Ultrafeinkorn |0 (DE-588)7641499-1 |D s |
| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Weng, Yuqing |4 edt | |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe |z 978-3-540-77230-9 |
| 856 | 4 | 2 | |m DNB Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017381882&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-017381882 | ||
Datensatz im Suchindex
| _version_ | 1804138917359779840 |
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| adam_text | FINE GRAIN STEELS 47 CONTENTS 1 OVERVIEW 1 1.1 THE TECHNOLOGY OF
CONTROLLED ROLLING AND CONTROLLED COOLING 2 1.2 R & D PROGRAM OF SUPER
STEELS AND NEW GENERATION STEEL MATERIALS 7 1. 3 THE FORMATION OF
ULTRA-FINE GRAINS AND MICROSTRUCTURAL REFINEMENT OF STEELS-CORE
TECHNIQUE FOR THE R & D OF NEW GENERATION STEEL MATERIALS 10 1.4 THEORY
AND TECHNOLOGY ON ULTRA-FINE GRAINS 19 1. 4. 1 THE STATE CHANGE AND
MICROSTRUCTURE REFINEMENT OF AUSTENITE DURING HOT DEFORMATION 19 1. 4. 2
DEFORMATION INDUCED FERRITE TRANSFORMATION 20 1. 4. 2. 1 THERMODYNAMIC
CONSIDERATION OF DEFORMATION INDUCED FERRITE TRANSFORMATION 21 1. 4. 2.
2 DIFT PHASE TRANSFORMATION AND CHARACTERS OF TRANSFORMED PRODUCTS 23
1.4. 3 DEFORMATION INDUCED PRECIPITATION AND MEDIUM TEMPERATURE PHASE
TRANSFORMATION CONTROL 26 1. 4. 4 THE INFLUENCE OF NANOMETER SIZE
PRECIPITATES ON ULTRA FINE GRAIN STEEL 31 1. 4. 5 ULTRA GRAIN REFINEMENT
OF ALLOY STRUCTURAL STEELS AND THE WAY OF INCREASING THE RESISTANCE
AGAINST DELAYED FRACTURING 35 1.4. 6 THE DEVELOPMENT OF CARBIDE-FREE
BAINITE/MARTENSITE MULTIPLE PHASE STEELS 38 1. 5 SEVERAL KEY
TECHNOLOGIES CONCEMING THE DEVELOPMENT OF ULTRA FINE GRAIN STEELS 41 1.
5. 1 STEEL CLEANNESS 42 1.5.2 REFINEMENT AND HOMOGENIZATION OF
SOLIDIFICATION STRUCTURE 45 1. 5. 3 BRIEF INTRODUCTION OF WELDING
TECHNIQUE AND ECONOMY OF ULTRA BIBLIOGRAFISCHE INFORMATIONEN
HTTP://D-NB.INFO/98816129X DIGITALISIERT DURCH II CONTENTS REFERENCES 51
2 REFINEMENT OF AUSTENITIC MICROSTRUCTURE AND ITS INFLUENCE ON Y-MX
TRANSFORMATION 53 2. 1 THERMOMECHANICAL CONTROL PROCESS AND REFINEMENT
OF AUSTENITIC MICROSTRUCTURE 53 2. 1. 1 ROLLING AT THE
AUSTENITE-RECRYSTALLIZATION TEMPERATURE REGION (RARTR) 56 2. 1. 1. 1
METADYNAMIC RECRYSTALLIZATION 63 2. 1. 1. 2 STATIC RECRYSTALLIZATION 65
2. 1.2 ROLLING IN AUSTENITE NON-RECRYSTALLIZATION TEMPERATURE REGION 70
2. 1. 3 ROLLING AT THE UNDER-COOLED AUSTENITE 73 2. 1.4 ACCELERATED
COOLING AND MICROSTRUCTURAL REFINEMENT 78 2. 2 INFLUENCE OF AUSTENITIC
RECRYSTALLIZATION ON SUBSEQUENTIY TRANSFORMED GRAIN SIZE 79 2. 2. 1
INFLUENCE OF RECRYSTALLIZED OR DEFORMED AUSTENITE ON FERRITE
TRANSFORMATION 79 2. 2. 1. 1 INFLUENCE OF RECRYSTALLIZED AUSTENITE ON
FERRITE TRANSFORMATION 79 2. 2. 1.2 INFLUENCE OF PARTIALLY
RECRYSTALLIZED AUSTENITE ON FERRITE TRANSFORMATION 80 2. 2. 1.3
INFLUENCE OF NON-RECRYSTALLIZED AUSTENITE ON FERRITE TRANSFORMATION 80
2. 2. 2 INFLUENCE OF RECRYSTALLIZATION IN THE AUSTENITE ON DIFT 81
REFERENCES 82 3 DEFORMATION INDUCED FERRITE TRANSFORMATION 86 3. 1
INTRODUCTION 86 3. 2 EXPERIMENTAL CONFIRMATION AND STUDY METHOD OF DIFT
88 3. 2. 1 MICROSTRUCTURE OBSERVATION ON THE QUENCHED SAMPLE 88 3. 2. 2
MECHANICAL BEHAVIOR MEASUREMENT 89 3. 2. 3 DILATOMETRY MEASUREMENT 90 3.
