Verfügbarkeit: Multiscale materials modeling

Multiscale materials modeling: approaches to full multiscaling

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Bibliographische Detailangaben
Weitere Verfasser:	Schmauder, Siegfried 1956- (HerausgeberIn), Schäfer, Immanuel (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Boston De Gruyter [2016]
Schlagworte:	Werkstoff Mehrskalenmodell Biosensor Bruchverhalten Aushärtung Verfestigung Plastische Deformation Biomaterial
Online-Zugang:	Verlag Inhaltsverzeichnis
Beschreibung:	XX, 326 Seiten Illustrationen, Diagramme (teilweise farbig)
ISBN:	9783110412369 9783110412468

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Datensatz im Suchindex

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adam_text	CONTENTS LIST OF CONTRIBUTING AUTHORS* V PREFACE * XI PART I: MULTI-TIME-SCALE AND MULTI-LENGTH-SCALE SIMULATIONS OF PRECIPITATION AND STRENGTHENING EFFECTS P. KIZLER, D. UHLMANN, AND S. SCHMAUDER 1 LINKING NANOSCALE AND MACROSCALE * 3 1.1 INTRODUCTION ----- 3 1.2 NANOSCALE INFORMATION FROM THE MATERIAL * 4 1.3 MESOSCALE THEORY * 6 1.4 MICRO:MACROSCALE THEORY * 8 1.5 CONNECTION OF LENGTH SCALES * 10 1.6 CONCLUSIONS * 11 D. MOLNAR, R. MUKHERJEE, A. CHOUDHURY, A. MORA, P. BINKELE, M. SELZER, B. NESTLER, AND S. SCHMAUDER 2 MULTISCALE SIMULATIONS ON THE COARSENING OF CU-RICH PRECIPITATES IN A-FE USING KINETIC MONTE CARLO, MOLECULAR DYNAMICS, AND PHASE-FIELD SIMULATIONS * 15 2.1 INTRODUCTION ----- 15 2.2 MULTISCALE APPROACH * 16 2.3 SIMULATION METHODS AND APPLIED MODELS * 17 2.3.1 CU-PRECIPITATION - KINETIC MONTE-CARLO SIMULATIONS * 17 2.3.2 STRUCTURAL COHERENCY - MOLECULAR DYNAMICS SIMULATIONS ----- 18 2.3.3 PARTICLE COARSENING - PHASE-FIELD METHOD * 19 2.4 SIMULATION RESULTS ------ 22 2.4.1 KINETIC MONTE CARLO SIMULATIONS AND BROKEN-BOND MODEL * 22 2.4.2 MOLECULAR DYNAMICS SIMULATIONS * 25 2.4.3 PHASE-FIELD METHOD SIMULATIONS * 25 2.4.4 PHASE-FIELD RESULTS * 27 2.5 CONCLUSIONS * 32 C. V. SINGH 3 MULTISCALE MODELING PREDICTIONS OF AGE HARDENING CURVES IN AL-CU ALLOYS * 37 3.1 INTRODUCTION * 37 3.2 ATOMISTIC MODELING OF PRECIPITATION HARDENING * 39 3.2.1 METHODOLOGY * 39 3.2.2 GP ZONE STRENGTHENING * 41 3.2.3 6 STRENGTHENING * 46 3.3 ATOMISTIC MODELING OF SOLUTE HARDENING* 48 3.4 DISLOCATION DYNAMICS MODEL FOR MACROSCOPIC PRECIPITATE STRENGTH PREDICTIONS * 50 3.5 MODELING OF PRECIPITATE KINETICS * 53 3.6 AGE HARDENING PREDICTIONS OF AL-4 WT.