Verfügbarkeit: Neutrons and synchrotron radiation in engineering materials science

Neutrons and synchrotron radiation in engineering materials science: from fundamentals to applications

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Bibliographische Detailangaben
Weitere Verfasser:	Staron, Peter 1962- (HerausgeberIn), Schreyer, Andreas 1963- (HerausgeberIn), Clemens, Helmut 1957- (HerausgeberIn), Mayer, Svea 1981- (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH Verlag GmbH & Co. KGaA [2017]
Ausgabe:	Second edition
Schlagworte:	Zerstörungsfreie Werkstoffprüfung Hochleistungswerkstoff Mikrostruktur Neutronenstrahlung Synchrotronstrahlung Aeronautic & Aerospace Engineering Bauingenieur- u. Bauwesen Baustoffe Civil Engineering & Construction Construction Materials Festkörperphysik Luft- u. Raumfahrttechnik Maschinenbau Materials Characterization Materials Science Materialwissenschaften Mechanical Engineering Physics Physik Solid State Physics Werkstoffprüfung Chemie Aufsatzsammlung
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-33592-3/ Inhaltsverzeichnis
Beschreibung:	xxiv, 462 Seiten Illustrationen, Diagramme (teilweise farbig)
ISBN:	9783527335923

Internformat

MARC


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245	1	0	\|a Neutrons and synchrotron radiation in engineering materials science \|b from fundamentals to applications \|c edited by Peter Staron, Andreas Schreyer, Helmut Clemens, and Svea Mayer
250			\|a Second edition
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300			\|a xxiv, 462 Seiten \|b Illustrationen, Diagramme (teilweise farbig)
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Datensatz im Suchindex

_version_	1804177433330450432
adam_text	CONTENTS LIST OF CONTRIBUTOR XVII PREFACE TO SECOND EDITION XXIII PART I GENERAL 1 1 MICROSTRUCTURE AND PROPERTIES OF ENGINEERING MATERIALS 3 HELMUT CLEMENS, SVEA MAYER, AND CHRISTINA SCHEU 1.1 INTRODUCTION 3 1.2 MICROSTRUCTURE 4 1.2.1 CRYSTAL DEFECTS 7 1.2.2 GRAIN (PHASE) BOUNDARIES AND TWINS 7 1.2.3 PRECIPITATES AND DISPERSIONS 8 1.3 MICROSTRUCTURE AND PROPERTIES 10 1.4 MICROSTRUCTURAL CHARACTERIZATION 12 REFERENCES 19 2 INTERNAL STRESSES IN ENGINEERING MATERIALS 21 ANKE KAYSSER-PYZALLA 2.1 DEFINITION 21 2.1.1 STRESS TENSOR, STRAIN TENSOR, AND ELASTICITY TENSOR 21 2.1.1.1 STRESS TENSOR 21 2.1.1.2 STRAIN TENSOR 22 2.1.2 DEFINITIONS, RESIDUAL STRESSES 23 2.1.2.1 STRESS EQUILIBRIUM 23 2.1.2.2 RESIDUAL MACRO- AND MICROSTRESSES 24 2.2 ORIGIN OF RESIDUAL MACRO- AND MICROSTRESSES 25 2.2.1 RESIDUAL STRESS FORMATION IN PRIMARY FORMING PROCESSES 26 2.2.2 RESIDUAL STRESS FORMATION IN HEAT TREATMENT PROCESSES 28 2.2.2.1 RESIDUAL STRESSES IN A MATERIAL WITHOUT PHASE TRANSFORMATION (PURE COOLING RESIDUAL STRESSES) 29 2.2.2.2 RESIDUAL STRESSES IN A MATERIAL WITH PHASE TRANSFORMATION 30 2.2.2.3 RESIDUAL STRESS FORMATION IN SURFACE-HARDENING PROCESSES (NITRIDING, CARBO-NITRIDING, AND CASE HARDENING) 32 2.2.3 RESIDUAL STRESS FORMATION IN FORMING PROCESSES 32 2.2.3.1 DEEP-ROLLING RESIDUAL STRESSES 33 2.2.3 2 COLD