Computational mesomechanics of composites: numerical analysis of the effect of microstructures of composites on their strength and damage resistance
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Chichester [u.a.]
Wiley
2007
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| Schlagworte: | |
| Online-Zugang: | Inhaltstext Contributor biographical information Publisher description Table of contents only Inhaltsverzeichnis |
| Beschreibung: | VI, 276 S. Ill., graph. Darst. |
| ISBN: | 9780470027646 0470027649 |
Internformat
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| 100 | 1 | |a Mišnaevsky, Leon L. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Computational mesomechanics of composites |b numerical analysis of the effect of microstructures of composites on their strength and damage resistance |c Leon Mishnaevsky |
| 264 | 1 | |a Chichester [u.a.] |b Wiley |c 2007 | |
| 300 | |a VI, 276 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Mathematisches Modell | |
| 650 | 4 | |a Composite materials |x Mechanical properties |x Mathematical models | |
| 650 | 4 | |a Micromechanics |x Mathematical models | |
| 650 | 4 | |a Numerical analysis | |
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| 856 | 4 | 2 | |q text/html |u http://www.loc.gov/catdir/enhancements/fy0739/2007013494-d.html |3 Publisher description |
| 856 | 4 | 2 | |q text/html |u http://www.loc.gov/catdir/toc/ecip0714/2007013494.html |3 Table of contents only |
| 856 | 4 | 2 | |m GBV Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015705827&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
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Datensatz im Suchindex
| _version_ | 1805089145442271232 |
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| adam_text |
COMPUTATIONAL MESOMECHANICS OF COMPOSITES NUMERICAL ANALYSIS OF THE
EFFECT OF MICROSTRUCTURES OF COMPOSITES ON THEIR STRENGTH AND DAMAGE
RESISTANCE LEON MISHNAEVSKY JR RIS0 NATIONAL LABORATORY, TECHNICAL
UNIVERSITY OF DENMARK, ROSKILDE, DENMARK BICENTENNIAL 3 I C E N T E N N
I A L JOHN WILEY & SONS ; LTD CONTENTS ABOUT THE AUTHOR XI PREFACE XIII
ACKNOWLEDGEMENTS XVII 1 COMPOSITES 1 1.1 CLASSIFICATION AND TYPES OF
COMPOSITES 1 1.2 DEFORMATION, DAMAGE AND FRACTURE OF COMPOSITES:
MICROMECHANISMS AND ROLES OF PHASES 5 1.2.1 PARTICLE AND SHORT FIBER
REINFORCED COMPOSITES 5 1.2.2 LONG FIBER REINFORCED COMPOSITES 8 1.2.3
LAMINATES 10 REFERENCES 1 1 2 MESOSCALE LEVEL IN THE MECHANICS OF
MATERIALS 13 2.1 ON THE DEFINITIONS OF SCALE LEVELS: MICRO-AND
MESOMECHANICS 13 2.2 SIZE EFFECTS 14 2.2.1 BRITTLE AND QUASI-BRITTLE
MATERIALS 14 2.2.2 METALS 15 2.2.3 THINFILMS 16 2.3 BIOCOMPOSITES 17
2.3.1 NACRE 17 2.3.2 SPONGE SPICULES 18 2.3.3 BAMBOO 19 2.3.4 TEETH 20
2.3.5 BONES 21 2.4 ON SOME CONCEPTS OF THE IMPROVEMENT OF MATERIAL
PROPERTIES 22 2.4.1 GRADIENT COMPOSITE MATERIALS 23 2.4.2 THE
APPLICATION OF COATINGS 23 2.4.3 LAYERED METAL MATRIX COMPOSITES 23
2.4.4 SURFACE COMPOSITES 24 2.4.5 AGGLOMERATES OF SMALL SCALE INCLUSIONS
