Verfügbarkeit: Laser-based additive manufacturing

Laser-based additive manufacturing: modeling, simulation and experiments

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Bibliographische Detailangaben
Hauptverfasser:	Dahotre, Narendra B. (VerfasserIn), Pantawane, Mangesh V. (VerfasserIn), Sharma, Shashank (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim, Germany Wiley-VCH [2022]
Schlagworte:	Lasergenerieren Bruchmechanik CG04: Computergestützte Verfahrenstechnik Chemical Engineering Chemische Verfahrenstechnik Computer-Aided Engineering Computergestützte Verfahrenstechnik Failure Fracture ME60: Bruchmechanik MSE0: Materialverarbeitung Maschinenbau Materials Processing Materials Science Materialverarbeitung Materialwissenschaften Mechanical Engineering
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34791-9/ Inhaltsverzeichnis
Beschreibung:	xiii, 286 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
ISBN:	3527347917 9783527347919

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE IX ACRONYMS XIII 1 1.1 1.2 1.3 1.4 1.4.1 1.4.1.1 1.4.1.2 1.4.2 1.4.2.1 1.4.3 1.4.4 INTRODUCTION TO ADDITIVE MANUFACTURING 1 EVOLUTION OF MANUFACTURING 1 CONCEPT OF AM 3 ADVANTAGES OVER CONVENTIONAL MANUFACTURING TECHNIQUES 6 LASER-BASED AM 7 LASER-BASED DIRECTED ENERGY DEPOSITION 7 MACHINE DESIGN 9 PROCESS PARAMETERS 9 LASER POWDER BED FUSION 10 PROCESS PARAMETERS 11 ESTIMATION OF ENERGY INPUT IN LAM PROCESSES 13 MULTI-STEP LAM TECHNIQUES 15 REFERENCES 16 2 2.1 2.1.1 2.2 2.2.1 2.2.1.1 2.2.1.2 2.2.2 2.2.2.1 2.2.2.2 2.2.2.3 2.2.2.4 2.3 MULTISCALE COMPUTATIONAL APPROACHES TO LAM 19 COMPUTATIONAL SCIENCE 19 COMPUTATIONAL MATERIAL SCIENCE 20 MULTISCALE MODELING 21 NANO-MICRO-SCALE MODELING 21 MOLECULAR DYNAMICS AND DENSITY FUNCTIONAL THEORY 21 MONTE CARLO METHOD 22 MESO-MACRO SCALE MODELING 23 KINETIC MONTE CARLO METHOD 24 CELLULAR AUTOMATA 25 PHASE-FIELD METHOD 29 FINITE ELEMENT METHOD 30 INTEGRATED COMPUTATIONAL MATERIALS ENGINEERING (ICME) 33 REFERENCES 34 VI CONTENTS 3 3.1 3.1.1 3.2 3.3 3.3.1 3.3.1.1 3.3.1.2 3.3.2 3.3.2.1 3.3.2.2 3.3.3 3.4 3.4.1 3.4.2 3.4.3 3.4.4 3.4.5 3.5 3.5.1 3.5.2 3.5.3 3.5.4 3.6 3.7 3.8 3.9 3.10 LASER MATTER INTERACTION IN LAM 37 INTRODUCTION 37 PHYSICAL PHENOMENA IN LAM 38 COMPONENTS OF MATHEMATICAL MODELS IN METAL AM 40 FEEDSTOCK 40 POWDER BED MORPHOLOGY IN LPBF 40 DISCRETE ELEMENT METHOD 41 POWDER SPREADING MECHANISM 44 POWDER STREAM GENERATION IN LDED 48 TURBULENT GAS FLOW AND DISCRETE PHASE MODEL 49 POWDER STREAM CHARACTERISTICS 52 LASER-FEEDSTOCK