2.4 IN-SITU X-RAY DIFFRACTION 92 3. CONTENTS HI 3. 4. 3 FERRITE GRAIN
NUMBER AND GRAIN SIZE VERSUS TRANSFORMATION FRACTION 104 3. 4. 4
THEORETICAL ANALYSIS 105 3. 4. 4. 1 FERRITE NUCLEATION RATE AND
DEFORMATION STORED ENERGY 105 3.4. 4. 2 FERRITE GRAIN GROWTH AND
DEFORMATION STORED ENERGY 106 3. 5 MECHANISMS OF DIFT 108 3. 6 FACTORS
INFLUENCING DIFT 109 3. 6. 1 DEFORMATION VARIABLES 110 3. 6.1. 1 STRAIN
110 3. 6. 1. 2 DEFORMATION TEMPERATURE 110 3. 6. 1. 3 STRAINRATE 114 3.
6. 2 CHEMICAL COMPOSITIONS 115 3. 6. 2. 1 EFFECT OF CARBON ANDMANGANESE
115 3. 6. 2. 2 EFFECT OF NIOBIUM AND VANADIUM 117 3. 6. 3 PRIOR
AUSTENITE GRAIN SIZE 127 3. 7 APPLICATIONS OF DIFT 127 3. 7. 1
APPLICATIONS OF DIFT IN PIAIN LOW CARBON STEEL 127 3.7. 1. 1 PIAIN LOW
CARBON STEEL REBAR 128 3. 7. 1. 2 PIAIN LOW CARBON STEEL STRIP 129 3. 7.
2 APPLICATIONS OF DIFT IN MICROALLOYED STEEL 131 3. 7. 2. 1 LABORATORY
TRIAL PRODUCTION OF 700MPA GRADE ULTRAFINE GRAINED STEEL 131 3. 7. 2. 2
INDUSTRIAL PRODUCTION OF HIGH STRENGTH CU-P-CR-NI WEATHERING RESISTANCE
STEEL 132 REFERENCES 134 4 MICROSTRUCTURE REFINEMENT OF STEELS BY TSCR
TECHNOLOGY 137 4.1 MICROSTRUCTURE REFINEMENT PROCESS AND AUSTENITE
RECRYSTALLIZATION OF LOW CARBON STEELS PRODUCED BY TSCR TECHNOLOGY 137
4. 1. 1 CONTRAST BETWEEN TSCR TECHNOLOGY AND TRADITIONAL TECHNOLOGY 137
4.1.2 THE REFINEMENT PROCESS OF MICROSTRUCTURE DURING CSP HOT CONTINUOU
IV CONTENTS 4. 1. 3 THE RELATIONSHIP BETWEEN TEXTURE AND THE AUSTENITE
AND THE FERRITE 144 4. 1. 3.1 TEXTURE ANALYSIS BY EBSD 144 4. 1. 3. 2
ORIENTATION ANALYSIS BY EBSD 146 4. 1. 4 AUSTENITE RECRYSTALLIZATION OF
LOW CARBON STEEL DURING CONTINUOUS HOT ROLLING PROCESS 147 4.1. 4. 1
MICROSTRUCTURE EVOLUTION MODEL OF AUSTENITE DURING HOT CONTINUOUS
ROLLING FOR LOW CARBON STEEL 148 4.1. 4. 2 SIMULATION OF MICROSTRUCTURE
EVOLUTION FOR AUSTENITE DURING HOT CONTINUOUS ROLLING OF LOW CARBON
STEEL 150 4. 2 MICROSTRUCTURE AND PROPERTIES OF LOW CARBON STEEL
PRODUCED BY THIN SLAB CASTING AND ROLLING(TSCR) 153 4. 2. 1 COMPARISON
ON MICROSTRUCTURE AND PROPERTIES OF LOW CARBON HOT STRIP WITH DIFFERENT
THERMAL HISTORIES 153 4. 2. 1. 1 PRODUCTION COMPARISON EXPERIMENTS OF