AND THE 'DOUBLE DISPERSION' MICROSTRUCTURES OF STEELS 24 2.4.6 INCLUSION
NETWORKS 25 VI CONTENTS 2.4.7 INTERPENETRATING PHASE COMPOSITES (IPCS)
25 2.4.8 HYPERORGANIZED STRUCTURE CONTROL 26 2.4.9 SUMMARY 27 2.5
PHYSICAL MESOMECHANICS OF MATERIALS 27 2.6 TOPOLOGICAL AND STATISTICAL
DESCRIPTION OF MICROSTRUCTURES OF COMPOSITES 29 REFERENCES 32 3 DAMAGE
AND FAILURE OF MATERIALS: CONCEPTS AND METHODS OF MODELING 37 3.1
FRACTURE MECHANICS: BASIC CONCEPTS 37 3.1.1 GRIFFIM THEORY OF BRITTLE
FRACTURE 38 3.1.2 STRESS FIELD IN THE VICINITY OF A CRACK 39 3.1.3
STRESS INTENSITY FACTOR AND ENERGY RELEASE RATE 39 3.1.4 /-INTEGRAL AND
OTHER MODEIS OF PLASTIC EFFECTS 40 3.2 STATISTICAL THEORIES OF STRENGTH
42 3.2.1 WORST FLAW AND WEAKEST LINK THEORIES 42 3.2.2 RANDOM PROCESSES
AND STOCHASTIC EQUATIONS 44 3.2.3 FIBER BUENDLE MODEIS AND CHAINS OF
FIBER BUNDLES 46 3.3 DAMAGE MECHANICS 48 3.3.1 MODELS OF ELASTIC SOLIDS
WITH MANY CRACKS 48 3.3.2 PHENOMENOLOGICAL ANALYSIS OF DAMAGE EVOLUTION
(CONTINUUM DAMAGE MECHANICS) 49 3.3.3 MICROMECHANICAL MODEIS OF VOID
GROWTH IN DUCTILE MATERIALS 50 3.3.4 THERMODYNAMIC DAMAGE MODEIS 51
3.3.5 NONLOCAL AND GRADIENT ENHANCED DAMAGE MODEIS 53 3.4 NUMERICAL
MODELING OF DAMAGE AND FRACTURE 55 REFERENCES 60 4
MICROSTRUCTURE-STRENGTH RELATIONSHIPS OF COMPOSITES: CONCEPTS AND
METHODS OF ANALYSIS 65 4.1 INTERACTION BETWEEN ELEMENTS OF
MICROSTRUCTURES: PHYSICAL AND MECHANICAL MODEIS 65 4.1.1 THEORIES OF
CONSTRAINED PLASTIC FLOW OF DUCTILE MATERIALS REINFORCED BY HARD
INCLUSIONS 66 4.1.2 SHEAR LAG MODEL AND ITS APPLICATIONS 69 4.2
MULTISCALE MODELING OF MATERIALS AND HOMOGENIZATION 71 4.2.1 MULTISCALE
MODELING 72 4.2.2 HOMOGENIZATION 74 4.3 ANALYTICAL ESTIMATIONS AND
BOUNDS OF OVERALL ELASTIC PROPERTIES OF COMPOSITES 75 4.3.1
RULE-OF-MIXTURE AND CLASSICAL VOIGT AND REUSS APPROXIMATIONS 76 4.3.2
HASHIN-SHTRIKMAN BOUNDS 78 4.3.3 DILUTE DISTRIBUTION MODEL 80 4.3.4
EFFECTIVE FIELD METHOD AND MORI-TANAKA MODEL 80 4.3.5 COMPOSITE SPHERE
AND COMPOSITE CYLINDER ASSEMBLAGE 81 4.3.6 SELF-CONSISTENT MODEIS AND
OTHER EFFECTIVE MEDIUM METHODS 82 4.3.7 METHOD OF CELLS AND
TRANSFORMATION FIELD ANALYSIS 84 4.3.8 INCORPORATION OF DETAILED
MICROSTRUCTURAL INFORMATION: THREE-POINT APPROXIMATION 86 CONTENTS V/7
4.3.9 GENERALIZED CONTINUA: NONLOCAL AND GRADIENT-ENHANCED MODEIS 87
4.3.10 NONLINEAR MATERIAL BEHAVIOR 88 4.4 COMPUTATIONAL MODEIS OF
MICROSTRUCTURES AND STRENGTH OF COMPOSITES 89 4.4.1 UNIT CELL MODEIS OF
COMPOSITES 90 4.4.2 HOW TO INCORPORATE REAL MICROSTRUCTURES OF MATERIALS
INTO NUMERICAL MODEIS 98 REFERENCES 1 05 COMPUTATIONAL EXPERIMENTS IN
THE MECHANICS OF MATERIALS: CONCEPTS AND TOOLS 115 5.1 CONCEPT OF
COMPUTATIONAL EXPERIMENTS IN THE MECHANICS OF MATERIALS 115 5.2 INPUT
DATA FOR THE SIMULATIONS: DETERMINATION OF MATERIAL PROPERTIES 116 5.2.1
NANOINDENTATION 117 5.2.2 IN-SITU EXPERIMENTS USING A SCANNING ELECTRON
MICROSCOPE 117 5.2.3 INVERSE ANALYSIS 118 5.3 PROGRAM CODES FOR THE