% CU AGED AT 110 C * 54 3.7 EFFECT OF CU CONCENTRATION AND AGING TEMPERATURE * 58 3.8 ROLE OF THERMAL ACTIVATION AND DIRECT COMPARISON TO EXPERIMENT * 3.9 SUMMARY AND CONCLUSION * 65 M. PRIETO-DEPEDRO, I. MARTIN-BRAGADO, AND J. SEGURADO 4 KINETIC MONTE CARLO MODELING OF SHEAR-COUPLED MOTION OF GRAIN BOUNDARIES * 73 4.1 INTRODUCTION * 73 4.2 DYNAMICS OF SHEAR-COUPLED MOTION OF GRAIN BOUNDARIES AND COUPLING MODES * 75 4.3 MOLECULAR DYNAMICS * 77 4.3.1 COMPUTATIONAL PROCEDURE * 77 4.3.2 SHEAR-COUPLED MOTION AT LOW TEMPERATURES * 78 4.3.3 SHEAR COUPLED MOTION AT MEDIUM TEMPERATURES * 80 4.3.4 NUDGED ELASTIC BAND CALCULATIONS * 83 4.4 KINETIC MONTE CARLO * 83 4.4.1 SIMULATION METHODOLOGY * 84 4.4.2 SIMULATION RESULTS AND DISCUSSION * 85 4.5 CONCLUDING REMARKS * 88 4.A EFFECTIVE SHEAR MODULUS FOR PLANAR GBS: APPLICATION TO [001] STGB CONTAINED IN BICRYSTAL STRUCTURES * 89 M. LABUSCH, M. ETIER, D. LUPASCU, J. SCHRODER, AND M.-A. KEIP 5 PRODUCT PROPERTIES OF A TWO-PHASE MAGNETO-ELECTRIC COMPOSITE * 93 5.1 INTRODUCTION * 93 5.2 THEORETICAL FRAMEWORK * 96 5.2.1 MAGNETO-ELECTRO-MECHANICAL BOUNDARY VALUE PROBLEM * 96 5.2.2 CONSTITUTIVE FRAMEWORK ON THE MICROSCALE ----- 98 5.2.3 CONSTITUTIVE FRAMEWORK OF ME COMPOSITES ON THE MACROSCALE * 99 5.3 SYNTHESIS AND MANUFACTURING OF ME COMPOSITES * 100 5.3.1 SYNTHESIS SCHEMES * 100 5.3.2 SYNTHESIS RESULTS FOR 0-3 COMPOSITES * 101 5.3.3 EXPERIMENTAL DETAILS * 102 5.4 COMPUTATIONAL DETERMINATION OF MAGNETO-ELECTRO-MECHANICAL PROPERTIES OF ME COMPOSITES ----- 103 5.4.1 COMPUTATIONAL CHARACTERIZATION OF THE MAGNETO-ELECTRO-MECHANICAL PROPERTIES OF AN IDEAL MICROSTRUCTURE * 104 5.4.2 COMPUTATIONAL CHARACTERIZATION OF THE MAGNETO-ELECTRO-MECHANICAL PROPERTIES OF A REAL MICROSTRUCTURE * 106 5.5 CONCLUSION * 110 K. CHOCKALINGAM, R. JANISCH, AND A. HARTMAIER 6 COUPLED ATOMISTIC-CONTINUUM STUDY OF THE EFFECTS OF C ATOMS AT A-FE DISLOCATION CORES * 115 6.1 INTRODUCTION * 115 6.2 COUPLING ATOMISTIC AND CONTINUUM DOMAINS * 117 6.2.1 ATOMISTIC DOMAIN * 117 6.2.2 CONTINUUM DOMAIN * 118 6.2.3 COUPLING SCHEME * 119 6.3 VERIFICATION BY DISLOCATION ANALYSIS * 122 6.4 CARBON INFLUENCE ON CRITICAL STRESS * 126 6.4.1 SCREW DISLOCATION * 126 6.4.2 EDGE DISLOCATION * 128 6.4.3 DISCUSSION ----- 129 6.5 CONCLUSION ----- 129 PART II: MULTISCALE SIMULATIONS OF PLASTIC DEFORMATION AND FRACTURE A. SIDDIQ, S. SCHMAUDER, AND M. RUBLE 7 NIOBIUM/ALUMINA BICRYSTAL INTERFACE FRACTURE * 135 7.1 INTRODUCTION * 135 7.2 CONCEPT OF MODELLING * 137 7.3 RESULTS AND DISCUSSION * 141 7.4 CONCLUSIONS * 148 A. KOESTER, A. MA, AND A. HARTMAIER 8 ATOMISTICALLY INFORMED CRYSTAL PLASTICITY MODEL FOR BODY-CENTRED CUBIC IRON * 151 8.1 INTRODUCTION * 151 8.2 CRYSTAL PLASTICITY APPROACH * 152 8.3 ATOMISTIC STUDIES * 154 8.3.1 ORIENTATION DEPENDENCE OF THE CRITICAL STRESS * 156 8.3.2 INFLUENCE OF SHEAR STRESSES PERPENDICULAR TO THE GLIDE DIRECTION * 157 8.3.3 INFLUENCE OF TENSION AND COMPRESSION PERPENDICULAR TO THE GLIDE DIRECTION * 158 8.4 FEM STUDY OF A BCC IRON SINGLE CRYSTAL * 161 8.5 SENSITIVITY ANALYSIS OF THE FLOW RULE PARAMETERS * 164 8.6 SUMMARY * 164 J. J. MOLLER, A. PRAKASH, AND