CSP AND TRADITIONAL TECHNOLOGY IN PRODUCING HOT LOW CARBON STRIP 153
4.2. 1.2 COMPARISON AND ANALYSIS OF MECHANICAL PROPERTIES AND
MICROSTRUCTURE OF STRIPS PRODUCED BY TWO KINDS OF PROCESS 154 4. 2. 2
ANALYSIS OF STRUCTURE PROPERTY IN LOW CARBON HOT STRIP PRODUCED BY CSP
AND TRADITIONAL PROCESS 156 4. 2. 2. 1 COMPARISON OF STRUCTURE AND
PROPERTY OF LOW CARBON HOT STRIP PRODUCED BY CSP AND TRADITIONAL PROCESS
156 4. 2. 2. 2 ANALYSIS OF INFLUENCING FACTOR ON MICROSTRUCTURE AND
PROPERTIES OF HOT STRIP PRODUCED BY CSP 159 4. 2. 2. 3 MICROSTRUCTURE
AND PROPERTIES OF C-MN STRIPS WITH HIGH STRENGTH PRODUCED BY CSP PROCESS
160 4. 3 MECHANISM AND PRECIPITATION CHARACTERISTIC OF A1N IN LOW CARBON
STEE CONTENTS V 4. 3. 3. 2 EFFECT OF A1N PRECIPITATION DURING THE PHASE
TRANSFORMATION 174 4. 4 CONTROL ON SOFT MECHANISM OF COLD ROLLING THIN
SLAB BY CONTINUOUS CASTING AND ROLLING 175 4. 4. 1 REQUIREMENTS OF
COLD-ROLLED SHEET FOR DEEP DRAWING TO THE PROPERTY OF COLD ROLLING
BILLET AND THE CONTROL METHODS ON SOFTEN STEEL 175 4. 4. 2 MECHANISM OF
ADDING B MICRO-ALLOY INTO LOW-CARBON STEEL ON GRAIN GROWTH COURSING AND
STEEL SOFTENING 176 4.4. 2. 1 ACTION OF ADDING B MICRO-ALLOY INTO STEEL
ON THE COURSING OF GRAIN GROWTH 176 4. 4. 2. 2 EFFECTS OF ADDING B INTO
STEEL ON THE PRECIPITATION IN LOW CARBON STEEL 177 4. 4. 3 EFFECTS OF
THE HOT ROLLING AND COOLING TECHNOLOGY ON THE SOFTENING OF LOW CARBON
STEEL 181 4.4. 3. 1 THE EFFECTS OF FINISHING TEMPERATURE ON THE
PERFORMANCE OFSPHC 181 4.4. 3. 2 THE EFFECTS OF FINISHING REDUCTION ON
THE PROPERTY OF SPHC 181 4. 4. 3. 3 THE EFFECTS OF COILING TEMPERATURE
ON THE PROPERTY OF SPHC 182 4.4. 3.4 THE EFFECTS OF HOT ROLLED
LUBRICATION ON THE PROPERTY OF SPHC 182 4. 4. 3. 5 THE EFFECTS OF
COOLING METHODS ON THE PROPERTY OF SPHC 182 4. 4. 4 THE EFFECTS OF THE
CONTROL METHOD OF DIFFERENT SOFTENING TECHNOLOGY ON THE FORMABILITY OF
COLD-ROLLED SHEET 08AI 183 4.4.4. 1 THE COMPOSITION AND TECHNOLOGY OF
HOT ROLLED LOW CARBON STEEL OF CSP 184 4.4. 4. 2 THE TECHNOLOGIES OF
COLD ROLLING AND ANNEALING 184 4. 4. 4. 3 THE EFFECTS OF COILING
TEMPERATURE AND TOTAL COLD-ROLLED REDUCTIO VI CONTENTS 4. 5. 2.1
PRECIPITATES IN SLABS AND ROLLING PIECES OF THE LOW CARBON STEELS 192 4.