INTERACTION 54 THERMO-FLUIDIC MODEL IN LAM 60 LASER HEAT SOURCE 61 RADIATIVE AND CONVECTIVE COOLING 61 RECOIL PRESSURE AND EVAPORATIVE COOLING 61 SURFACE TENSION 62 FREE SURFACE TRACKING METHODS 63 MELT HYDRODYNAMICS IN LPBF 65 THERMO-FLUIDIC ANATOMY OF A SINGLE TRACK 65 CONDUCTION MODE LPBF 68 KEYHOLE MODE LPBF 68 ENERGY COUPLING MECHANISM 71 MELT HYDRODYNAMICS IN LDED 74 MULTI-LAYER, MULTI-TRACK APPROACH 79 COMPUTATIONAL COST 82 COMPUTATIONALLY EFFICIENT APPROACH 83 GUIDELINES FOR EXPERIMENTAL VALIDATION 89 REFERENCES 89 4 THERMOKINETICS, MICROSTRUCTURAL EVOLUTION, AND MATERIAL RESPONSE 101 4.1 4.2 4.2.1 4.2.1.1 4.2.1.2 4.2.1.3 4.2.2 4.2.2.1 4.2.2.2 4.2.3 4.2.4 4.2.5 4.2.5.1 THERMOKINETICS IN LAM 101 SOLIDIFICATION 104 NUCLEATION 104 HETEROGENEOUS NUCLEATION ASSISTED BY INOCULANTS 104 HOMOGENEOUS NUCLEATION 107 NUCLEATION INFLUENCED BY ACOUSTIC CAVITATION 110 SOLIDIFICATION VARIABLES 115 THERMAL GRADIENT 115 SOLIDIFICATION RATE 116 GROWTH AND ORIENTATION 116 SOLIDIFICATION MODES 121 SPATIAL VARIATION OF THERMOKINETIC PARAMETERS 124 DEPENDENCE ON THE CURVATURE OF THE TRAILING BOUNDARY 126 CONTENTS VII 4.2.5.2 SOLIDIFICATION RATE AND THERMAL GRADIENT 128 4.2.53 MORPHOLOGY FACTOR AND COOLING RATE VARIATION 128 4.2.5.4 COLUMNAR-TO-EQUIAXED TRANSITION 131 4.3 THERMAL CYCLES IN LAM PROCESSES 134 4.3.1 THERMAL CYCLES IN LPBF 134 43.1.1 THERMAL CYCLES DURING LAYER FABRICATION 137 43.1.2 THERMAL CYCLES DURING FABRICATION OF MULTIPLE LAYERS 138 43.2 THERMAL CYCLES IN LDED 139 43.2.1 THERMAL CYCLES DURING THE DEPOSITION OF A LAYER 141 43.2.2 THERMAL CYCLES DURING FABRICATION OF MULTIPLE LAYERS 141 4.4 PHASE TRANSFORMATIONS IN LAM 142 4.4.1 THERMAL CYCLE-DRIVEN PHASE EVOLUTION 143 4.4.2 PROCESS-DRIVEN PHASE TRANSFORMATIONS 148 4.4.2.1 ISOTHERMAL EFFECT 148 4.4.2.2 PROCESS PARAMETERS 149 4.5 EFFECT OF PROCESS PARAMETERS 151 4.5.1 LASER BEAM ATTRIBUTES 151 4.5.1.1 LASER BEAM DIAMETER 153 4.5.1.2 LASER POWER 154 4.5.13 LASER SPEED 156 4.5.2 LASER PROCESS ATTRIBUTES 161 4.5.2.1 SCANNING STRATEGY 161 4.5.2.2 PREHEATING THE SUBSTRATE 164 4.5 .23 BUILD ORIENTATION 166 4.5 .2.4 INTERLAYER DURATION 167 4.5 .2.5 FEED RATE 169 4.6 EFFECT OF MELTING MODES 170 4.7 LASER OPERATION MODES 173 4.8 MATERIAL RESPONSE 178 4.8.1 MECHANICAL RESPONSE 179 4.8.1.1 ELASTIC MODULUS 192 4.8.1.2 FATIGUE 193 4.8.13 CREEP 194 4.8.1.4 WEAR 195 4.8.2 ELECTROCHEMICAL RESPONSE 196 REFERENCES 200 5 RESIDUAL STRESS IN LAM 223 5.1 INTRODUCTION 223 5.2 THERMO-MECHANICAL MODEL: MATHEMATICAL FRAMEWORK 225 5.2.1 