E. BITZEK 9 FE2AT - FINITE ELEMENT INFORMED ATOMISTIC SIMULATIONS * 167 9.1 INTRODUCTION * 167 9.2 METHODOLOGY OF FE2AT ----- 170 9.2.1 ATOM-LOCALIZATION IN A FINITE ELEMENT MESH * 171 9.2.2 INTERPOLATION OF NODAL DISPLACEMENTS * 172 9.2.3 THE FE2AT APPROACH * 174 9.3 APPLICATION EXAMPLES * 176 9.3.1 BENDING OF A NANO-BEAM * 176 9.3.2 FRACTURE * 181 9.4 DISCUSSION * 186 9.5 SUMMARY * 187 Z. BOZIC, 5. SCHMAUDER, M. MLIKOTA, AND M. HUMMEL 10 MULTISCALE FATIGUE CRACK GROWTH MODELLING FOR WELDED STIFFENED PANELS * 191 10.1 INTRODUCTION* 191 10.2 MOLECULAR DYNAMICS (MD) SIMULATION OF DISLOCATION DEVELOPMENT IN IRON * 194 10.2.1 METHODS AND MODEL * 194 10.2.2 RESULTS AND DISCUSSION * 195 10.3 MICROSTRUCTURAL CRACK NUCLEATION AND PROPAGATION * 197 10.4 MODELING AND SIMULATION OF CRACK PROPAGATION IN WELDED STIFFENED PANELS * 199 10.4.1 SPECIMENS GEOMETRY AND LOADING CONDITIONS 200 10.4.2 MODELING OF WELDING RESIDUAL STRESSES IN A STIFFENED PANEL BY USING FEM ----- 201 10.4.3 STRESS INTENSITY FACTORS AND FATIGUE CRACK GROWTH RATE * 203 10.5 CONCLUSIONS * 208 Y. FURUYA, H. NOGUCHI, AND S. SCHMAUDER 11 MOLECULAR DYNAMICS STUDY ON LOW TEMPERATURE BRITTLENESS IN TUNGSTEN SINGLE CRYSTALS * 213 11.1 INTRODUCTION * 213 11.2 A COMBINED MODEL OF MOLECULAR DYNAMICS WITH MICROMECHANICS * 11.2.1 THE PRINCIPLE OF THE COMBINED MODEL * 215 11.2.2 FLEXIBLE BOUNDARY CONDITIONS USING BODY FORCES * 217 11.2.3 TRANSFORMATION FROM AN ATOMISTIC DISLOCATION TO AN ELASTIC DISLOCATION * 217 11.2.4 MOVEMENT OF A MOLECULAR DYNAMICS REGION WITH CRACK PROPAGATION * 218 11.3 SIMULATION OF A BRITTLE FRACTURE PROCESS IN TUNGSTEN SINGLE CRYSTALS * 219 11.3.1 CALCULATION CONDITIONS AND ADDITIONAL PROCEDURES FOR THE SIMULATION OF TUNGSTEN SINGLE CRYSTALS * 219 11.3.2 SIMULATION RESULTS AND SIZE DEPENDENCY OF THE MOLECULAR DYNAMICS REGION ON THE RESULTS * 223 11.4 INVESTIGATION OF BRITTLE FRACTURE PROCESSES AND TEMPERATURE DEPENDENCY OF FRACTURE TOUGHNESS AT LOW TEMPERATURE * 225 11.4.1 SIMULATION RESULTS AT LOW TEMPERATURE * 225 11.4.2 A BRITTLE FRACTURE PROCESS * 227 11.4.3 TEMPERATURE DEPENDENCY OF FRACTURE TOUGHNESS * 229 11.5 DISCUSSION * 230 11.6 CONCLUSION * 231 L. MADE), M. SITKO, K. PERZYNSKI, L. SIERADZKI, K. RADWANSKI, AND R. KUZIAK 12 MULTI SCALE CELLULAR AUTOMATA AND FINITE ELEMENT BASED MODEL FOR COLD DEFORMATION AND ANNEALING OF A FERRITIC-PEARLITIC MICROSTRUCTURE * 235 12.1 INTRODUCTION * 235 12.2 EXPERIMENTAL INVESTIGATION OF STATIC RECRYSTALLIZATION * 237 12.3 DIGITAL MATERIAL REPRESENTATION OF THE FERRITIC-PEARLITIC MICROSTRUCTURE * 243 12.4 MULTI SCALE MODEL OF ROLLING * 245 12.5 CELLULAR AUTOMATA MODEL OF STATIC RECRYSTALLIZATION * 246 12.6 CONCLUSIONS * 251 J. WIEDMAIER, W. VERESTEK, U. WEBER, AND S. SCHMAUDER 13 MULTISCALE SIMULATION OF