Mathematical relations in particulate materials processing: ceramics, powder metals, cermets, carbides, hard materials, and minerals
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
2008
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| Schriftenreihe: | Wiley series on processing of engineering materials
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | XXXIII, 419 S. graph. Darst. |
| ISBN: | 9780470173640 |
Internformat
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| 245 | 1 | 0 | |a Mathematical relations in particulate materials processing |b ceramics, powder metals, cermets, carbides, hard materials, and minerals |c Randall M. German ; Seong Jin Park |
| 246 | 1 | 3 | |a Handbook of mathematical relations in particulate materials processing |
| 264 | 1 | |a Hoboken, NJ |b Wiley |c 2008 | |
| 300 | |a XXXIII, 419 S. |b graph. Darst. | ||
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| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a Wiley series on processing of engineering materials | |
| 500 | |a Includes bibliographical references and index | ||
| 650 | 4 | |a Powder metallurgy | |
| 650 | 4 | |a Powder metallurgy / Mathematical models | |
| 650 | 4 | |a Mathematisches Modell | |
| 650 | 4 | |a Powder metallurgy | |
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Datensatz im Suchindex
| _version_ | 1804137937581899777 |
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| adam_text | MATHEMATICAL RELATIONS IN PARTICULATE MATERIALS PROCESSING CERAMIES,
POWDER METALS, CERMETS, CARBIDES, HARD MATERIALS, AND MINERALS RANDALL
M. GERMAN SEONG JIN PARK ~ * WILEY A JOHN WILEY & SONS, INC.,
PUBLICATION CONTENTS FOREWORD ABOUT THE AUTHORS A ABNORMAL GRAIN GROWTH
ABRASIVE WEAR-SEE FRICTION AND WEAR TESTING ACCELERATION OF
FREE-SETTLING PARTICLES ACTIVATED SINTERING, EARLY-STAGE SHRINKAGE
ACTIVATION ENERGY-SEE ARRHENIUS RELATION ADSORPTION-SEE BET SPECIFIC
SUIFACE AREA AGGLOMERATE STRENGTH AGGLOMERATION FORCE AGGLOMERATION OF
NANOSCALE PARTICLES-SEE NANOPARTICLE AGGLOMERATION ANDREASEN SIZE
DISTRIBUTION APPARENT DIFFUSIVITY ARCHARD EQUATION ARCHIMEDES DENSITY
ARRHENIUS RELATION ATMOSPHERE MOISTURE CONTENT-SEE DEW POINT
ATMOSPHERE-STABILIZED POROSITY-SEE GAS-GENERATED FINAL PORES ATOMIC FLUX
IN VACUUM SINTERING ATOMIC-SIZE RATIO IN AMORPHOUS METALS ATOMIZATION
SPHEROIDIZATION TIME-SEE SPHEROIDIZATION TIME ATOMIZATION TIME-SEE
SOLIDIFICATION TIME AVERAGE COMPACTION PRESSURE-SEE MEAN COMPACTION
PRESSURE AVERAGE PARTICLE SIZE-SEE MEAN PARTICLE SIZE AVRAMI EQUATION