EXTRUSION RESIDUAL STRESSES 34 2.2.4 RESIDUAL STRESS FORMATION IN METAL CUTTING MANUFACTURING 36 2.2.4.1 GRINDING RESIDUAL STRESSES 37 2.2.5 RESIDUAL STRESS FORMATION IN JOINING PROCESSES 39 2.2.6 RESIDUAL STRESS FORMATION IN COATINGS 43 2.3 RELEVANCE 45 2.3.1 FAILURE DUE TO RESIDUAL STRESS FORMATION OR RESIDUAL STRESS RELIEF INDUCED BY TEMPERATURE CHANGES 46 2.3.2 INFLUENCE OF RESIDUAL STRESSES ON COMPONENT FAILURE UNDER STATIC AND DYNAMIC MECHANICAL LOADS 47 2.3.3 INFLUENCE OF RESIDUAL STRESSES ON COMPONENT FAILURE IN CORROSIVE ENVIRONMENTS 49 2.3.4 INFLUENCE OF RESIDUAL STRESSES ON WEAR 49 REFERENCES 51 3 TEXTURES IN ENGINEERING MATERIALS 55 HEINZ G. BROKMEIER AND SANGBONG YI 3.1 INTRODUCTION 55 3.2 MEASUREMENT OF PREFERRED ORIENTATIONS 58 3.3 PRESENTATION OF PREFERRED ORIENTATIONS 59 3.3.1 POLE FIGURE 60 3.3.2 ORIENTATION DISTRIBUTION FUNCTION 62 3.3.3 INVERSE POLE FIGURES 62 3.4 INTERPRETATION OF TEXTURES 62 3.5 ERRORS 67 3.5.1 GRAIN STATISTICS 67 3.5.2 POLE FIGURE COVERAGE 68 REFERENCES 71 4 PHYSICAL PROPERTIES OF PHOTONS AND NEUTRONS 73 ANDREAS SCHREYER 4.1 INTRODUCTION 73 4.2 INTERACTION OF X-RAY PHOTONS AND NEUTRONS WITH INDIVIDUAL ATOMS 74 4.2.1 NEUTRONS 75 4.2.2 X-RAYS 76 4.3 SCATTERING OF X-RAY PHOTONS AND NEUTRONS FROM ENSEMBLES OF ATOMS 79 ACKNOWLEDGMENT 81 REFERENCES 81 5 RADIATION SOURCES 83 5.1 GENERATION AND PROPERTIES OF NEUTRONS 83 INA LOMMATZSCH, WOLFGANG KNOP, PHILIPP K. PRANZAS, AND PETER SCHREINER 5.1.1 INTRODUCTION 83 5.1.2 GENERATION OF NEUTRONS 83 5.1.2.1 RESEARCH REACTORS 83 5.1.2.2 SPALLATION SOURCES 87 5.1.3 INSTRUMENTATION 87 5.1.3.1 STRUCTURE RESEARCH 89 5.1.3.2 LARGE-SCALE STRUCTURES 89 5.1.3.3 SPECTROSCOPY 89 5.1.3.4 IMAGING AND ANALYSIS 89 5.1.3.5 PARTICLE PHYSICS 89 REFERENCES 90 5.2 PRODUCTION AND PROPERTIES OF SYNCHROTRON RADIATION 90 ROLFTREUSCH 5.2.1 INTRODUCTION 90 5.2.2 PROPERTIES OF SYNCHROTRON RADIATION 92 5.2.3 SOURCES OF SYNCHROTRON RADIATION 96 5.2.3.1 BENDING MAGNETS 97 5.2.3 2 WIGGLERS AND UNDULATORS 98 5.2.4 OUTLOOK: FREE ELECTRON LASERS 100 5.2.5 SUMMARY 102 REFERENCES 102 PART II METHODS 105 6 STRESS ANALYSIS BY ANGLE-DISPERSIVE NEUTRON DIFFRACTION 107 PETER STARON 6.1 INTRODUCTION 107 6.2 DIFFRACTOMETER FOR RESIDUAL STRESS ANALYSIS 108 6.2.1 SETUP OF A DIFFRACTOMETER FOR STRAIN SCANNING 108 6.2.2 MONOCHROMATOR 109 6.2.3 SLIT SYSTEM 110 6.2.4 SAMPLE POSITIONING 111 6.2.5 DETECTOR 111 6.3 MEASUREMENT AND DATA ANALYSIS 112 6.3.1 GAGE VOLUME AND SAMPLE POSITIONING 112 6.3.2 DATA REDUCTION AND ANALYSIS 113 6.3.2.1 DATA REDUCTION AND PEAK FITTING 113 6.3 2.2 CALCULATION OF STRESSES 114 6.3.2 3 MACRO AND MICROSTRESSES 115 6.3.2.4 STRESS-FREE REFERENCE 116 6.4 EXAMPLES 116 6.4.1 RESIDUAL STRESSES IN FRICTION STIR WELDED ALUMINUM SHEETS 116 6.4.2 RESIDUAL STRESSES IN WATER-QUENCHED TURBINE DISKS 117 6.5 SUMMARY AND OUTLOOK 120 REFERENCES 120 7 STRESS ANALYSIS BY ENERGY-DISPERSIVE NEUTRON DIFFRACTION 123 JAVIER SANTISTEBAN 7.1 INTRODUCTION 123 7.2 TIME-OF-FLIGHT NEUTRON DIFFRACTION 123 7.2.1 TOF PEAK SHAPE AND DATA ANALYSIS PACKAGES 124 7.3 TOF