THE MECHANICAL BEHAVIOR OF NANOPARTICLE-MODIFIED POLYAMIDE COMPOSITES * 255 13.1 INTRODUCTION * 255 13.2 USED MATERIALS * 256 13.3 RVE MODEL - TENSILE TEST * 256 13.4 MOLECULAR DYNAMICS SIMULATIONS: DERIVATION OF THE TRACTION SEPARATION LAW * 258 13.5 RESULTS AND DISCUSSION * 260 13.6 CONCLUSION AND OUTLOOK * 261 PART III: MULTISCALE SIMULATIONS OF BIOLOGICAL AND BIO-INSPIRED MATERIALS, BIO-SENSORS AND COMPOSITES C. -S. CHEN, Y.-C. SHIH, C.-C. CHOU, S.-W. CHANG, AND C. LIOU 14 MULTISCALE MODELING OF NANO-BIOSENSORS * 265 14.1 TOP-DOWN INFORMATION PASSAGE * 267 14.2 BOTTOM-UP INFORMATION PASSAGE * 269 14.3 CONCLUSION * 269 D. WEIDT AND T. FIGIEL 15 FINITE STRAIN COMPRESSIVE BEHAVIOUR OF CNT/EPOXY NANOCOMPOSITES * 273 15.1 INTRODUCTION * 273 15.2 FRAMEWORK OF MODELLING * 275 15.2.1 REPRESENTATIVE VOLUME ELEMENTS (RVES) * 276 15.2.2 COMPUTATIONAL HOMOGENISATION: RVE-TO-MACRO TRANSITION * 280 15.3 RESULTS AND DISCUSSION * 281 15.3.1 MESH CONVERGENCE * 282 15.3.2 RVE SIZE AND ENSEMBLE SIZE * 284 15.3.3 2D VERSUS 3D RVE-BASED ANALYSES OF FINITE STRAIN COMPRESSIVE BEHAVIOUR OF THE NANOCOMPOSITE * 289 15.3.4 COMPUTATIONAL TIME * 298 15.3.5 COMPARISON WITH EXPERIMENTS * 298 15.4 CONCLUSION * 299 I. SCHSFER, G. LASKO, T. A. DO, J. PLEISS, U. WEBER, AND S. SCHMAUDER 16 PEPTIDE-ZINC OXIDE INTERACTION * 303 16.1 INTRODUCTION * 303 16.2 MATERIAL AND METHODS * 305 16.2.1 USING MD SIMULATIONS TO ESTIMATE THE ADSORPTION AFFINITY OF THE PEPTIDE * 305 16.2.2 FEM SIMULATIONS ----- 306 16.3 RESULTS AND DISCUSSION * 310 16.3.1 MD-SIMULATIONS * 310 16.3.2 MULTISCALE SIMULATIONS * 312 16.4 CONCLUSIONS ----- 317 16.A APPENDIX * 319 INDEX * 323
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id	DE-604.BV043690919
illustrated	Illustrated
indexdate	2024-07-10T07:32:37Z
institution	BVB
isbn	9783110412369 9783110412468
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-029103589
oclc_num	958163544
open_access_boolean
owner	DE-29T DE-11 DE-703
owner_facet	DE-29T DE-11 DE-703
physical	XX, 326 Seiten Illustrationen, Diagramme (teilweise farbig)
publishDate	2016
publishDateSearch	2016
publishDateSort	2016
publisher	De Gruyter
record_format	marc
spelling	Multiscale materials modeling approaches to full multiscaling edited by Siegfried Schmauder and Immanuel Schäfer Berlin ; Boston De Gruyter [2016] © 2016 XX, 326 Seiten Illustrationen, Diagramme (teilweise farbig) txt rdacontent n rdamedia nc rdacarrier Werkstoff (DE-588)4065579-9 gnd rswk-swf Mehrskalenmodell (DE-588)7600619-0 gnd rswk-swf Biosensor (DE-588)4193016-2 gnd rswk-swf Bruchverhalten (DE-588)4121051-7 gnd rswk-swf Aushärtung (DE-588)4133897-2 gnd rswk-swf Verfestigung (DE-588)4187686-6 gnd rswk-swf Plastische Deformation (DE-588)4115572-5 gnd rswk-swf Biomaterial (DE-588)4267769-5 gnd