ELASTO-PLASTIC MECHANICAL MODEL 226 5.2.2 STRESS-STRAIN BEHAVIOR 227 5.2.2.1 ELASTIC REGION 227 5.2.2.2 YIELD STRESS 227 5.2.23 PLASTIC REGION 227 VIII I CONTENTS INDEX 277 5.2.2.4 5.2.3 5.2.3.1 5.2.3.2 5.2.3.3 5.2.3.4 5.2.3.5 5.2.3.6 5.2.3.7 5.2.3.8 5.2.3.9 5.2.3.10 5.3 5.3.1 5.4 5.4.1 5.4.2 5.4.3 5.4.4 5.4.5 BAUSCHINGER EFFECT AND KINEMATIC HARDENING 228 BASIC ELEMENTS OF ELASTIC-PLASTIC THEORY 229 STRESS 229 STRAIN 230 EQUATION OF MOTION 231 CRITERION FOR INITIAL YIELDING 231 FLOW RULE 231 ISOTROPIC STRAIN HARDENING 232 VISCOPLASTICITY AND THERMAL SOFTENING 232 KINEMATIC HARDENING 232 CONSISTENCY CONDITION 233 ELASTIC-PLASTIC STRESS-STRAIN RELATION 233 THERMAL ELASTIC-PLASTIC FORMULATION 234 MACRO-SCALE APPROACHES 237 EVOLUTION OF RESIDUAL STRESS IN LAM 237 THERMO-MECHANICAL ANATOMY OF A SINGLE TRACK 238 THERMO-MECHANICAL ANATOMY OF A SINGLE LAYER 241 STRESS EVOLUTION AT COMPONENT SCALE 241 EXPERIMENTAL VALIDATION OF RESIDUAL STRESS 242 INTEGRATED EXPERIMENTAL AND NUMERICAL APPROACH FOR THE MITIGATION OF RESIDUAL STRESS 246 5.4.5.1 5.4.5.2 5.4.5.3 ROLE OF THE SCANNING STRATEGY 246 ROLE OF PREHEATING 250 REAL-TIME CONTROL AND MISCELLANEOUS APPROACHES 251 REFERENCES 253 6 6.1 6.2 6.3 6.4 SURFACE ROUGHNESS IN LAM 261 INTRODUCTION 261 SURFACE ROUGHNESS CHARACTERISTICS IN LAM 262 SURFACE DEFECTS IN LAM 265 POST-LAM SURFACE FINISHING 269 REFERENCES 272
adam_txt	CONTENTS PREFACE IX ACRONYMS XIII 1 1.1 1.2 1.3 1.4 1.4.1 1.4.1.1 1.4.1.2 1.4.2 1.4.2.1 1.4.3 1.4.4 INTRODUCTION TO ADDITIVE MANUFACTURING 1 EVOLUTION OF MANUFACTURING 1 CONCEPT OF AM 3 ADVANTAGES OVER CONVENTIONAL MANUFACTURING TECHNIQUES 6 LASER-BASED AM 7 LASER-BASED DIRECTED ENERGY DEPOSITION 7 MACHINE DESIGN 9 PROCESS PARAMETERS 9 LASER POWDER BED FUSION 10 PROCESS PARAMETERS 11 ESTIMATION OF ENERGY INPUT IN LAM PROCESSES 13 MULTI-STEP LAM TECHNIQUES 15 REFERENCES 16 2 2.1 2.1.1 2.2 2.2.1 2.2.1.1 2.2.1.2 2.2.2 2.2.2.1 2.2.2.2 2.2.2.3 2.2.2.4 2.3 MULTISCALE COMPUTATIONAL APPROACHES TO LAM 19 COMPUTATIONAL SCIENCE 19 COMPUTATIONAL MATERIAL SCIENCE 20 MULTISCALE MODELING 21 NANO-MICRO-SCALE MODELING 21 MOLECULAR DYNAMICS AND DENSITY FUNCTIONAL THEORY 21 MONTE CARLO METHOD 22 MESO-MACRO SCALE MODELING 23 KINETIC MONTE CARLO METHOD 24 CELLULAR AUTOMATA 25 PHASE-FIELD METHOD 29 FINITE ELEMENT METHOD 30 INTEGRATED COMPUTATIONAL MATERIALS ENGINEERING (ICME) 33 REFERENCES 34 VI CONTENTS 3 3.1 3.1.1 3.2 3.3 3.3.1 3.3.1.1 3.3.1.2 3.3.2 3.3.2.1 3.3.2.2 3.3.3 3.4 3.4.1 3.4.2 3.4.3 3.4.4 3.4.5 3.5 3.5.1 3.5.2 3.5.3 3.5.4 3.6 3.7 