5. 2. 2 SULFIDES IN THE LOW CARBON STEELS WITH VARYING CONTENT OF SULFUR
198 4. 5. 2. 3 MECHANISM OF THE SULFIDE PRECIPITATION IN THE CONDITION
OF CSP PROCESS 202 4. 5. 2.4 EFFECTS OF THE SULFIDE AND OXIDE ON
FORMATION OF OTHER PHASES 214 4. 5.2. 5 OTHER NANOMETER PRECIPITATES IN
THE STEELS 218 4. 5. 3 CARBIDES AND CARBONITRIDES IN TI CONTAINING
STEELS 221 4. 5. 3.1 IN GENERAL FEATURE : 221 4. 5. 3. 2 EXPERIMENTAL
INVESTIGATION 223 SUMMARY 227 REFERENCES 228 5 MICROSTRUCTURE FINING
THEORY OF LOW-CARBON BAINITIC STEEL 235 5. 1 SOCIAL NEEDS FOR LOW-CARBON
BAINITIC STEEL WITH A GRADE OF MORE THAN 600MPA 235 5. 2 STRENGTHENING
MECHANISM OF LOW (ULTRA-LOW) BAINITIC STEEL 237 5. 3 PRIMARY
CHARACTERISTICS OF SEVERAL KINDS OF LOW-CARBON BAINITIC STEELS DEVELOPED
IN CHINA 238 5. 3. 1 CCTCURVE CHARACTERISTICS OF THE STEELS 238 5. 3. 2
RECRYSTALLIZATION CURVE CHARACTERISTICS DURING HOT-PROCESSING 240 5. 3.