rswk-swf Werkstoff (DE-588)4065579-9 s Verfestigung (DE-588)4187686-6 s Aushärtung (DE-588)4133897-2 s Plastische Deformation (DE-588)4115572-5 s Bruchverhalten (DE-588)4121051-7 s Mehrskalenmodell (DE-588)7600619-0 s DE-604 Biosensor (DE-588)4193016-2 s Biomaterial (DE-588)4267769-5 s Schmauder, Siegfried 1956- (DE-588)1035422530 edt Schäfer, Immanuel edt Erscheint auch als Online-Ausgabe, EPUB 978-3-11-041251-2 Erscheint auch als Online-Ausgabe, PDF 978-3-11-041245-1 http://www.degruyter.com/search?f_0=isbnissn&q_0=9783110412369&searchTitles=true Verlag DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029103589&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Multiscale materials modeling approaches to full multiscaling Werkstoff (DE-588)4065579-9 gnd Mehrskalenmodell (DE-588)7600619-0 gnd Biosensor (DE-588)4193016-2 gnd Bruchverhalten (DE-588)4121051-7 gnd Aushärtung (DE-588)4133897-2 gnd Verfestigung (DE-588)4187686-6 gnd Plastische Deformation (DE-588)4115572-5 gnd Biomaterial (DE-588)4267769-5 gnd
subject_GND	(DE-588)4065579-9 (DE-588)7600619-0 (DE-588)4193016-2 (DE-588)4121051-7 (DE-588)4133897-2 (DE-588)4187686-6 (DE-588)4115572-5 (DE-588)4267769-5
title	Multiscale materials modeling approaches to full multiscaling
title_auth	Multiscale materials modeling approaches to full multiscaling
title_exact_search	Multiscale materials modeling approaches to full multiscaling
title_full	Multiscale materials modeling approaches to full multiscaling edited by Siegfried Schmauder and Immanuel Schäfer
title_fullStr	Multiscale materials modeling approaches to full multiscaling edited by Siegfried Schmauder and Immanuel Schäfer
title_full_unstemmed	Multiscale materials modeling approaches to full multiscaling edited by Siegfried Schmauder and Immanuel Schäfer
title_short	Multiscale materials modeling
title_sort	multiscale materials modeling approaches to full multiscaling
title_sub	approaches to full multiscaling
topic	Werkstoff (DE-588)4065579-9 gnd Mehrskalenmodell (DE-588)7600619-0 gnd Biosensor (DE-588)4193016-2 gnd Bruchverhalten (DE-588)4121051-7 gnd Aushärtung (DE-588)4133897-2 gnd Verfestigung (DE-588)4187686-6 gnd Plastische Deformation (DE-588)4115572-5 gnd Biomaterial (DE-588)4267769-5 gnd
topic_facet	Werkstoff Mehrskalenmodell Biosensor Bruchverhalten Aushärtung Verfestigung Plastische Deformation Biomaterial
url	http://www.degruyter.com/search?f_0=isbnissn&q_0=9783110412369&searchTitles=true http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029103589&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT schmaudersiegfried multiscalematerialsmodelingapproachestofullmultiscaling AT schaferimmanuel multiscalematerialsmodelingapproachestofullmultiscaling

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