STRAIN SCANNERS 126 7.3.1 COUNTING TIMES AND RESOLUTION 128 7.3.2 NEUTRON OPTICS AND TIME FOCUSING 130 7.4 A VIRTUAL LABORATORY FOR STRAIN SCANNING 131 7.5 TYPE II STRESSES: EVOLUTION OF INTERGRANULAR STRESSES 134 7.6 TYPE III STRESSES: DISLOCATION DENSITIES 135 I N STRAIN IMAGING BY ENERGY-DISPERSIVE NEUTRON TRANSMISSION 138 7.8 CONCLUSIONS 140 ACKNOWLEDGMENTS 141 REFERENCES 141 8 RESIDUAL STRESS ANALYSIS BY MONOCHROMATIC HIGH-ENERGY X-RAYS 145 RENE V. MARTINS 8.1 BASIC SETUPS 145 8.2 PRINCIPLE OF SLIT IMAGING AND DATA RECONSTRUCTION 148 8.3 THE CONICAL SLIT 149 8.3.1 WORKING PRINCIPLE 149 8.3.2 CAPABILITIES 149 8.3.3 EXAMPLE 151 8.4 THE SPIRAL SLIT 152 8.4.1 FUNCTIONAL PRINCIPLE 152 8.4.2 CAPABILITIES 152 8.4.3 EXAMPLE 153 8.5 SIMULTANEOUS STRAIN MEASUREMENTS IN INDIVIDUAL BULK GRAINS 155 8.6 COARSE GRAIN EFFECTS 156 8.7 ANALYSIS OF DIFFRACTION DATA FROM AREA DETECTORS 157 8.8 MATRIX FOR COMPARISON AND DECISION TAKING WHICH TECHNIQUE TO USE FOR A SPECIFIC PROBLEM 158 REFERENCES 159 9 RESIDUAL STRESS ANALYSIS BY ENERGY-DISPERSIVE SYNCHROTRON X-RAY DIFFRACTION 161 CHRISTOPH GENZEL AND MANUELA KLAUS 9.1 INTRODUCTION 161 9.2 FUNDAMENTALS OF ENERGY-DISPERSIVE X-RAY DIFFRACTION STRESS ANALYSIS 162 9.2.1 THE BASIC EQUATION OF ENERGY-DISPERSIVE X-RAY DIFFRACTION 162 9.2.2 NEAR-SURFACE DEPTH PROFILING IN THE ENERGY-DISPERSIVE DIFFRACTION MODE 162 9.2.3 PRINCIPLES OF DEPTH-RESOLVED X-RAY STRESS ANALYSIS AND APPLICATION TO THE ENERGY-DISPERSIVE CASE OF DIFFRACTION 164 9.3 EXPERIMENTAL SETUP 167 9.4 EXAMPLES FOR ENERGY-DISPERSIVE STRESS ANALYSIS 168 9.4.1 NEAR SURFACE RESIDUAL STRESS DEPTH PROFILING 168 9.4.2 FAST IN SITU STRESS ANALYSIS BY MEANS OF ENERGY-DISPERSIVE DIFFRACTION 171 9.5 FINAL REMARKS 173 REFERENCES 175 10 TEXTURE ANALYSES BY SYNCHROTRON X-RAYS AND NEUTRONS 179 SANGBONG YI, WEIMIN GAN, AND HEINZ G. BROKMEIER 10.1 TEXTURE MEASUREMENTS ON LABORATORY SCALE 179 10.1.1 X-RAY DIFFRACTION 179 10.1.2 ELECTRON DIFFRACTION 181 10.2 TEXTURE MEASUREMENTS AT LARGE SCALE FACILITIES 182 10.2.1 NEUTRON DIFFRACTION 182 10.2.2 TEXTURE ANALYSIS USING SYNCHROTRON X-RAYS 185 10.2.3 EXAMPLES OF TEXTURE ANALYSES USING NEUTRONS AND SYNCHROTRON X-RAYS 189 10.2.3.1 LOCAL TEXTURE MEASUREMENT OF A FRICTION WELDED ROD 189 10.2.3.2 GLOBAL TEXTURE IN CU WIRE 190 10.2.3.3 IN SITU TEXTURE MEASUREMENT OF STEEL AT ELEVATED TEMPERATURE 191 10.2.3.4 IN SITU TEXTURE MEASUREMENT UNDER LOADING 192 10.3 CONCLUSION 193 REFERENCES 194 11 BASICS OF SMALL-ANGLE SCATTERING METHODS 197 PHILIPP K. PRANZAS 11.1 INTRODUCTION 197 11.2 COMMON FEATURES OF A SAS INSTRUMENT 197 11.3 CONTRAST 198 11.4 SCATTERING CURVE 198 11.5 POWER LAW/SCATTERING BY FRACTAL SYSTEMS 200 11.6 GUINIER AND POROD APPROXIMATIONS 201 11.7 MACROSCOPIC DIFFERENTIAL SCATTERING CROSS-SECTION 202 11.8 MODEL CALCULATION OF SIZE DISTRIBUTIONS 202 11.9 MAGNETIC STRUCTURES 203 REFERENCES 204 12 SMALL-ANGLE NEUTRON SCATTERING 207 PHILIPP K. PRANZAS AND ANDRE HEINEMANN 12.1 INTRODUCTION 207 12.2 NANOCRYSTALLINE MAGNESIUM HYDRIDE FOR THE REVERSIBLE STORAGE OF HYDROGEN 208 12.3 