XXXI* XXXIII* 1* I* 3* 3* 4* 5* 5* 5* 6* 6* 6* 7* 7* 8* 9* 10* 10* 10*
10* II* II* II* II* II* VII* VIII CONTENTS B BA]] MILLING-SEE LAI
MILLING BEARING STRENGTH BELL CURVE-SEE GAUSSIAN DISTRIBUTION
BENDING-BEAM VISCOSITY BENDING TEST BET EQUIVALENT SPHERICAL-PARTICLE
DIAMETER BET SPECIFIC SURFACE AREA BIMODAL POWDER PACKING BIMODAL POWDER
SINTERING BINDER BURNOUT-SEE POLYMER PYROLYSIS BINDER (MIXED POLYMER)
VISCOSITY BINGHAM MODEL-SEE VISCOSITY MODELFOR INJECTION-MOLDING
FEEDSTOCK BINGHAM VISCOUS-FLOW MODEL BOLTZMANN STATISTICS-SEE ARRHENIUS
RELATION BOND NUMBER BRAGG S LAW BRAZILIAN TEST BREAKAGE MODEL BRINELL
HARDNESS BRITTLE MATERIAL STRENGTH DISTRIBUTION-SEE WEIBULL DISTRIBUTION
BROADENING BROWNIAN MOTION BUBBLE POINT-SEE WASHBURN EQUATION BULK
TRANSPORT SINTERING-SEE SINTERING SHRINKAGE AND SURFACE-AREA REDUCTION
KINETICS C CANTILEVER-BEAM TEST-SEE BENDING-BEAM VISCOSITY CAPILLARITY
CAPILLARITY-INDUCED SINTERING-SEE SURFACE CURVATURE-DRIVEN MASS FLOW IN
SINTERING CAPILLARY PRESSURE DURING LIQUID-PHASE SINTERING-SEE MEAN
CAPILLARY PRESSURE CAPILLARY RISE-SEE WASHBURN EQUATION CAPILLARY
STRESS-SEE LAPLACE EQUATION CASE CARBURIZATION CASSON MODEL 13* 13 13 13
14 16 18 18 20 21 22 23 23 23 24 24 24 25 26 27 28 28 29 30 30 31 31 31
32 32 32 32 32 32 X CONTENTS CONSTITUTIVE EQUATIONS FOR SINTERING-SEE
MACROSCOPIC SINTERING MODE CONSTITUTIVE EQUATIONS CONSTRUCTIVE
REINFORCEMENT IN X-RAY DIFFRACTION-SEE BRAGG S LAW CONTACT ANGLE CONTACT
PRESSURE-SEE EFFECTIVE PRESSURE CONTACT SIZE AS A FUNCTION OF DENSITY
CONTACTS PER PARTIC1E-SEE COORDINATION NUMBER AND DENSITY CONTAINER-SIZE
EFFECT ON RANDOM-PACKING DENSITY CONTIGUITY CONTINUUM THEORY OF
SINTERING CONTINUUM THEORY FOR FIE1D-ACTIVATED SINTERING CONVECTIVE HEAT
TRANSFER COOLING RATE IN ATOMIZATION-SEE NEWTONIAN COOLING
APPROXIMATION, GAS ATOMIZATION COOLING RATE, AND SECONDARY DENDRITE ARM
SPACING COOLING RATE IN MO1DING COO1ING TIME IN MOLDING COORDINATION
NUMBER AND DENSITY COORDINATION NUMBER AND GRAIN SIZE-SEE GRAIN-SIZE
AFFECT ON COORDINATION NUMBER COORDINATION NUMBER FOR ORDERED PACKINGS
COORDINATION NUMBER FROM CONNECTIVITY COORDINATION NUMBER IN
LIQUID-PHASE SINTERING COSTING AND PRICE ESTIMATION COU1OMB S LAW FOR
P1ASTIC YIE1DING COURTNEY MODEL FOR EARLY-STAGE NECK GROWTH IN
LIQUID-PHASE SINTERING CREEP-CONTROLLED DENSIFICATION CRITICA1 SOLIDS
LOADING-SEE SOLIDS LOADING CROSS MODEL CURVED-SURFACE STRESS-SEE NECK
CURVATURE STRESS CYCLONE SEPARATION OF POWDER CY1INDRICAL CRUSH
STRENGTH-SEE BEARING STRENGTH D DARCY S LAW DEBINDING-SEE POLYMER