AUTOMATIC GENERATION OF 3D MICROSTRUCTURAL MODEIS OF MATERIALS 120 5.3.1
PROGRAM MESO3D FOR THE AUTOMATIC GEOMETRY-BASED GENERATION OF 3D
MICROSTRUCTURAL FE MODEIS OF MATERIALS 120 5.3.2 PROGRAM VOXEL2FEM FOR
THE AUTOMATIC VOXEL-BASED GENERATION OF 3D MICROSTRUCTURAL FE MODEIS OF
MATERIALS 123 REFERENCES 127 NUMERICAL MESOMECHANICAL EXPERIMENTS:
ANALYSIS OF THE EFFECT OF MICROSTRUCTURES OF MATERIALS ON THE
DEFORMATION AND DAMAGE RESISTANCE 129 6. 1 FINITE DEMENT MODEIS OF
COMPOSITE MICROSTRUCTURES 130 6.2 MATERIAL PROPERTIES USED IN THE
SIMULATIONS 130 6.3 DAMAGE MODELING IN COMPOSITES WITH THE USER DEFINED
FIELDS 131 6.3.1 DAMAGE MECHANISMS AND FAILURE CONDITIONS 131 6.3.2
SUBROUTINE USER DEFINED FIELD 132 6.3.3 INTERFACE DEBONDING 133 6.4
STABILITY AND REPRODUCIBILITY OF THE SIMULATIONS 134 6.5 EFFECT OF THE
AMOUNT AND VOLUME CONTENT OF PARTICLES ON THE DEFORMATION AND DAMAGE IN
THE COMPOSITE 137 6.6 EFFECT OF PARTICLE CLUSTERING AND THE GRADIENT
DISTRIBUTION OF PARTICLES 141 6.7 EFFECT OF THE VARIATIONS OF PARTICLE
SIZES ON THE DAMAGE EVOLUTION 145 6.8 RANKING OF MICROSTRUCTURES AND THE
EFFECT OF GRADIENT ORIENTATION 147 REFERENCES 149 GRADED PARTICLE
REINFORCED COMPOSITES: EFFECT OF THE PARAMETERS OF GRADED
MICROSTRUCTURES ON THE DEFORMATION AND DAMAGE 151 7.1 DAMAGE EVOLUTION
IN GRADED COMPOSITES AND THE EFFECT OF THE DEGREE OF GRADIENT 153 7.2
'BILAYER' MODEL OF A GRADED COMPOSITE 159 7.3 EFFECT OF THE SHAPE AND
ORIENTATION OF ELONGATED PARTICLES ON THE STRENGTH AND DAMAGE EVOLUTION:
NONGRADED COMPOSITES 161 7.4 EFFECT OF THE SHAPE AND ORIENTATION OF
ELONGATED PARTICLES ON THE STRENGTH AND DAMAGE EVOLUTION: GRADED
COMPOSITES 165 CONTENTS 7.5 EFFECT OF STATISTICAL VARIATIONS OF LOCAL
STRENGTHS OF REINFORCING PARTICLES AND THE DISTRIBUTION OF THE PARTICLE
SIZES 168 7.6 COMBINED REUSS-VOIGT MODEL AND ITS APPLICATION TO THE
ESTIMATION OF STIFFNESS OF GRADED MATERIALS 172 7.6.1 ESTIMATION OF THE
STIFFNESS OF MATERIALS WITH ARBITRARILY COMPLEX MICROSTRUCTURES:
COMBINED REUSS-VOIGT MODEL 172 7.6.2 EFFECT OF THE DEGREE OF GRADIENT ON
THE ELASTIC PROPERTIES OF THE COMPOSITE 172 7.6.3 INCLINED INTERFACE:
EFFECT OF THE ORIENTATION OF INTERFACES ON THE ELASTIC PROPERTIES 176
REFERENCES 177 PARTICLE CLUSTERING IN COMPOSITES: EFFECT OF CLUSTERING
ON THE MECHANICAL BEHAVIOR AND DAMAGE EVOLUTION 179 8.1 FINITE ELEMENT
MODELING OF THE EFFECT OF CLUSTERING OF PARTICLES ON THE DAMAGE
EVOLUTION 179 8.1.1 NUMERICAL MODEIS OF CLUSTERED MICROSTRUCTURES AND
STATISTICAL CHARACTERIZATION OF THE MICROSTRUCTURES 181 8.1.2 SIMULATION
OF DAMAGE AND PARTICLE FAILURE IN CLUSTERED MICROSTRUCTURES 183 8.2
ANALYTICAL MODELING OF THE EFFECT OF PARTICLE CLUSTERING ON THE DAMAGE
RESISTANCE 187 8.2.1 CELL ARRAY MODEL OF A COMPOSITE 187 8.2.2
PROBABILISTIC ANALYSIS OF DAMAGE ACCUMULATION IN A CELL 191 8.2.3 EFFECT
OF PARTICLE CLUSTERING ON THE FRACTURE TOUGHNESS 193 REFERENCES 1 95
INTERPENETRATING PHASE COMPOSITES: NUMERICAL SIMULATIONS OF DEFORMATION
AND DAMAGE 197 9.1 GEOMETRY-BASED AND VOXEL ARRAY BASED 3D FE MODEL