PRECIPITATES IN STEEL 210 12.4 SI02 NANOPARTICLES IN A POLYMER MATRIX - AN INDUSTRIAL APPLICATION 213 12.5 GREEN SURFACTANTS 213 ACKNOWLEDGMENTS 215 REFERENCES 215 13 ANOMALOUS SMALL-ANGLE X-RAY SCATTERING 217 ULLA VAINIO 13.1 INTRODUCTION 217 13.2 THEORY 218 13.2.1 SCATTERING POWER OF ELEMENTS 218 13.2.2 CONTRAST VARIATION 219 13.2.3 PARTIAL STRUCTURE FACTOR FORMALISM 219 13.2.4 MODEL-DEPENDENT ASAXS 221 13.2.5 SUBTRACTION METHOD 221 13.3 EXPERIMENTS 223 13.4 EXAMPLE: ASAXS ON CATALYST NANOPARTICLES 223 13.5 SUMMARY AND OUTLOOK 223 REFERENCES 224 14 IMAGING 227 WOLFGANG TREIMER 14.1 RADIOGRAPHY 227 14.1.1 FUNDAMENTALS 227 14.1.2 INTERACTIONS OF NEUTRONS WITH MATTER 228 14.1.3 GEOMETRIES 230 14.1.4 RESOLUTION FUNCTIONS 232 14.1.5 IMAGE DEGRADATION 235 14.1.6 OTHER IMAGING TECHNIQUES 236 14.1.6.1 ENERGY DISPERSIVE RADIOGRAPHY 236 14.1.6.2 REAL-TIME RADIOGRAPHY 238 14.1.6.3 PHASE CONTRAST RADIOGRAPHY 239 14.2 TOMOGRAPHY 240 14.2.1 MATHEMATICAL INTRODUCTION 240 14.2.2 SLICE THEOREM, SHANNON THEOREM 241 14.2.3 IMAGE RECONSTRUCTION 243 14.3 NEW DEVELOPMENTS IN NEUTRON TOMOGRAPHY 244 14.3.1 REFRACTION 246 14.3.2 ULTRA-SMALL ANGLE NEUTRON TOMOGRAPHY 247 14.3.3 RADIOGRAPHY AND TOMOGRAPHY WITH POLARIZED NEUTRONS 249 REFERENCES 250 15 NEUTRON AND SYNCHROTRON-RADIATION-BASED IMAGING FOR APPLICATIONS IN MATERIALS SCIENCE - FROM MACRO- TO NANOTOMOGRAPHY 253 FELIX BECKMANN 15.1 INTRODUCTION 253 15.1.1 ATTENUATION-CONTRAST PROJECTIONS 253 15.1.2 PHASE-CONTRAST PROJECTIONS 254 15.1.3 PHASE-ENHANCED PROJECTIONS 255 15.1.4 DIRECT PHASE-CONTRAST PROJECTIONS 255 15.1.5 INDIRECT PHASE-CONTRAST PROJECTIONS 255 15.2 PARALLEL-BEAM TOMOGRAPHY 256 15.2.1 MEASUREMENT AND RECONSTRUCTION 256 15.2.2 DENSITY RESOLUTION AND DETECTOR QUALITY 258 15.2.3 DATA EVALUATION AND VISUALIZATION 258 15.3 MACROTOMOGRAPHY USING NEUTRONS 258 15.3.1 EXPERIMENTAL SETUP 258 15.3.2 MEASUREMENTS AND RESULTS 260 15.4 MICROTOMOGRAPHY USING SYNCHROTRON RADIATION 264 15.4.1 BEAMLINE OPTICS 265 15.4.2 EXPERIMENTAL SETUP 267 15.5 SUMMARY AND OUTLOOK 271 REFERENCES 271 16 \|I-TOMOGRAPHY OF ENGINEERING MATERIALS 275 ASTRID HAIBEL AND JULIA HERZEN 16.1 INTRODUCTION 275 16.2 ADVANTAGE OF SYNCHROTRON TOMOGRAPHY 275 16.3 APPLICATIONS AND 3D IMAGE ANALYSIS 276 16.3.1 DISCHARGING PROCESSES IN ALKALINE CELLS 276 16.3.2 MICROSTRUCTURAL INVESTIGATIONS OF NB3SN MULTI-FILAMENTARY SUPERCONDUCTOR WIRES 278 16.3.3 INFLUENCE OF THE FOAMING AGENT ON METALLIC FOAM STRUCTURES 280 16.3.4 EX VIVO GRATING-BASED PHASE CONTRAST IMAGING OF HUMAN CAROTID ARTERIES 281 16.4 IMAGE ARTIFACTS 282 16.4.1 RING ARTIFACTS 282 16.4.2 IMAGE NOISE 284 16.4.3 EDGE ARTIFACTS 284 16.4.4 MOTION ARTIFACTS 285 16.4.5 CENTERING ERRORS OF THE ROTATION AXIS 286 16.5 SUMMARY 286 REFERENCES 286 PART III NEW AND EMERGING METHODS 291 17 3D X-RAY DIFFRACTION MICROSCOPE 293 HENNING F. POULSENF WOLFGANG LUDWIG, AND SOREN SCHMIDT 17.1 BASIC SETUP AND STRATEGY 294 17.1.1 THE 3DXRD MICROSCOPE 296 17.2 INDEXING AND CHARACTERIZATION OF AVERAGE PROPERTIES OF EACH GRAIN 296 17.2.1 APPLICATION I: NUCLEATION