PYROLYSIS, SOLVENT DEBINDING TIME, THERMAL DEBINDING TIME, VACUUM
THERMAL DEBINDING TIME, AND WICKING DEBINDING MASTER CURVE-SEE MASTER
DECOMPOSITION CURVE DEBINDING TEMPERATURE 49 49 50 50 51 51 52 52 53 54
55 56 56 56 57 58 58 59 59 60 62 63 63 64 64 65 65 66 67 67 68 68 68 XII
CONTENTS DISPERSION FORCE-SEE LONDON DISPERSION FORCE 85 DISSOLUTION
INDUCED DENSIFICATION 85 DOM TECHNIQUE 86 DRAINAGE-SEE WICKING 87
DROPLET COOLING IN ATOMIZATION-SEE NEWTONIAN COOLING APPROXIMATION 87
DUCTILITY VARIATION WITH DENSITY-SEE SINTERED DUCTILITY 87 E EFFECTIVE
PRESSURE 89 EJECTION STRESS-SEE MAXIMUM EJECTION STRESS 89 ELASTIC
BEHAVIOR-SEE HOOKE S LAW 89 ELASTIC-DEFONNATION NECK-SIZE RATIO 90
ELASTIC-MODULUS VARIATION WITH DENSITY 91 ELASTIC-PROPERTY VARIATION
WITH POROSITY 91 ELECTRICAL-CONDUCTIVITY VARIATION WITH POROSITY 92
ELECTROMIGRATION CONTRIBUTIONS TO SPARK SINTERING 93 ELONGATION 94
ELONGATION VARIATION WITH DENSITY-SEE SINTERED DUCTILITY 95
ENERGY-GOVEMING EQUATION FOR POWDER INJECTION MOLDING 9S ENERGY IN A
PARTICLE 95 ENHANCED SINTERING-SEE ACTIVATED SINTERING, EARLY-STAGE
SHRINKAGE 96 EQUILIBRIUM CONSTANT 96 EQUIVALENT PARTICLE SIZE BASED ON
AREA-SEE BET EQUIVALENT-SPHERICAL-PARTICLE DIAMETER 97 EQUIVALENT
SINTERING-SEE TEMPERATURE ADJUSTMENTS FOR EQUIVALENT SINTERING 97
EQUIVALENT SPHERICAL DIAMETER 97 ERROR FUNCTION FOR CUMULATIVE
LOG-NONNAL DISTRIBUTION 98 EULER RELATION 99 EVAPORATION 99 EVAPORATION
-CONDENSATION-SEE INITIAL-STAGE NECK GROWTH 100 EXAGGERATED GRAIN
GROWTH-SEE ABNORMAL GRAIN GROWTH 100 EXOTHENNIC SYNTHESIS-SEE
SELF-PROPAGATING HIGH-TEMPERATURE SYNTHESIS 100 EXPANSION FACTOR FOR
TOOLING-SEE TOOL EXPANSION FACTOR 100 EXPERIMENTAL SCATTER-SEE GAUSSIAN
DISTRIBUTION 100 EXPONENTIAL DISTRIBUTION FUNCTION 100 EXTRUSION
CONSTANT 101 CONTENTS XIII F 103 FEEDSTOCK FONNULATION 103 FEEDSTOCK
VISCOSITY-SEE SUSPENSION VISCOSITY AND VISCOSITY MODEL FOR
INJECTION-MOLDING FEEDSTOCK 103 FEEDSTOCK VISCOSITY AS A FUNCTION OF
SHEAR RATE-SEE CROSS MODEL 103 FEEDSTOCK YIELD STRENGTH-SEE YIELD
STRENGTH OF PARTICLE-POLYMER FEEDSTOCK 104 FIBER-FRACTURE FROM BUCKLING
104 FIBER-FRACTURE PROBABILITY 104 FIBER PACKING DENSITY 105 FICK S
FIRST LAW 106 FICK S SECOND LAW 106 FIELD-ACTIVATED SINTERING 107
FILTRATION RATING 109 FINAL-STAGE DENSIFICATION 109 FINAL-STAGE
LIQUID-PHASE SINTERING DENSIFICATION 110 FIRST-STAGE NECK GROWTH IN
SINTERING-SEE INITIAL-STAGE NECK GROWTH 112 FINAL-STAGE PORE SIZE 112
FINAL-STAGE PRESSURE-ASSISTED DENSIFICATION 112 FINAL-STAGE