GENERATION: COMPARISON 200 9.2 GRADIENT INTERPENETRATING PHASE
COMPOSITES 202 9.3 ISOTROPIE INTERPENETRATING PHASE COMPOSITES 207 9.3.1
EFFECT OF THE CONTIGUITY OF INTERPENETRATING PHASES ON THE STRENGTH OF
COMPOSITES 207 9.3.2 POROUS PLASTICITY: OPEN FORM POROSITY 210
REFERENCES 212 FIBER REINFORCED COMPOSITES: NUMERICAL ANALYSIS OF DAMAGE
INITIATION AND GROWTH 215 10.1 MODELING OF STRENGTH AND DAMAGE OF FIBER
REINFORCED COMPOSITES: A BRIEF OVERVIEW 215 10.1.1 SHEAR LAG BASED
MODEIS AND LOAD REDISTRIBUTION SCHEMAS 215 10.1.2 FIBER BUENDLE MODEL AND
ITS VERSIONS 219 10.1.3 FRACTURE MECHANICS BASED MODEIS AND CRACK
BRIDGING 220 10.1.4 MICROMECHANICAL MODEIS OF DAMAGE AND FRACTURE 223
CONTENTS IX 10.2 MESOMECHANICAL SIMULATIONS OF DAMAGE INITIATION AND
EVOLUTION IN FIBER REINFORCED COMPOSITES 225 10.2.1 UNIT CELL MODEL AND
DAMAGE ANALYSIS 226 10.2.2 NUMERICAL SIMULATIONS: EFFECT OF MATRIX
CRACKS ON THE FIBER FRACTURE 228 10.2.3 NUMERICAL SIMULATIONS: INTERFACE
DAMAGE INITIATION AND ITS INTERACTION WITH MATRIX CRACKS AND FIBER
FRACTURES 229 REFERENCES 235 11 CONTACT DAMAGE AND WEAR OF COMPOSITE
TOOL MATERIALS: MICRO-MACRO RELATIONSHIPS 239 11.1 MICROMECHANICAL
MODELING OF THE CONTACT WEAR OF COMPOSITES: A BRIEF OVERVIEW 240 11.2
MESOMECHANICAL SIMULATIONS OF WEAR OF GRINDING WHEELS 243 11.3
MICRO-MACRO DYNAMICAL TRANSITIONS FOR THE CONTACT WEAR OF COMPOSITES:
'BLACK BOX MODELING' APPROACH 245 11.3.1 MODEL OF THE TOOL WEAR BASED ON
THE 'BLACK BOX MODELING' APPROACH 245 11.3.2 EFFECT OF THE LOADING
CONDITIONS ON THE TOOL WEAR 250 11.3.3 EXPERIMENTAL VERIFICATION:
APPROACH AND STEADY STATE CUTTING REGIMES 252 11.4 MICROSCALE SCATTERING
OF THE TOOL MATERIAL PROPERTIES AND THE MACROSCOPIC EFFICIENCY OF THE
TOOL 253 11.4.1 STATISTICAL DESCRIPTION OF TOOL SHAPES 254 11.4.2 EFFECT
OF THE SCATTERING OF THE TOOL MATERIAL PROPERTIES ON THE EFFICIENCY OF
THE TOOL 257 11.4.3 PRINCIPLE OF THE OPTIMAL TOOL DESIGN 259 REFERENCES
261 12 FUTURE FIELDS: COMPUTATIONAL MESOMECHANICS AND NANOMATERIALS 265
REFERENCES 267 13 CONCLUSIONS 269 INDEX 271 |
| adam_txt |
COMPUTATIONAL MESOMECHANICS OF COMPOSITES NUMERICAL ANALYSIS OF THE
EFFECT OF MICROSTRUCTURES OF COMPOSITES ON THEIR STRENGTH AND DAMAGE
RESISTANCE LEON MISHNAEVSKY JR RIS0 NATIONAL LABORATORY, TECHNICAL
UNIVERSITY OF DENMARK, ROSKILDE, DENMARK BICENTENNIAL 3 I C E N T E N N
I A L JOHN WILEY & SONS ; LTD CONTENTS ABOUT THE AUTHOR XI PREFACE XIII
ACKNOWLEDGEMENTS XVII 1 COMPOSITES 1 1.1 CLASSIFICATION AND TYPES OF
COMPOSITES 1 1.2 DEFORMATION, DAMAGE AND FRACTURE OF COMPOSITES:
MICROMECHANISMS AND ROLES OF PHASES 5 1.2.1 PARTICLE AND SHORT FIBER
REINFORCED COMPOSITES 5 1.2.2 LONG FIBER REINFORCED COMPOSITES 8 1.2.3
LAMINATES 10 REFERENCES 1 1 2 MESOSCALE LEVEL IN THE MECHANICS OF
MATERIALS 13 2.1 ON THE DEFINITIONS OF SCALE LEVELS: MICRO-AND
MESOMECHANICS 13 2.2 SIZE EFFECTS 14 2.2.1 BRITTLE AND QUASI-BRITTLE
MATERIALS 14 2.2.2 METALS 15 2.2.3 THINFILMS 16 2.3 BIOCOMPOSITES 17