AND GROWTH STUDIES 297 17.2.2 APPLICATION II: PLASTIC DEFORMATION 298 17.2.3 APPLICATION III: STUDIES OF SUBGRAINS AND NANOCRYSTALLINE MATERIALS 299 17.3 MAPPING OF GRAINS AND ORIENTATIONS 300 17.3.1 MODE III: MAPPING GRAINS IN UNDEFORMED SPECIMENS 300 17.3.2 MODE IV: MAPPING ORIENTATIONS IN DEFORMED SPECIMENS 301 17.3.3 APPLICATION I: RECRYSTALLIZATION 302 17.3.4 APPLICATION II: GRAIN GROWTH 303 17.4 COMBINING 3DXRD AND TOMOGRAPHY 304 17.4.1 GRAIN MAPPING BY TOMOGRAPHY 304 17.5 OUTLOOK 305 REFERENCES 306 18 3D MICRON-RESOLUTION LAUE DIFFRACTION 309 GENE E. ICE 18.1 INTRODUCTION 309 18.2 THE NEED FOR POLYCHROMATIC MICRODIFFRACTION 309 18.3 THEORETICAL BASIS FOR ADVANCED POLYCHROMATIC MICRODIFFRACTION 311 18.3.1 MODIFIED EWALDS SPHERE DESCRIPTION OF LAUE DIFFRACTION 311 18.3.2 QUALITATIVE INFORMATION: PHASE, TEXTURE, ELASTIC STRAIN, DISLOCATION DENSITY 312 18.3.2.1 PHASE 312 18.3.2.2 TEXTURE 312 18.3.2.3 DISLOCATION TENSOR 313 18.3.2.4 ELASTIC STRAIN TENSOR 313 18.4 TECHNICAL DEVELOPMENTS FOR AN AUTOMATED 3D PROBE 313 18.4.1 SOURCE 313 18.4.2 MICROBEAM MONOCHROMATOR 315 18.4.3 NONDISPERSIVE FOCUSING OPTICS 316 18.4.4 AREA DETECTOR 317 18.4.5 DIFFERENTIAL APERTURE 317 18.4.6 SOFTWARE 317 18.5 RESEARCH EXAMPLES 318 18.5.1 3D GRAIN BOUNDARY NETWORKS 319 18.5.2 DEFORMATION BEHAVIOR AND GRAIN BOUNDARIES 319 18.5.3 DEFORMATION IN SINGLE CRYSTALS 321 18.5.4 GRAIN GROWTH ON SURFACES AND IN THREE DIMENSIONS 321 18.5.5 ANOMALOUS GRAIN GROWTH 321 18.6 FUTURE PROSPECTS AND OPPORTUNITIES 324 ACKNOWLEDGMENT 324 REFERENCES 325 PART IV APPLICATIONS 327 19 THE USE OF NEUTRON AND SYNCHROTRON RESEARCH FOR AEROSPACE AND AUTOMOTIVE MATERIALS AND COMPONENTS 329 WOLFGANG KAYSSER, JOERG ESSLINGER, VOLKER ABETZ, NORBERT HUBER, KARL U. KAINER, THOMAS KLASSEN, FLORIAN PYCZAK, ANDREAS SCHREYER, AND PETER STARON 19.1 INTRODUCTION 329 19.2 COMMERCIAL PASSENGER AIRCRAFT 331 19.2.1 REDUCTION OF AIRFRAME WEIGHT OF COMMERCIAL PASSENGER AIRCRAFTS 332 19.2.1.1 WELDING COMMERCIAL PASSENGER AIRCRAFT FRAMES: REACTIONS, MICROSTRUCTURE DEVELOPMENT, AND MECHANICAL PROPERTIES 332 19.2.1.2 WELDING COMMERCIAL PASSENGER AIRCRAFT: RESIDUAL STRESSES AND STRESS MODIFICATION 333 19.2.1.3 WELDING OF COMMERCIAL PASSENGER AIRCRAFT: FATIGUE CRACK GROWTH 335 19.2.1.4 WEIGHT REDUCTION OF AIRCRAFT BY POLYMERS AND POLYMER MATRIX-BASED COMPOSITES 335 19.2.2 AERO-ENGINES 337 19.2.2.1 METALLIC MATERIALS TO IMPROVE THE THRUST-TO-WEIGHT RATIO OF JET AERO-ENGINES 338 19.2.2.2 THERMAL BARRIER COATINGS TO ENHANCE THE THRUST-TO-WEIGHT INCREASE OF THE AERO-ENGINE 340 19.3 THE LIGHT-DUTY AUTOMOTIVE VEHICLE 341 19.3.1 THE OPTIMIZED LIGHT-DUTY CAR BODY 343 19.3.1.1 LIGHTWEIGHT METALLIC MATERIALS FOR LIGHTWEIGHT CAR BODIES 343 19.3.1.2 OPTIMIZED JOINING PROCESSES FOR AUTOMOTIVE APPLICATIONS 345 19.3.2 THE AUTOMOTIVE POWER TRAIN AND THE PROPULSION SYSTEM OF LIGHT-DUTY CARS 346 19.3.2.1 RESIDUAL STRESSES IN COMPONENTS 347 19.3.2.2 WEAR AND LUBRICATION 348 19.3.2.3 POLYMERIC MEMBRANES FOR FUEL CELLS (PEMFCS) 349 19.3.2.4 NANOCRYSTALLINE METAL HYDRIDES FOR HYDROGEN