PRESSURE-ASSISTED VISCOUS FLOW 113 FINAL-STAGE SINTERING BY VISCOUS FLOW
114 FINAL-STAGE SINTERING GRAIN GROWTH AND PORE DRAG 114 FINAL-STAGE
SINTERING LIMITED DENSITY 115 FINAL-STAGE SINTERING PINNED GRAINS-SEE
ZENER RELATION 117 FINAL-STAGE SINTERING STRESS 117 FIRST-STAGE
SHRINKAGE IN SINTERING-SEE INITIAL-STAGE SHRINKAGE IN SINTERING 117
FIRST-STAGE SINTERING SURFACE-AREA REDUCTION-SEE SURFACE-AREA REDUCTION
KINETICS 118 FISHER SUBSIEVE PARTICLE SIZE 118 FLATNESS-SEE
PARTICLE-SHAPE INDEX 119 FLAW EFFECT ON GREEN STRENGTH-SEE GREEN
STRENGTH VARIATION WITH FLAWS 119 FLOW GOVEMING EQUATION DURING POWDER
INJECTION MOLDING 119 FLUIDIZED-BED PROCESSING 121 FORCE DISTRIBUTION IN
RANDOMLY PACKED POWDER 122 FOUR-POINT BENDING STRENGTH-SEE
TRANSVERSE-RUPTURE STRENGTH 122 FRACTIONAL COVERAGE OF GRAIN BOUNDARIES
IN SUPERSOLIDUS SINTERING 122 FRACTIONAL DENSITY 123 XIV CONTENTS
FRAGMENTATION BY LIQUID FRAGMENTATION MODEL-SEE BREAKAGE MODEL FREEFORM
SPRAYING-SEE SPRAY DEPOSITION FRENKE1 MODEL-SEE TWO-PARTICLE VISCOUS
FLOW SINTERING FRICTION AND WEAR TESTING FUNICULAR-STATE TENSILE
STRENGTH G GAS-ABSORPTION SURFACE AREA-SEE BET SPECIFIC SURFACE AREA
GAS-ATOMIZATION COOLING RATE GAS-ATOMIZATION MELT FLOW RATE
GAS-ATOMIZATION PARTICLE SIZE GAS-GENERATED FINAL PORES GAS
PERMEABILITY-SEE KOZENY-CARMAN EQUATION GATE STRAIN RATE IN INJECTION
MOLDING GAUDIN-SCHUHMANN DISTRIBUTION GAUSSIAN DISTRIBUTION
GEL-DENSIFICATION MODEL GESSINGER MODEL FOR INTERMEDIATE-STAGE
LIQUID-PHASE SINTERING GLASS VISCOSITY TEST-SEE BENDING-BEAM VISCOSITY
GRAIN ACCOMMODATION-SEE GRAIN-SHAPE ACCOMMODATION GRAIN BONDING-SEE
CONTIGUITY GRAIN BOUNDARY-CONTROLLED CREEP-SEE COBLE CREEP
GRAIN-BOUNDARY ENERGY AND MISORIENTATION ANGLE GRAIN-BOUNDARY FRACTION
GRAIN-BOUNDARY GROOVE-SEE DIHEDRAL ANGLE GRAIN-BOUNDARY
MISORIENTATION-SEE GRAIN-BOUNDARY ENERGY AND MISORIENTATION ANGLE
GRAIN-BOUNDARY PENETRATION-SEE FRAGMENTATION BY LIQUID GRAIN-BOUNDARY
PINNING-SEE ZENER RELATION GRAIN-BOUNDARY WETTING GRAIN COORDINATION
NUMBER IN LIQUID-PHASE SINTERING-SEE COORDINATION NUMBER IN LIQUID-PHASE
SINTERING GRAIN DIAMETER BASED ON AN EQUIVALENT CIRCLE GRAIN GROWTH
GRAIN GROWTH IN LIQUID-PHASE SINTERING, DIFFUSION CONTROL AT HIGH SOLID
CONTENTS GRAIN GROWTH IN LIQUID-PHASE SINTERING, DILUTE SOLIDS CONTENTS
GRAIN GROWTH IN LIQUID-PHASE SINTERING, INTERFACIAL REACTION CONTROL 123
124 124 124 124 125 127* 127 127 128 129 130 131 131 132 133 134 136 137
137 137 137 137 137 138 138 138 138 138 140 140 140 141 143 144
GRAIN-GROWTH MASTER CURVE GRAIN-GROWTH MASTER CURVE, INTERFACIAL