2.1 C-MN STEEL AND NB OR B INDIVIDUALLY ADDED STEEL 240 5. 3. 2. 2 WHEN
ALLOYING ELEMENTS SUCH AS NB, B, CU ARE COMBINEDLY ADDED 241 5. 3. 3 PTT
CURVE CHARACTERISTICS OF THE STEEL 242 5.4 THEORETICAL THOUGHT FOR
FURTHERING FINING THE INTERMEDIATE- TEMPERATURE TRANSFORMATION
MICROSTRUCTURES * 246 5. 4. 1 BASIC KEY POINTS FOR INTERMEDIATE
TEMPERATURE TRANSFORMATIO CONTENTS VE 5. 5. 2 TYPICAL PROCESS OF
RELAXATION-PRECIPITATION- CONTROLLING TRANSFORMATION (RPC) TECHNOLOGY
257 5. 5. 3 TYPICAL FINING MICROSTRUCTURES UNDER RPC PROCESS AND ITS
COMPARISON WITH OTHER PROCESSES 258 5. 5. 4 EFFECTS OF RPC PROCESS AND
COMPOSITION ON MICROSTRUCTURE AND PROPERTIES 263 5. 5. 4.1 EFFECT OF
RELAXING TIME 264 5. 5. 4. 2 EFFECTS OF FINAL-ROLLING TEMPERATURE 265
5.5.4.3 EFFECTS OF COOLING RATE ON MICROSTRUCTURE AND PROPERTIES 266 5.
5. 5 STRENGTH, PLASTICITY AND TOUGHNESS OF THE STEEL FROM INDUSTRIAL
TRIAL PRODUCTION OF RPC PROCESS 267 5. 6 STUDY ON FINING PROCESS
PARAMETERS OF INTERMEDIATE- TEMPERATURE TRANSFORMED MICROSTRUCTURE
THROUGH THERMO- MECHANICAL SIMULATION 269 5.6. 1 MICROSTRUCTURE
EVOLUTION AFTER DEFORMATION AND RELAXATION UNDER DIFFERENT TEMPERATURES
270 5. 6. 2 QUANTITATIVE STATISTICS OF BAINITE BUENDLE SIZE 273 5. 7
FORMING MECHANISM OF TYPICAL FINING MICROSTRUCTURES 276 5. 7. 1 TWO
KINDS OF TYPICAL MICROSTRUCTURE MORPHOLOGY IN SAMPLES AFTER RPC PROCESS
276 5. 7. 2 FORMATION AND INFLUENCE OF SUBSTRUCTURE DURING RELAXATION
278 5. 7. 3 INDUCED PRECIPITATION IN DEFORMED AUSTENITE AND ITS EFFECTS
(YUAN ET AL,2004;YUAN ET AL,2003) 280 5. 7. 4 FORMATION, MORPHOLOGY OF
ACICULAR FERRITE AND ITS EFFECT ON FINING 288 5. 7. 4. 1 MORPHOLOGY
CHARACTERISTICS OF ACICULAR FERRITE 288 5. 7. 4. 2 EFFECT OF RELAXATION
ON FORMATION OF ACICULAR FERRITE 289 5. 8 STUDY ON THE VARIATION OF
MICROSTRUCTURE AND PROPERTIES OF FINE VIII CONTENTS 6.1.1 DELAYED
FRACTURE 301 6. 1.2 FATIGUE FAILURE 304 6. 2 MICROSTRUCTURE REFINEMENT
IN TOUGHENING AND IMPROVING DF PROPERTY OF MARTENSITIC STEELS 305 6.2.1
TECHNOLOGIES FOR MARTENSITIC MICROSTRUCTURE REFMING 305 6.2. 2 EFFECT OF
MICROSTRUCTURE REFINEMENT ON STRENGTH AND TOUGHNESS * * * 306 6. 2. 3
EFFECT OF MICROSTRUCTURE REFINEMENT ON DF RESISTANCE 310 6. 2. 3. 1
STRESS CORROSIORI CRACKING 310 6. 2. 3. 2 SUSTAINED LOAD TENSILE DELAYED
FRACTURE 312 6. 2. 3. 3 DISCUSSION OF THE DEPENDENCE OF DF RESISTANCE ON
GRAIN SIZE 315 6. 3 GRAIN BOUNDARY STRENGTHENING IN IMPROVING DF
PROPERTY OF MARTENSITIC STEELS 318 6. 3.1 REDUCING SEGREGATION OF
IMPURITIES AT GRAIN BOUNDARIES 319 6. 3. 2 CONTROLLING GRAIN BOUNDARY
CARBIDE 321 6. 3. 2. 1 INCREASING TEMPERING TEMPERATURE 321 6. 3. 2. 2
INTERCRITICAL QUENCHING 322 6. 3. 2. 3 AUSFORMING PROCESS 324 6.3.3
EFFECT OF MO AUOYING 325 6. 3. 3. 1 MO RAISING TEMPERING TEMPERATURE 326
6. 3. 3. 2 MO CARBIDE AS HYDROGEN TRAP 328 6. 3. 3. 3 MO CONTROLLING
IMPURITIES AND STRENGTHENING GRAIN BOUNDARIES 329 6.3.3.4 INFLUENCE OF
MO CONTENT 330 6. 4 CONTROLLING OF HYDROGEN TRAP IN MARTENSITIC STEELS
TO IMPROVE ITS DF RESISTANCE * 331 6. 5 EFFECT OF CLEANLINESS ON THE
FATIGUE PERFORMANCE OF HIGH STRENGTH MARTENSITIC STEELS 335 6. 6 NEW
DEVELOPED HIGH STRENGTH MARTENSITIC STEELS AND THEIR INDUSTRIAL
APPLICATION 341 REFERENCES 345 CARBIDE-FRE CONTENTS IX 7. 3 EFFECT OF
TEMPERING ON STRENGTH AND TOUGHNESS OF CFB/M DUPLEX PHASE STEEL 359
7.3.1 EFFECT OF CFB/M DUPLEX PHASE MICROSTRUCTURE ON THE INITIAL
TEMPERATURE OF TEMPER EMBRITTLENESS THE FIRST KIND 361 7.3.2 EFFECT OF
CFB/M DUPLEX PHASE MICROSTRUCTURE ON YIELD-TENSILE RATIOOF STEEL 367 7.