STORAGE 350 19.4 OTHER TRANSPORT SYSTEMS 352 REFERENCES 353 20 IN SITU EXPERIMENTS WITH SYNCHROTRON HIGH-ENERGY X-RAYS AND NEUTRONS 365 PETER STARON, TORBEN FISCHER, THOMAS LIPPMANN, ANDREAS STARK, SHAHROKH DANESHPOUR, DIRK SCHNUBEL, ECKART UHLMANN, ROBERT GERSTENBERGER, BETTINA CAMIN, WALTER REIMERS, ELISABETH EIDENBERGER-SCHOBER, HELMUT CLEMENS, NORBERT HUBER, AND ANDREAS SCHREYER 20.1 INTRODUCTION 365 20.2 IN SITU DILATOMETRY 366 20.2.1 MOTIVATION 366 20.2.2 FLEXITHERM 366 20.2.3 RESULTS 367 20.3 IN SITU STUDY ON SINGLE OVERLOAD OF FATIGUE-CRACKED SPECIMENS 368 20.3.1 MOTIVATION 368 20.3.2 EXPERIMENTAL 369 20.3.3 RESULTS 369 20.4 IN SITU CUTTING EXPERIMENT 370 20.4.1 MOTIVATION 370 20.4.2 EXPERIMENT 371 20.4.3 RESULTS 371 20.5 IN SITU STUDY OF PRECIPITATION KINETICS USING NEUTRONS 372 20.5.1 MOTIVATION 372 20.5.2 EXPERIMENTAL DETAILS 372 20.5.3 RESULTS 373 20.6 CONCLUSIONS 373 REFERENCES 374 21 APPLICATION OF PHOTONS AND NEUTRONS FOR THE CHARACTERIZATION AND DEVELOPMENT OF ADVANCED STEELS 377 ELISABETH EIDENBERGER-SCHOBER, RONALD SCHNITZER, GERALD A. ZICKLER, MICHAEL EIDENBERGER-SCHOBER, MICHAEL BISCHOF, PETER STARON, HARALD LEITNER, ANDREAS SCHREYER, AND HELMUT CLEMENS 21.1 INTRODUCTION 377 21.2 CHARACTERIZATION USING SYNCHROTRON RADIATION 378 21.2.1 EX SITU AND IN SITU HIGH-ENERGY X-RAY DIFFRACTION (HE-XRD) DURING HEATING 378 21.2.2 SMALL-ANGLE X-RAY SCATTERING (SAXS) 380 21.2.3 IN SITU HIGH-ENERGY X-RAY DIFFRACTION UNDER TENSILE LOADING 381 21.3 CHARACTERIZATION USING SMALL-ANGLE NEUTRON SCATTERING (SANS) 382 21.3.1 USE OF SANS TO STUDY PRECIPITATES IN STEELS 382 21.3.1.1 ANALYSIS OF SECONDARY HARDENING CARBIDES 382 21.3.1.2 ANALYSIS OF INTERMETALLIC PRECIPITATES 383 21.3.2 IN SITU SANS DURING CONTINUOUS AND ISOTHERMAL AGING 386 21.3.3 SANS WITH VARIABLE MAGNETIC FIELD 388 21.4 CONCLUSIONS 388 REFERENCES 390 22 THE CONTRIBUTION OF HIGH-ENERGY X-RAYS AND NEUTRONS TO CHARACTERIZATION AND DEVELOPMENT OF INTERMETALLIC TITANIUM ALUMINIDES 395 THOMAS SCHMOELZER, KLAUS-DIETER LISS, PETER STARON, ANDREAS STARK, EMANUEL SCHWAIGHOFER, THOMAS LIPPMANN, HELMUT CLEMENS, AND SVEA MAYER 22.1 INTRODUCTION 395 22.2 HIGH-ENERGY X-RAYS AND NEUTRONS 396 22.3 IN SITU INVESTIGATION OF PHASE EVOLUTION 398 22.3.1 GENERAL ASPECTS 398 22.3.2 PHASE EVOLUTION IN SS/Y-ALLOYS 399 22.3.3 FORMATION AND IDENTIFICATION OF A TRANSITION PHASE 401 22.3.4 FORMATION OF LAMELLAR MICROSTRUCTURE 405 22.4 ATOMIC ORDER AND DISORDER IN TLA1 ALLOYS 409 22.5 RECOVERY AND RECRYSTALLIZATION DURING DEFORMATION OF TIAL 412 22.5.1 GENERAL ASPECTS 412 22.5.2 ANALYSIS OF DIFFRACTION DATA 414 22.5.3 HOT DEFORMATION OF A MULTI-PHASE ALLOY 415 22.6 LATTICE PARAMETER AND THERMAL EXPANSION 418 22.7 CONCLUSIONS 419 REFERENCES 420 23 IN SITU PLAUE: INSTRUMENTAL SETUP FOR THE DEFORMATION OF MICRON SIZED SAMPLES 425 CHRISTOPH KIRCHLECHNER, JOZEF KECKES, JEAN 5. MICHA, AND GERHARD DEHM 23.1 INTRODUCTION 425 23.1.1 PLAUE DIFFRACTION, A SHORT INTRODUCTION 426 23.2 EXPERIMENTAL INSTRUMENTATION 427 23.2.1 THE STRAINING DEVICE 427 23.2.2 THE SYNCHROTRON