2.3.1 NACRE 17 2.3.2 SPONGE SPICULES 18 2.3.3 BAMBOO 19 2.3.4 TEETH 20
2.3.5 BONES 21 2.4 ON SOME CONCEPTS OF THE IMPROVEMENT OF MATERIAL
PROPERTIES 22 2.4.1 GRADIENT COMPOSITE MATERIALS 23 2.4.2 THE
APPLICATION OF COATINGS 23 2.4.3 LAYERED METAL MATRIX COMPOSITES 23
2.4.4 SURFACE COMPOSITES 24 2.4.5 AGGLOMERATES OF SMALL SCALE INCLUSIONS
AND THE 'DOUBLE DISPERSION' MICROSTRUCTURES OF STEELS 24 2.4.6 INCLUSION
NETWORKS 25 VI CONTENTS 2.4.7 INTERPENETRATING PHASE COMPOSITES (IPCS)
25 2.4.8 HYPERORGANIZED STRUCTURE CONTROL 26 2.4.9 SUMMARY 27 2.5
PHYSICAL MESOMECHANICS OF MATERIALS 27 2.6 TOPOLOGICAL AND STATISTICAL
DESCRIPTION OF MICROSTRUCTURES OF COMPOSITES 29 REFERENCES 32 3 DAMAGE
AND FAILURE OF MATERIALS: CONCEPTS AND METHODS OF MODELING 37 3.1
FRACTURE MECHANICS: BASIC CONCEPTS 37 3.1.1 GRIFFIM THEORY OF BRITTLE
FRACTURE 38 3.1.2 STRESS FIELD IN THE VICINITY OF A CRACK 39 3.1.3
STRESS INTENSITY FACTOR AND ENERGY RELEASE RATE 39 3.1.4 /-INTEGRAL AND
OTHER MODEIS OF PLASTIC EFFECTS 40 3.2 STATISTICAL THEORIES OF STRENGTH
42 3.2.1 WORST FLAW AND WEAKEST LINK THEORIES 42 3.2.2 RANDOM PROCESSES
AND STOCHASTIC EQUATIONS 44 3.2.3 FIBER BUENDLE MODEIS AND CHAINS OF
FIBER BUNDLES 46 3.3 DAMAGE MECHANICS 48 3.3.1 MODELS OF ELASTIC SOLIDS
WITH MANY CRACKS 48 3.3.2 PHENOMENOLOGICAL ANALYSIS OF DAMAGE EVOLUTION
(CONTINUUM DAMAGE MECHANICS) 49 3.3.3 MICROMECHANICAL MODEIS OF VOID
GROWTH IN DUCTILE MATERIALS 50 3.3.4 THERMODYNAMIC DAMAGE MODEIS 51
3.3.5 NONLOCAL AND GRADIENT ENHANCED DAMAGE MODEIS 53 3.4 NUMERICAL
MODELING OF DAMAGE AND FRACTURE 55 REFERENCES 60 4
MICROSTRUCTURE-STRENGTH RELATIONSHIPS OF COMPOSITES: CONCEPTS AND
METHODS OF ANALYSIS 65 4.1 INTERACTION BETWEEN ELEMENTS OF
MICROSTRUCTURES: PHYSICAL AND MECHANICAL MODEIS 65 4.1.1 THEORIES OF
CONSTRAINED PLASTIC FLOW OF DUCTILE MATERIALS REINFORCED BY HARD
INCLUSIONS 66 4.1.2 SHEAR LAG MODEL AND ITS APPLICATIONS 69 4.2
MULTISCALE MODELING OF MATERIALS AND HOMOGENIZATION 71 4.2.1 MULTISCALE
MODELING 72 4.2.2 HOMOGENIZATION 74 4.3 ANALYTICAL ESTIMATIONS AND
BOUNDS OF OVERALL ELASTIC PROPERTIES OF COMPOSITES 75 4.3.1
RULE-OF-MIXTURE AND CLASSICAL VOIGT AND REUSS APPROXIMATIONS 76 4.3.2
HASHIN-SHTRIKMAN BOUNDS 78 4.3.3 DILUTE DISTRIBUTION MODEL 80 4.3.4
EFFECTIVE FIELD METHOD AND MORI-TANAKA MODEL 80 4.3.5 COMPOSITE SPHERE
AND COMPOSITE CYLINDER ASSEMBLAGE 81 4.3.6 SELF-CONSISTENT MODEIS AND
OTHER EFFECTIVE MEDIUM METHODS 82 4.3.7 METHOD OF CELLS AND
TRANSFORMATION FIELD ANALYSIS 84 4.3.8 INCORPORATION OF DETAILED
MICROSTRUCTURAL INFORMATION: THREE-POINT APPROXIMATION 86 CONTENTS V/7
4.3.9 GENERALIZED CONTINUA: NONLOCAL AND GRADIENT-ENHANCED MODEIS 87
4.3.10 NONLINEAR MATERIAL BEHAVIOR 88 4.4 COMPUTATIONAL MODEIS OF
MICROSTRUCTURES AND STRENGTH OF COMPOSITES 89 4.4.1 UNIT CELL MODEIS OF
COMPOSITES 90 4.4.2 HOW TO INCORPORATE REAL MICROSTRUCTURES OF MATERIALS
INTO NUMERICAL MODEIS 98 REFERENCES 1 05 COMPUTATIONAL EXPERIMENTS IN
THE MECHANICS OF MATERIALS: CONCEPTS AND TOOLS 115 5.1 CONCEPT OF