3.8 3.9 3.10 LASER MATTER INTERACTION IN LAM 37 INTRODUCTION 37 PHYSICAL PHENOMENA IN LAM 38 COMPONENTS OF MATHEMATICAL MODELS IN METAL AM 40 FEEDSTOCK 40 POWDER BED MORPHOLOGY IN LPBF 40 DISCRETE ELEMENT METHOD 41 POWDER SPREADING MECHANISM 44 POWDER STREAM GENERATION IN LDED 48 TURBULENT GAS FLOW AND DISCRETE PHASE MODEL 49 POWDER STREAM CHARACTERISTICS 52 LASER-FEEDSTOCK INTERACTION 54 THERMO-FLUIDIC MODEL IN LAM 60 LASER HEAT SOURCE 61 RADIATIVE AND CONVECTIVE COOLING 61 RECOIL PRESSURE AND EVAPORATIVE COOLING 61 SURFACE TENSION 62 FREE SURFACE TRACKING METHODS 63 MELT HYDRODYNAMICS IN LPBF 65 THERMO-FLUIDIC ANATOMY OF A SINGLE TRACK 65 CONDUCTION MODE LPBF 68 KEYHOLE MODE LPBF 68 ENERGY COUPLING MECHANISM 71 MELT HYDRODYNAMICS IN LDED 74 MULTI-LAYER, MULTI-TRACK APPROACH 79 COMPUTATIONAL COST 82 COMPUTATIONALLY EFFICIENT APPROACH 83 GUIDELINES FOR EXPERIMENTAL VALIDATION 89 REFERENCES 89 4 THERMOKINETICS, MICROSTRUCTURAL EVOLUTION, AND MATERIAL RESPONSE 101 4.1 4.2 4.2.1 4.2.1.1 4.2.1.2 4.2.1.3 4.2.2 4.2.2.1 4.2.2.2 4.2.3 4.2.4 4.2.5 4.2.5.1 THERMOKINETICS IN LAM 101 SOLIDIFICATION 104 NUCLEATION 104 HETEROGENEOUS NUCLEATION ASSISTED BY INOCULANTS 104 HOMOGENEOUS NUCLEATION 107 NUCLEATION INFLUENCED BY ACOUSTIC CAVITATION 110 SOLIDIFICATION VARIABLES 115 THERMAL GRADIENT 115 SOLIDIFICATION RATE 116 GROWTH AND ORIENTATION 116 SOLIDIFICATION MODES 121 SPATIAL VARIATION OF THERMOKINETIC PARAMETERS 124 DEPENDENCE ON THE CURVATURE OF THE TRAILING BOUNDARY 126 CONTENTS VII 4.2.5.2 SOLIDIFICATION RATE AND THERMAL GRADIENT 128 4.2.53 MORPHOLOGY FACTOR AND COOLING RATE VARIATION 128 4.2.5.4 COLUMNAR-TO-EQUIAXED TRANSITION 131 4.3 THERMAL CYCLES IN LAM PROCESSES 134 4.3.1 THERMAL CYCLES IN LPBF 134 43.1.1 THERMAL CYCLES DURING LAYER FABRICATION 137 43.1.2 THERMAL CYCLES DURING FABRICATION OF MULTIPLE LAYERS 138 43.2 THERMAL CYCLES IN LDED 139 43.2.1 THERMAL CYCLES DURING THE DEPOSITION OF A LAYER 141 43.2.2 THERMAL CYCLES DURING FABRICATION OF MULTIPLE LAYERS 141 4.4 PHASE TRANSFORMATIONS IN LAM 142 4.4.1 THERMAL CYCLE-DRIVEN PHASE EVOLUTION 143 4.4.2 PROCESS-DRIVEN PHASE TRANSFORMATIONS 148 4.4.2.1 ISOTHERMAL EFFECT 148 4.4.2.2 PROCESS PARAMETERS 149 4.5 EFFECT OF PROCESS PARAMETERS 151 4.5.1 LASER BEAM ATTRIBUTES 151 4.5.1.1 LASER BEAM DIAMETER 153 4.5.1.2 LASER POWER 154 4.5.13 LASER SPEED 156 4.5.2 LASER PROCESS ATTRIBUTES 161 4.5.2.1 SCANNING STRATEGY 161 4.5.2.2 PREHEATING THE SUBSTRATE 164 4.5 .23 BUILD ORIENTATION 166 4.5 .2.4 INTERLAYER DURATION 167 4.5 .2.5 FEED RATE 