REACTION CONTROL GRAIN NUMBER CHANGES IN LIQUID-PHASE SINTERING GRAIN
PINNING BY PORES IN FINAL-STAGE SINTERING GRAIN SEPARATION DISTANCE IN
LIQUID-PHASE SINTERING GRAIN SEPARATION IN CEMENTED CARBIDES-SEE MEAN
FREE PATH. CARBIDE MICROSTRUCTURE GRAIN-SHAPE ACCOMMODATION GRAIN SIZE
GRAIN-SIZE AFFECT ON COORDINATION NUMBER GRAIN-SIZE DISTRIBUTION FOR
LIQUID-PHASE SINTERED MATERIALS GRAIN-SIZE DISTRIBUTION FOR SOLID-STATE
SINTERED MATERIALS GRAIN-SIZE EFFECT ON STRENGTH-SEE HALL-PETCH RELATION
GRAIN SIZE TO PORE SIZE IN FINAL-STAGE LIQUID-PHASE SINTERING
GRANULATION FORCE-SEE AGGLOMERATE FORCE GRANULE STRENGTH-SEE AGGLOMERATE
STRENGTH GREEN DENSITY DEPENDENCE ON COMPACTION PRESSURE GREEN DENSITY
DEPENDENCE ON PUNCH TRAVEL GREEN DENSITY FROM REPEATED PRESSING GREEN
STRENGTH GREEN STRENGTH DISTRIBUTION-SEE WEIBULL DISTRIBUTION GREEN
STRENGTH VARIATION WITH FLAWS GRINDING TIME GROWTH-SEE SINTERING
SHRINKAGE H HALL-PETCH RELATION HARDENABILITY FACTOR HARDNESS HARDNESS
VARIATION WITH GRAIN SIZE IN CEMENTED CARBIDES HEATING-RATE EFFECT IN
TRANSIENT LIQUID-PHASE SINTERING HEAT TRANSFER IN SINTERED MATERIALS
HEAT-TRANSFER RATE IN MOLDING-SEE COOLING RATE IN MOLDING HERRING
SCALING LAW HERTZIAN STRESS-SEE ELASTIC DEFORMATION NECK-SIZE RATIO
HETERODIFFUSION-SEE MIXED-POWDER SINTERING SHRINKAGE HETEROGENEOUS
NUCLEATION CONTENTS XV 145* 147* 149* 149* 150* 151* 151* 152* 152* 153*
154* 155* 155* 155* 156* 156* 157* 157* 158* 158* 158* 159* 159* 161*
161* 161* 162* 163* 164* 164* 165* 165* 166* 166* 167* XVI CONTENTS HIGH
SOLID-CONTENT GRAIN GROWTH-SEE GRAIN GROWTH IN LIQUID-PHASE SINTERING,
DIFFUSION CONTROL AT HIGH SOLID CONTENTS 167 HOMOGENEITY-SEE SEGREGATION
COEFFICIENT 167 HOMOGENEITY OF A MICROSTRUCTURE 168 HOMOGENEITY OF MIXED
POWDERS-SEE MIXTURE HOMOGENIZATION RATE 168 HOMOGENEOUS NUCLEATION 168
HOMOGENIZATION IN SINTERING 169 HOMOGENIZATION RATE IN POWDER MIXING-SEE
MIXTURE HOMOGENIZATION RATE 170 HOOKE S LAW 170 HOT PRESSING IN THE
PRESENCE OF A LIQUID PHASE-SEE PRESSURE-ASSISTED LIQUID-PHASE SINTERING
170 I 171 IMPREGNATION-SEE INFILTRATION PRESSURE 171 INERTIAL-FLOW
EQUATION 171 INFILTRATION DEPTH 172 INFILTRATION PRESSURE 172
INFILTRATION RATE 173 INHIBITED GRAIN GROWTH-SEE ZENER RELATION 173
INITIAL-STAGE LIQUID-PHASE SINTERING STRESS-SEE SINTERING STRESS IN
INITIAL-STAGE LIQUID-PHASE SINTERING. 173 INITIAL-STAGE NECK GROWTH 174
INITIAL-STAGE SINTERING-SEE SURFACE DIFFUSION - CONTROLLED NECK GROWTH
176 INITIAL-STAGE SINTERING MODEL-SEE KUCZYNSKI NECK-GROWTH MODEL 176