BEAMLINE 428 23.2.3 THE EXPERIMENT 429 23.2.4 DATA ANALYSIS 430 23.2.5 EXAMPLE: / S/TA DEFORMATION OF A COPPER PILLAR 430 23.3 DISCUSSION 433 23.3.1 DEFORMATION BEHAVIOR OF THE PILLAR 433 23.3.2 TAILS OF THE PRIMARY BEAM 433 23.3.3 SAMPLE MOVEMENTS DURING DEFORMATION 435 23.3.4 STREAKING OF LAUE PATTERNS 435 23.4 CONCLUSION 436 ACKNOWLEDGMENTS 436 REFERENCES 436 24 RESIDUAL STRESSES IN THIN FILMS AND COATED TOOLS: CHALLENGES AND STRATEGIES FOR THEIR NONDESTRUCTIVE ANALYSIS BY X-RAY DIFFRACTION METHODS 439 MANUELA KLAUS AND CHRISTOPH GENZEL 24.1 INTRODUCTION 439 24.2 COMPILATION OF APPROACHES TO MEET THE CHALLENGES IN THIN FILM X-RAY STRESS ANALYSIS (XSA) 441 24.2.1 STRESS ANALYSIS UNDER GRAZING AND GLANCING DIFFRACTION CONDITIONS 441 24.2.2 SEPARATION OF RESIDUAL STRESS AND COMPOSITION GRADIENTS 444 24.3 FINAL REMARKS AND RECOMMENDATIONS 447 REFERENCES 448 INDEX 451
any_adam_object	1
author2	Staron, Peter 1962- Schreyer, Andreas 1963- Clemens, Helmut 1957- Mayer, Svea 1981-
author2_role	edt edt edt edt
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author_GND	(DE-588)1130250504 (DE-588)1015467431 (DE-588)1130251136 (DE-588)1130251365
author_facet	Staron, Peter 1962- Schreyer, Andreas 1963- Clemens, Helmut 1957- Mayer, Svea 1981-
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dewey-tens	540 - Chemistry and allied sciences
discipline	Chemie / Pharmazie Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik
edition	Second edition
format	Book
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spelling	Neutrons and synchrotron radiation in engineering materials science from fundamentals to applications edited by Peter Staron, Andreas Schreyer, Helmut Clemens, and Svea Mayer Second edition Weinheim Wiley-VCH Verlag GmbH & Co. KGaA [2017] © 2017 xxiv, 462 Seiten Illustrationen, Diagramme (teilweise farbig) txt rdacontent n rdamedia nc rdacarrier Zerstörungsfreie Werkstoffprüfung (DE-588)4067689-4 gnd rswk-swf Hochleistungswerkstoff (DE-588)4312250-4 gnd rswk-swf Mikrostruktur (DE-588)4131028-7 gnd rswk-swf Neutronenstrahlung (DE-588)4221352-6 gnd rswk-swf Synchrotronstrahlung (DE-588)4184235-2 gnd rswk-swf Aeronautic & Aerospace Engineering Bauingenieur- u. Bauwesen Baustoffe Civil Engineering & Construction Construction Materials Festkörperphysik Luft- u. Raumfahrttechnik Maschinenbau Materials Characterization Materials Science Materialwissenschaften Mechanical Engineering Physics Physik Solid State Physics Werkstoffprüfung Chemie (DE-588)4143413-4 Aufsatzsammlung gnd-content Neutronenstrahlung (DE-588)4221352-6 s Zerstörungsfreie Werkstoffprüfung (DE-588)4067689-4 s Hochleistungswerkstoff (DE-588)4312250-4 s Mikrostruktur (DE-588)4131028-7 s DE-604 Synchrotronstrahlung (DE-588)4184235-2 s Staron, Peter 1962- (DE-588)1130250504 edt Schreyer, Andreas 1963- (DE-588)1015467431 edt Clemens, Helmut 1957- (DE-588)1130251136 edt Mayer, Svea 1981- (DE-588)1130251365 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, ePDF 978-3-527-68451-9 Erscheint auch als Online-Ausgabe, ePub 