169 4.6 EFFECT OF MELTING MODES 170 4.7 LASER OPERATION MODES 173 4.8 MATERIAL RESPONSE 178 4.8.1 MECHANICAL RESPONSE 179 4.8.1.1 ELASTIC MODULUS 192 4.8.1.2 FATIGUE 193 4.8.13 CREEP 194 4.8.1.4 WEAR 195 4.8.2 ELECTROCHEMICAL RESPONSE 196 REFERENCES 200 5 RESIDUAL STRESS IN LAM 223 5.1 INTRODUCTION 223 5.2 THERMO-MECHANICAL MODEL: MATHEMATICAL FRAMEWORK 225 5.2.1 ELASTO-PLASTIC MECHANICAL MODEL 226 5.2.2 STRESS-STRAIN BEHAVIOR 227 5.2.2.1 ELASTIC REGION 227 5.2.2.2 YIELD STRESS 227 5.2.23 PLASTIC REGION 227 VIII I CONTENTS INDEX 277 5.2.2.4 5.2.3 5.2.3.1 5.2.3.2 5.2.3.3 5.2.3.4 5.2.3.5 5.2.3.6 5.2.3.7 5.2.3.8 5.2.3.9 5.2.3.10 5.3 5.3.1 5.4 5.4.1 5.4.2 5.4.3 5.4.4 5.4.5 BAUSCHINGER EFFECT AND KINEMATIC HARDENING 228 BASIC ELEMENTS OF ELASTIC-PLASTIC THEORY 229 STRESS 229 STRAIN 230 EQUATION OF MOTION 231 CRITERION FOR INITIAL YIELDING 231 FLOW RULE 231 ISOTROPIC STRAIN HARDENING 232 VISCOPLASTICITY AND THERMAL SOFTENING 232 KINEMATIC HARDENING 232 CONSISTENCY CONDITION 233 ELASTIC-PLASTIC STRESS-STRAIN RELATION 233 THERMAL ELASTIC-PLASTIC FORMULATION 234 MACRO-SCALE APPROACHES 237 EVOLUTION OF RESIDUAL STRESS IN LAM 237 THERMO-MECHANICAL ANATOMY OF A SINGLE TRACK 238 THERMO-MECHANICAL ANATOMY OF A SINGLE LAYER 241 STRESS EVOLUTION AT COMPONENT SCALE 241 EXPERIMENTAL VALIDATION OF RESIDUAL STRESS 242 INTEGRATED EXPERIMENTAL AND NUMERICAL APPROACH FOR THE MITIGATION OF RESIDUAL STRESS 246 5.4.5.1 5.4.5.2 5.4.5.3 ROLE OF THE SCANNING STRATEGY 246 ROLE OF PREHEATING 250 REAL-TIME CONTROL AND MISCELLANEOUS APPROACHES 251 REFERENCES 253 6 6.1 6.2 6.3 6.4 SURFACE ROUGHNESS IN LAM 261 INTRODUCTION 261 SURFACE ROUGHNESS CHARACTERISTICS IN LAM 262 SURFACE DEFECTS IN LAM 265 POST-LAM SURFACE FINISHING 269 REFERENCES 272
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id	DE-604.BV048489175
illustrated	Illustrated
index_date	2024-07-03T20:41:11Z
indexdate	2024-07-10T09:39:30Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	3527347917 9783527347919
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-033866683
oclc_num	1349536811
open_access_boolean
owner	DE-29T DE-703 DE-573
owner_facet	DE-29T DE-703 DE-573
physical	xiii, 286 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm
publishDate	2022
publishDateSearch	2022
publishDateSort	2022
publisher	Wiley-VCH
record_format	marc