COMPUTATIONAL EXPERIMENTS IN THE MECHANICS OF MATERIALS 115 5.2 INPUT
DATA FOR THE SIMULATIONS: DETERMINATION OF MATERIAL PROPERTIES 116 5.2.1
NANOINDENTATION 117 5.2.2 IN-SITU EXPERIMENTS USING A SCANNING ELECTRON
MICROSCOPE 117 5.2.3 INVERSE ANALYSIS 118 5.3 PROGRAM CODES FOR THE
AUTOMATIC GENERATION OF 3D MICROSTRUCTURAL MODEIS OF MATERIALS 120 5.3.1
PROGRAM MESO3D FOR THE AUTOMATIC GEOMETRY-BASED GENERATION OF 3D
MICROSTRUCTURAL FE MODEIS OF MATERIALS 120 5.3.2 PROGRAM VOXEL2FEM FOR
THE AUTOMATIC VOXEL-BASED GENERATION OF 3D MICROSTRUCTURAL FE MODEIS OF
MATERIALS 123 REFERENCES 127 NUMERICAL MESOMECHANICAL EXPERIMENTS:
ANALYSIS OF THE EFFECT OF MICROSTRUCTURES OF MATERIALS ON THE
DEFORMATION AND DAMAGE RESISTANCE 129 6. 1 FINITE DEMENT MODEIS OF
COMPOSITE MICROSTRUCTURES 130 6.2 MATERIAL PROPERTIES USED IN THE
SIMULATIONS 130 6.3 DAMAGE MODELING IN COMPOSITES WITH THE USER DEFINED
FIELDS 131 6.3.1 DAMAGE MECHANISMS AND FAILURE CONDITIONS 131 6.3.2
SUBROUTINE USER DEFINED FIELD 132 6.3.3 INTERFACE DEBONDING 133 6.4
STABILITY AND REPRODUCIBILITY OF THE SIMULATIONS 134 6.5 EFFECT OF THE
AMOUNT AND VOLUME CONTENT OF PARTICLES ON THE DEFORMATION AND DAMAGE IN
THE COMPOSITE 137 6.6 EFFECT OF PARTICLE CLUSTERING AND THE GRADIENT
DISTRIBUTION OF PARTICLES 141 6.7 EFFECT OF THE VARIATIONS OF PARTICLE
SIZES ON THE DAMAGE EVOLUTION 145 6.8 RANKING OF MICROSTRUCTURES AND THE
EFFECT OF GRADIENT ORIENTATION 147 REFERENCES 149 GRADED PARTICLE
REINFORCED COMPOSITES: EFFECT OF THE PARAMETERS OF GRADED
MICROSTRUCTURES ON THE DEFORMATION AND DAMAGE 151 7.1 DAMAGE EVOLUTION
IN GRADED COMPOSITES AND THE EFFECT OF THE DEGREE OF GRADIENT 153 7.2
'BILAYER' MODEL OF A GRADED COMPOSITE 159 7.3 EFFECT OF THE SHAPE AND
ORIENTATION OF ELONGATED PARTICLES ON THE STRENGTH AND DAMAGE EVOLUTION:
NONGRADED COMPOSITES 161 7.4 EFFECT OF THE SHAPE AND ORIENTATION OF
ELONGATED PARTICLES ON THE STRENGTH AND DAMAGE EVOLUTION: GRADED
COMPOSITES 165 CONTENTS 7.5 EFFECT OF STATISTICAL VARIATIONS OF LOCAL
STRENGTHS OF REINFORCING PARTICLES AND THE DISTRIBUTION OF THE PARTICLE
SIZES 168 7.6 COMBINED REUSS-VOIGT MODEL AND ITS APPLICATION TO THE
ESTIMATION OF STIFFNESS OF GRADED MATERIALS 172 7.6.1 ESTIMATION OF THE
STIFFNESS OF MATERIALS WITH ARBITRARILY COMPLEX MICROSTRUCTURES:
COMBINED REUSS-VOIGT MODEL 172 7.6.2 EFFECT OF THE DEGREE OF GRADIENT ON
THE ELASTIC PROPERTIES OF THE COMPOSITE 172 7.6.3 INCLINED INTERFACE:
EFFECT OF THE ORIENTATION OF INTERFACES ON THE ELASTIC PROPERTIES 176
REFERENCES 177 PARTICLE CLUSTERING IN COMPOSITES: EFFECT OF CLUSTERING
ON THE MECHANICAL BEHAVIOR AND DAMAGE EVOLUTION 179 8.1 FINITE ELEMENT
MODELING OF THE EFFECT OF CLUSTERING OF PARTICLES ON THE DAMAGE
EVOLUTION 179 8.1.1 NUMERICAL MODEIS OF CLUSTERED MICROSTRUCTURES AND
STATISTICAL CHARACTERIZATION OF THE MICROSTRUCTURES 181 8.1.2 SIMULATION
OF DAMAGE AND PARTICLE FAILURE IN CLUSTERED MICROSTRUCTURES 183 8.2
ANALYTICAL MODELING OF THE EFFECT OF PARTICLE CLUSTERING ON THE DAMAGE