4 SUSCEPTIBILITY TO HYDROGEN EMBRITTLEMENT FOR CFB/M DUPLEX PHASE HIGH
STRENGTH STEEL 369 7. 4. 1 EFFECT OF HYDROGEN CONTENT ON SUSCEPTIBILITY
TO HYDROGEN EMBRITTLEMENT FOR CFB/M DUPLEX PHASE HIGH STRENGTH STEEL 370
7. 4. 2 EFFECT OF HEAT TREATMENT PROCESS ON SUSCEPTIBILITY TO HYDROGEN
EMBRITTLEMENT FOR CFB/M DUPLEX PHASE HIGH STRENGTH STEEL 374 7.4.2. 1
EFFECT OFBU AND CFB ; 376 7.4. 2. 2 EFFECT OF CFB QUANTITY ON FRACTURE
SURFACE TOPOGRAPHY 378 7.4. 3 INFLUENCE OF MICROSTRUCTURE REFINEMENT AND
RETAINED AUSTENITE ON SUSCEPTIBILITY TO HYDROGEN EMBRITTLEMENT FOR CFB/M
STEEL 379 7. 5 STRESS CORROSION OF CFB/M DUPLEX PHASE HIGH STRENGTH
STEEL 385 7.5.1 STRESS CORROSION CRACKING PROPERTY OF CFB/M DUPLEX PHASE
HIGH STRENGTH STEEL 385 7.5.2 STRESS CORROSION FRACTURE OF CFB/M DUPLEX
PHASE HIGH STRENGTH STEEL 388 7. 6 HYDROGEN IN CFB/M DUPLEX PHASE HIGH
STRENGTH STEEL 391 7. 6. 1 MEASURE HYDROGEN DIFFUSION COEFFICIENT USING
DOUBLE ELECTROLYSIS CELL 392 7. 6. 2 HYDROGEN TRAP IN CFB/M DUPLEX PHASE
HIGH STRENGTH STEEL 396 7. 6. 2. 1 BAINITIC/MARTENSITE LATH BOUNDARY 398
7.6.2. X CONTENTS 7. 8. 1. 3 FATIGUE FRACTURE OF CFB/M DUPLEX PHASE HIGH
STRENGTH STEEL 410 7. 8. 2 EFFECT OF MICROSTRUCTURE CHARACTERISTICS OF
CFB/M DUPLEX PHASE STEEL ON FATIGUE BEHAVIORS 413 7.8.2. 1 EFFECT OF
MICROSTRUCTURE CHARACTERISTICS ON FATIGUE STRENGTH 413 7. 8. 2. 2 EFFECT
OF MICROSTRUCTURE CHARACTERISTICS ON A K& AND DA/DN 416 7.8.3 EFFECT OF
RETAINED AUSTENITE ON FATIGUE BEHAVIORS OF CFB/M DUPLEX PHASE STEEL 419
7. 8. 3.1 RETAINED AUSTENITE CONTENT AND CYCLICAL STABILITY 419 7.8.3.2
EFFECT OF RETAINED AUSTENITE AND ITS CYCLICAL STABILITY ON FATIGUE
STRENGTH 420 7.8.3.3 EFFECT OF RETAINED AUSTENITE FILM ON FATIGUE CRACK
PROPAGATION 421 7.8.4 FATIGUE FRACTURE MECHANISM OF CFB/M DUPLEX PHASE
STEEL 422 7. 9 APPLICATION PROSPECT OF CFB/M DUPLEX PHASE STEEL 422
REFERENCES 424 8 EXTRA LOW SULFUR AND NON-METALLIC INCLUSIONS CONTROL
FOR ULTRA FINE GRAIN HIGH STRENGTH STEELS 431 8. 1 INTRODUCTION 431 8. 2
REFMING TECHNOLOGY FOR EXTRA LOW SULFUR STEELS 432 8.2. 1 HOT METAL DE-S
PRETREATMENT 433 8. 2. 2 REDUCING [S] PICK UP IN BOF STEELMAKING 435 8.
2. 3 DESULFURIZATION IN SECONDARY REFINING OF LIQUID STEEL 438 8. 2. 3.