INITIAL-STAGE SINTERING STRESS-SEE SINTERING STRESS IN INITIAL-STAGE
SOLID-STATE SINTERING 176 INITIAL-STAGE SINTERING SURFACE-AREA
REDUCTION-SEE SURFACE-AREA REDUCTION KINETICS 176 INITIAL-STAGE
SHRINKAGE IN SINTERING 176 INJECTION-MOLDING VISCOSITY-SEE VISCOSITY
MODEL FOR INJECTION-MOLDING FEEDSTOCK 177 IN SITU SINTERING STRENGTH 177
INTEGRAL WORK OF SINTERING-SEE MASTER SINTERING CURVE 178
INTERDIFFUSION-SEE MIXED-POWDER SINTERING SHRINKAGE 178
INTERFACE-CONTROLLED GRAIN GROWTH 178 INTERMEDIATE-STAGE LIQUID-PHASE
SINTERING MODEL 179 CONTENTS XVII INTERMEDIATE-STAGE LIQUID-PHASE
SINTERING SHRINKAGE-SEE SOLUTION-REPRECIPITATION-INDUCED SHRINKAGE IN
LIQUID-PHASE SINTERING 180 INTERMEDIATE-STAGE PORE ELIMINATION 180
INTERMEDIATE-STAGE SINTERING-DENSITY MODEL 182 INTERMEDIATE-STAGE
SURFACE-AREA REDUCTION 183 INTERRUPTED HEATING-RATE TECHNIQUE-SEE DORN
TECHNIQUE 183 INVERSE RULE OF MIXTURES-SEE COMPOSITE DENSITY AND MIXTURE
THEORETICAL DENSITY 183 J 185 JAR MILLING 185 JET MIXING TIME* 186 K 187
KAWAKITA EQUATION* 187 KELVIN EQUATION* 188 KELVIN MODEL-SEE
VISCOELASTIC MODEL FOR POWDER- POLYMER MATURES 189 K-FACTOR* 189 KINGERY
INTERMEDIATE-STAGE LIQUID-PHASE SINTERING MODEL-SEE INTERMEDIATE-STAGE
LIQUID-PHASE SINTERING MODEL 189 KINGERY MODEL FOR PRESSURE-ASSISTED
LIQUID-PHASE SINTERING-SEE PRESSURE-ASSISTED LIQUID-PHASE SINTERING* 190
KINGERY REARRANGEMENT SHRINKAGE KINETICS-SEE REARRANGEMENT KINETICS IN
INITIAL-STAGE LIQUID-PHASE SINTERING 190 KISSINGER METHOD* 190 KNOOP
HARDNESS 191 KNUDSEN DIFFUSION-SEE VAPOR MEAN FREE PATH 192
KOZENY-CARMAN EQUATION 192 KUCZYNSKI NECK-GROWTH MODEL 192 L 195 LAMINAR
FLOW SETTLING-SEE STOKES LAW 195 LAPLACE EQUATION* 195 LAP1ACE
NUMBER-SEE SURATMAN NUMBER* 196 LASER SINTERING* 196 LATTICE
DIFFUSION-SEE VACANCY DIFFUSION* 196 LIFSCHWIZ, SLYOZOV, WAGNER MODEL*
196 LIGAMENT PINCHING-SEE RALEIGH INSTABILITY 197 LIMITING NECK SIZE 197
XVIII CONTENTS LIMITING SIZE FOR SEDIMENTATION ANALYSIS LIQUID AND SOLID
COMPOSITIONS IN PREALLOY PARTICLE MELTING LIQUID DISTRIBUTION IN
SUPERSOLIDUS LIQUID-PHASE SINTERING LIQUID-DROPLET COALESCENCE TIME
LIQUID-DROPLET VISCOUS FLOW-SEE VISEOUS FLOW OF A LIQUID DROPLET LIQUID
EMBRITTLEMENT-SEE FRAGMENTATION BY LIQUID LIQUID PENETRATION OF GRAIN
BOUNDARIES-SEE MELT PENETRATION OF GRAIN BOUNDARIES ON LIQUID FORMATION
LIQUID-PHASE SINTERING GRAIN GROWTH-SEE GRAIN GROWTH IN LIQUID-PHASE
SINTERING, INTERFAEIAL REAETION CONTROL, AND GRAIN GROWTH IN
LIQUID-PHASE SINTERING, DIFFUSION CONTROL AT HIGH SOLID CONTENTS
LIQUID-PHASE SINTERING GRAIN-SIZE DISTRIBUTION-SEE GRAIN-SIZE