978-3-527-68450-2 Erscheint auch als Online-Ausgabe, Mobi 978-3-527-68449-6 Erscheint auch als Online-Ausgabe, oBook 978-3-527-68448-9 http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-33592-3/ Verlag DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029663547&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Neutrons and synchrotron radiation in engineering materials science from fundamentals to applications Zerstörungsfreie Werkstoffprüfung (DE-588)4067689-4 gnd Hochleistungswerkstoff (DE-588)4312250-4 gnd Mikrostruktur (DE-588)4131028-7 gnd Neutronenstrahlung (DE-588)4221352-6 gnd Synchrotronstrahlung (DE-588)4184235-2 gnd
subject_GND	(DE-588)4067689-4 (DE-588)4312250-4 (DE-588)4131028-7 (DE-588)4221352-6 (DE-588)4184235-2 (DE-588)4143413-4
title	Neutrons and synchrotron radiation in engineering materials science from fundamentals to applications
title_auth	Neutrons and synchrotron radiation in engineering materials science from fundamentals to applications
title_exact_search	Neutrons and synchrotron radiation in engineering materials science from fundamentals to applications
title_full	Neutrons and synchrotron radiation in engineering materials science from fundamentals to applications edited by Peter Staron, Andreas Schreyer, Helmut Clemens, and Svea Mayer
title_fullStr	Neutrons and synchrotron radiation in engineering materials science from fundamentals to applications edited by Peter Staron, Andreas Schreyer, Helmut Clemens, and Svea Mayer
title_full_unstemmed	Neutrons and synchrotron radiation in engineering materials science from fundamentals to applications edited by Peter Staron, Andreas Schreyer, Helmut Clemens, and Svea Mayer
title_short	Neutrons and synchrotron radiation in engineering materials science
title_sort	neutrons and synchrotron radiation in engineering materials science from fundamentals to applications
title_sub	from fundamentals to applications
topic	Zerstörungsfreie Werkstoffprüfung (DE-588)4067689-4 gnd Hochleistungswerkstoff (DE-588)4312250-4 gnd Mikrostruktur (DE-588)4131028-7 gnd Neutronenstrahlung (DE-588)4221352-6 gnd Synchrotronstrahlung (DE-588)4184235-2 gnd
topic_facet	Zerstörungsfreie Werkstoffprüfung Hochleistungswerkstoff Mikrostruktur Neutronenstrahlung Synchrotronstrahlung Aufsatzsammlung
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-33592-3/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029663547&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT staronpeter neutronsandsynchrotronradiationinengineeringmaterialssciencefromfundamentalstoapplications AT schreyerandreas neutronsandsynchrotronradiationinengineeringmaterialssciencefromfundamentalstoapplications AT clemenshelmut neutronsandsynchrotronradiationinengineeringmaterialssciencefromfundamentalstoapplications AT mayersvea neutronsandsynchrotronradiationinengineeringmaterialssciencefromfundamentalstoapplications AT wileyvch neutronsandsynchrotronradiationinengineeringmaterialssciencefromfundamentalstoapplications

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