1 DESULFURIZATION DURING BOF TAPPING 441 8. 2. 3. 2 DESULFURIZATION IN
IADLE FURNACE REFINING (LF) 443 8. 2. 3. 3 POWDER INJECTION
DESULFURIZATION METHODS 444 8 CONTENTS XI REFERENCES 470 9 FUNDAMENTAL
STUDY ON HOMOGENEITY OF SOLIDIFICATION STRUCTURE OF STEEL 473 9. 1 THE
STRUCTURE OF LIQUID FE-C ALLOY 473 9. 1. 1 EXPERIMENTAL 473 9. 1. 2 DATA
ANALYSIS 474 9. 1. 3 MEDIUM-RANGE ORDER STRUCTURE IN LIQUID FE-C ALLOY
475 9. 1.4 CONCLUSIONS 479 9. 2 OBSERVATION AND ANALYSIS OF
HETEROGENEOUS NUCLEATION PHENOMENA 480 9.2. 1 EXPERIMENTAL * 481 9. 2. 2
EFFECTS OF VIBRATION FREQUENCY AND AMPLITUDE 482 9.2.3 EFFECTS OF SOLID
SUBSTRATE TEMPERATURE AND SURFACE ROUGHNESS 483 9.2.4 CONCLUSIONS 486 9.
3 HOMOGENEITY AND EQUIAXED GRAIN STRUCTURE OF STEELS 486 9. 3.1 RELATION
OF SEGREGATION AND EQUIAXED GRAIN STRUCTURE 487 9. 3. 2 TITANIUM-BASED
INOCULATION TECHNOLOGY 488 9.3.2. 1 PRECIPITATION OFTIN PARTICLES 488 9.
3. 2. 2 COMPETITIVE PRECIPITATION BETWEEN TIN AND TI 2 O 3 489 9. 3. 2.
3 PARTICLES FOR NUCLEUS OF 8-FERRITE DENDRITES 490 9. 3. 3 SMALL
TEMPERATURE GRADIENT TECHNOLOGY 491 9.3.4 CONCLUSIONS 492 REFERENCES *.
492 10 WELDINGOFULTRA-FINEGRAINED STEELS 494 10. 1 INTRODUCTION 494 10.
2 SIMULATION OF WELDING OF FINE-GRAINED STEEL 495 10.2. 1 SIMULATION OF
GRAIN GROWTH IN HAZ 495 10.2.1. 1 THE MONTE CARLO MODEL OF THE HAZ 496
10. 2.1. 2 THE EDB MODEL 497 10. 2. 1.3 MC SIMULATION OF GRAIN GROWTH IN
HAZ OF FINE- GRAINE XII CONTENTS 10. 3.1. 2 WELD SHAPE AND
MICROSTRUCTURE OF WELDED JOINTS 510 10. 3. 1. 3 MECHANICAL PROPERTIES OF
LASER WELDED JOINT 514 10.3.1.4 CONCLUSIONS 517 10. 3. 2 ARE WELDING OF
FINE GRAINED LOW CARBON STEEL 518 10. 3. 2. 1 EXPERIMENT MATERIAL AND
METHOD 518 10. 3. 2. 2 EXPERIMENT RESULTS AND DISCUSSION 519 10. 3. 2. 3
CONCLUSIONS 523 10. 3. 3 ARE WELDING OF FINE GRAINED ATMOSPHERIC
CORROSION RESISTANT STEEL 524 10. 3. 3.1 EXPERIMENT MATERIALS
ANDPROCEDURE 524 10. 3. 3. 2 EXPERIMENT RESULTS AND DISCUSSION 525 10.
3. 3. 3 CONCLUSIONS 527 10. 3.4 WELDING OF 400 MPA GRADE FINE GRAINED
REBAR 528 10. 3.4.1 EXPERIMENT MATERIAL AND PROCEDURE 528 10. 3.4. 2
EXPERIMENT RESULTS AND DISCUSSION 529 10. 3.4. 3 CONCLUSIONS 531 10.4
WELDING OF ULTRA-FINE STRUCTURE BAINITE STEEL 532 10.4. 1 DEVELOPMENT OF
ULTRA-LOW CARBON BAINITIC HIGH STRENGTH WELDING WIRE 532 10.4.-1.1
DESIGNING PRINCIPLES OF THE ULCB WELDING WIRES 532 10.4. 1.2
COMPOSITIONS AND MECHANICAL PROPERTIES OF ULCB WIRE DEPOSITED METALS 533
10.4. 1.3 OPTICAL MICROSTRUCTURE OF THE ULCB DEPOSITED METALS 536 10.