RESISTANCE 187 8.2.1 CELL ARRAY MODEL OF A COMPOSITE 187 8.2.2
PROBABILISTIC ANALYSIS OF DAMAGE ACCUMULATION IN A CELL 191 8.2.3 EFFECT
OF PARTICLE CLUSTERING ON THE FRACTURE TOUGHNESS 193 REFERENCES 1 95
INTERPENETRATING PHASE COMPOSITES: NUMERICAL SIMULATIONS OF DEFORMATION
AND DAMAGE 197 9.1 GEOMETRY-BASED AND VOXEL ARRAY BASED 3D FE MODEL
GENERATION: COMPARISON 200 9.2 GRADIENT INTERPENETRATING PHASE
COMPOSITES 202 9.3 ISOTROPIE INTERPENETRATING PHASE COMPOSITES 207 9.3.1
EFFECT OF THE CONTIGUITY OF INTERPENETRATING PHASES ON THE STRENGTH OF
COMPOSITES 207 9.3.2 POROUS PLASTICITY: OPEN FORM POROSITY 210
REFERENCES 212 FIBER REINFORCED COMPOSITES: NUMERICAL ANALYSIS OF DAMAGE
INITIATION AND GROWTH 215 10.1 MODELING OF STRENGTH AND DAMAGE OF FIBER
REINFORCED COMPOSITES: A BRIEF OVERVIEW 215 10.1.1 SHEAR LAG BASED
MODEIS AND LOAD REDISTRIBUTION SCHEMAS 215 10.1.2 FIBER BUENDLE MODEL AND
ITS VERSIONS 219 10.1.3 FRACTURE MECHANICS BASED MODEIS AND CRACK
BRIDGING 220 10.1.4 MICROMECHANICAL MODEIS OF DAMAGE AND FRACTURE 223
CONTENTS IX 10.2 MESOMECHANICAL SIMULATIONS OF DAMAGE INITIATION AND
EVOLUTION IN FIBER REINFORCED COMPOSITES 225 10.2.1 UNIT CELL MODEL AND
DAMAGE ANALYSIS 226 10.2.2 NUMERICAL SIMULATIONS: EFFECT OF MATRIX
CRACKS ON THE FIBER FRACTURE 228 10.2.3 NUMERICAL SIMULATIONS: INTERFACE
DAMAGE INITIATION AND ITS INTERACTION WITH MATRIX CRACKS AND FIBER
FRACTURES 229 REFERENCES 235 11 CONTACT DAMAGE AND WEAR OF COMPOSITE
TOOL MATERIALS: MICRO-MACRO RELATIONSHIPS 239 11.1 MICROMECHANICAL
MODELING OF THE CONTACT WEAR OF COMPOSITES: A BRIEF OVERVIEW 240 11.2
MESOMECHANICAL SIMULATIONS OF WEAR OF GRINDING WHEELS 243 11.3
MICRO-MACRO DYNAMICAL TRANSITIONS FOR THE CONTACT WEAR OF COMPOSITES:
'BLACK BOX MODELING' APPROACH 245 11.3.1 MODEL OF THE TOOL WEAR BASED ON
THE 'BLACK BOX MODELING' APPROACH 245 11.3.2 EFFECT OF THE LOADING
CONDITIONS ON THE TOOL WEAR 250 11.3.3 EXPERIMENTAL VERIFICATION:
APPROACH AND STEADY STATE CUTTING REGIMES 252 11.4 MICROSCALE SCATTERING
OF THE TOOL MATERIAL PROPERTIES AND THE MACROSCOPIC EFFICIENCY OF THE
TOOL 253 11.4.1 STATISTICAL DESCRIPTION OF TOOL SHAPES 254 11.4.2 EFFECT
OF THE SCATTERING OF THE TOOL MATERIAL PROPERTIES ON THE EFFICIENCY OF
THE TOOL 257 11.4.3 PRINCIPLE OF THE OPTIMAL TOOL DESIGN 259 REFERENCES
261 12 FUTURE FIELDS: COMPUTATIONAL MESOMECHANICS AND NANOMATERIALS 265
REFERENCES 267 13 CONCLUSIONS 269 INDEX 271 |
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| author | Mišnaevsky, Leon L. |
| author_facet | Mišnaevsky, Leon L. |
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| discipline | Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik |
| discipline_str_mv | Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik |
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| illustrated | Illustrated |
| index_date | 2024-07-02T17:54:38Z |