spelling	Dahotre, Narendra B. Verfasser (DE-588)120726265X aut Laser-based additive manufacturing modeling, simulation and experiments Narendra B. Dahotre, Mangesh V. Pantawane, Shashank Sharma Weinheim, Germany Wiley-VCH [2022] xiii, 286 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Lasergenerieren (DE-588)7567095-1 gnd rswk-swf Bruchmechanik CG04: Computergestützte Verfahrenstechnik Chemical Engineering Chemische Verfahrenstechnik Computer-Aided Engineering Computergestützte Verfahrenstechnik Failure Fracture ME60: Bruchmechanik MSE0: Materialverarbeitung Maschinenbau Materials Processing Materials Science Materialverarbeitung Materialwissenschaften Mechanical Engineering Lasergenerieren (DE-588)7567095-1 s DE-604 Pantawane, Mangesh V. Verfasser (DE-588)1298782864 aut Sharma, Shashank Verfasser (DE-588)1298783011 aut Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-82880-7 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-82882-1 Erscheint auch als Online-Ausgabe 978-3-527-82881-4 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34791-9/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033866683&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20220225 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Dahotre, Narendra B. Pantawane, Mangesh V. Sharma, Shashank Laser-based additive manufacturing modeling, simulation and experiments Lasergenerieren (DE-588)7567095-1 gnd
subject_GND	(DE-588)7567095-1
title	Laser-based additive manufacturing modeling, simulation and experiments
title_auth	Laser-based additive manufacturing modeling, simulation and experiments
title_exact_search	Laser-based additive manufacturing modeling, simulation and experiments
title_exact_search_txtP	Laser-based additive manufacturing modeling, simulation and experiments
title_full	Laser-based additive manufacturing modeling, simulation and experiments Narendra B. Dahotre, Mangesh V. Pantawane, Shashank Sharma
title_fullStr	Laser-based additive manufacturing modeling, simulation and experiments Narendra B. Dahotre, Mangesh V. Pantawane, Shashank Sharma
title_full_unstemmed	Laser-based additive manufacturing modeling, simulation and experiments Narendra B. Dahotre, Mangesh V. Pantawane, Shashank Sharma
title_short	Laser-based additive manufacturing
title_sort	laser based additive manufacturing modeling simulation and experiments
title_sub	modeling, simulation and experiments
topic	Lasergenerieren (DE-588)7567095-1 gnd
topic_facet	Lasergenerieren
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34791-9/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033866683&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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