4.1. 4 FINE MICROSTRUCTURE OF ULCB WIRE DEPOSITED METALS 538 10.4.1. 5
CONCLUSIONS 539 10.4. 2 MICROSTRUCTURES AND PROPERTIES OF THE GMAW
WELDED JOINT OF THE ULTRA FINE STRUCTURE BAINITIC STEEL 540 10. 4. 2.1
WELD MICROSTRUCTURE OF ULTRA FINE GRAINED BAINITIC STEEL 540 10. 4. 2. 2
MECHANICAL PROPERTIES OF WELD METAL IN ULTRA-FINE GRAINE
|
| any_adam_object | 1 |
| author2 | Weng, Yuqing |
| author2_role | edt |
| author2_variant | y w yw |
| author_facet | Weng, Yuqing |
| building | Verbundindex |
| bvnumber | BV035462060 |
| callnumber-first | T - Technology |
| callnumber-label | TN705 |
| callnumber-raw | TN705 |
| callnumber-search | TN705 |
| callnumber-sort | TN 3705 |
| callnumber-subject | TN - Mining Engineering and Metallurgy |
| classification_rvk | UQ 8050 |
| ctrlnum | (OCoLC)320778950 (DE-599)DNB98816129X |
| dewey-full | 620.17 669.96142 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations 669 - Metallurgy |
| dewey-raw | 620.17 669.96142 |
| dewey-search | 620.17 669.96142 |
| dewey-sort | 3620.17 |
| dewey-tens | 620 - Engineering and allied operations 660 - Chemical engineering |
| discipline | Chemie / Pharmazie Maschinenbau / Maschinenwesen Physik |
| format | Book |
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| id | DE-604.BV035462060 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:35:48Z |
| institution | BVB |
| isbn | 9783540772293 9787502444150 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-017381882 |
| oclc_num | 320778950 |
| open_access_boolean | |
| owner | DE-703 DE-634 |
| owner_facet | DE-703 DE-634 |
| physical | XII, 569 S. Ill., graph. Darst. |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Springer [u.a.] |
| record_format | marc |
| spelling | Ultra-fine grained steels Yuqing Weng Berlin [u.a.] Springer [u.a.] 2009 XII, 569 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Based on an original Chinese ed.: "Chaoxijing Gang Gang de Zuzhi Xihua Lilun yu Kongzhi Jishu" Aço larpcal Ferro larpcal Ligas metálicas larpcal Iron alloys Iron Metallurgy Steel alloys Steel Metallurgy Stahl (DE-588)4056834-9 gnd rswk-swf Ultrafeinkorn (DE-588)7641499-1 gnd rswk-swf Stahl (DE-588)4056834-9 s Ultrafeinkorn (DE-588)7641499-1 s DE-604 Weng, Yuqing edt Erscheint auch als Online-Ausgabe 978-3-540-77230-9 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017381882&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Ultra-fine grained steels Aço larpcal Ferro larpcal Ligas metálicas larpcal Iron alloys Iron Metallurgy Steel alloys Steel Metallurgy Stahl (DE-588)4056834-9 gnd Ultrafeinkorn (DE-588)7641499-1 gnd |
| subject_GND | (DE-588)4056834-9 (DE-588)7641499-1 |
| title | Ultra-fine grained steels |
| title_auth | Ultra-fine grained steels |
| title_exact_search | Ultra-fine grained steels |
| title_full | Ultra-fine grained steels Yuqing Weng |
| title_fullStr | Ultra-fine grained steels Yuqing Weng |
| title_full_unstemmed | Ultra-fine grained steels Yuqing Weng |
| title_short | Ultra-fine grained steels |
| title_sort | ultra fine grained steels |
| topic | Aço larpcal Ferro larpcal Ligas metálicas larpcal Iron alloys Iron Metallurgy Steel alloys Steel Metallurgy Stahl (DE-588)4056834-9 gnd Ultrafeinkorn (DE-588)7641499-1 gnd |
| topic_facet | Aço Ferro Ligas metálicas Iron alloys Iron Metallurgy Steel alloys Steel Metallurgy Stahl Ultrafeinkorn |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017381882&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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