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| spelling | Mišnaevsky, Leon L. Verfasser aut Computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance Leon Mishnaevsky Chichester [u.a.] Wiley 2007 VI, 276 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Mathematisches Modell Composite materials Mechanical properties Mathematical models Micromechanics Mathematical models Numerical analysis Mikrostruktur (DE-588)4131028-7 gnd rswk-swf Verbundwerkstoff (DE-588)4062670-2 gnd rswk-swf Numerisches Verfahren (DE-588)4128130-5 gnd rswk-swf Verbundwerkstoff (DE-588)4062670-2 s Mikrostruktur (DE-588)4131028-7 s Numerisches Verfahren (DE-588)4128130-5 s DE-604 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2973053&prov=M&dok_var=1&dok_ext=htm Inhaltstext text/html http://www.loc.gov/catdir/enhancements/fy0739/2007013494-b.html Contributor biographical information text/html http://www.loc.gov/catdir/enhancements/fy0739/2007013494-d.html Publisher description text/html http://www.loc.gov/catdir/toc/ecip0714/2007013494.html Table of contents only GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015705827&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Mišnaevsky, Leon L. Computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance Mathematisches Modell Composite materials Mechanical properties Mathematical models Micromechanics Mathematical models Numerical analysis Mikrostruktur (DE-588)4131028-7 gnd Verbundwerkstoff (DE-588)4062670-2 gnd Numerisches Verfahren (DE-588)4128130-5 gnd |
| subject_GND | (DE-588)4131028-7 (DE-588)4062670-2 (DE-588)4128130-5 |
| title | Computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance |
| title_auth | Computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance |
| title_exact_search | Computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance |
| title_exact_search_txtP | Computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance |
| title_full | Computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance Leon Mishnaevsky |
| title_fullStr | Computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance Leon Mishnaevsky |
| title_full_unstemmed | Computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance Leon Mishnaevsky |
| title_short | Computational mesomechanics of composites |
| title_sort | computational mesomechanics of composites numerical analysis of the effect of microstructures of composites on their strength and damage resistance |
| title_sub | numerical analysis of the effect of microstructures of composites on their strength and damage resistance |
| topic | Mathematisches Modell Composite materials Mechanical properties Mathematical models Micromechanics Mathematical models Numerical analysis Mikrostruktur (DE-588)4131028-7 gnd Verbundwerkstoff (DE-588)4062670-2 gnd Numerisches Verfahren (DE-588)4128130-5 gnd |
| topic_facet | Mathematisches Modell Composite materials Mechanical properties Mathematical models Micromechanics Mathematical models Numerical analysis Mikrostruktur Verbundwerkstoff Numerisches Verfahren |
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