DISTRIBUTION FOR LIQUID-PHASE SINTERED MATERIALS LIQUID-PHASE SINTERING
INTERMEDIATE-STAGE SHRINKAGE-SEE GESSINGER MODEL FOR INTENNEDIATE-STAGE
SHRINKAGE IN LIQUID-PHASE SINTERING LIQUID-PHASE SINTERING NECK
GROWTH-SEE NEEK GROWTH EARLY IN LIQUID-PHASE SINTERING AND COURTNEY
MODEL FOR EARLY-STAGE NEEK GROWTH IN LIQUID-PHASE SINTERING LIQUID-PHASE
SINTERING RHEOLOGICAL MODEL-SEE RHEOLOGIEAL MODEL FOR LIQUID-PHASE
SINTERING LIQUID-PHASE SINTERING SURFACE-AREA REDUCTION-SEE SURFAEE-AREA
REDUETION DURING LIQUID-PHASE SINTERING LIQUID VE10CITY IN ATOMIZATION
LOGARITHMIC VISCOSITY RULE-SEE BINDER (MIXED POLYMER) VISEOSITY
LOG-NORMAL DISTRIBUTION LOG-NORMAL SLOPE PARAMETER LONDON DISPERSION
FORCE LOW-SOLID-CONTENT GRAIN GROWTH-SEE GRAIN GROWTH IN LIQUID-PHASE
SINTERING, DILUTE-SOLIDS CONTENT LUBRICANT BURNOUT-SEE POLYMER PYROLYSIS
LUBRICANT CONTENT-SEE MAXIMUM LUBRIEANT CONTENT M MACROSCOPIC SINTERING
MODEL CONSTITUTIVE EQUATIONS MAGNETIC COERCIVITY CORRELATION IN CEMENTED
CARBIDES MASS FLOW RATE IN ATOMIZATION-SEE GAS-ATOMIZATION MELT FLOW
RATE MASTER DECOMPOSITION CURVE MASTER SINTERING CURVE 198 199 200 203
203 203 204 204* 204* 204 204 204 204 204 205 205 206 207 207 208 208
209 209 211 212 212 213 CONTENTS XIX MASTER SINTERING CURVE FOR GRAIN
GROWTH-SEE GRAIN-GROWTH MASTER CURVE 214 MAXIMUM DENSITY IN
PRESSURE-ASSISTED SINTERING 214 MAXIMUM EJECTION STRESS 215 MAXIMUM
GRAIN SIZE IN SINTERING 215 MAXIMUM LUBRICANT CONTENT 216 MAXWELL
MODEL-SEE VISCOELASTIC MODEL JOR POWDER-POLYMER MIXTURES 216 MEAN
CAPILLARY PRESSURE 216 MEAN COMPACTION PRESSURE 217 MEAN FREE
DISTANCE-SEE PORE-SEPARATION DISTANCE 218 MEAN FREE PATH, CARBIDE
MICROSTRUCTURE 218 MEAN FREE PATH IN LIQUID-PHASE SINTERING-SEE GRAIN
SEPARATION DISTANCE IN LIQUID-PHASE SINTERING 218 MEAN FREE PATH,
SINTERING ATMOSPHERE 218 MEAN PARTICLE SIZE 219 MEAN TIME BETWEEN
PARTICLE CONTACTS-SEE BROWNIAN MOTION 220 MEASURE OF SINTERING-SEE
SINTERING METRIES 220 ME1TING-TEMPERATURE DEPRESSION WITH PARTICLE
SIZE-SEE NANOPARTICLE MELTING-POINT DEPRESSION 220 ME1T PENETRATION OF
GRAIN BOUNDARIES 220 MERCURY POROSIMETRY-SEE WASHBURN EQUATION 222 MESH
SIZES-SEE SIEVE PROGRESSION 222 MICROHARDNESS-SEE VICKERS HARDNESS
NUMBER 222 MICROMECHANICA1 MODEL FOR POWDER COMPACT 222 MICROSTRUCTURE
HOMOGENEITY-SEE HOMOGENEITY OJ A MICROSTRUCTURE 223 MICROWAVE HEATING
224 MIGRATION OF PARTICLES 224 MILLING ENERGY-SEE CHARLES EQUATION JOR
MILLING 225 MILLING TIME-SEE GRINDING TIME 225 MIXED GRAIN BOUNDARY AND
LATTICE DIFFUSION-SEE APPARENT DIFFUSIVITY 225 MIXED LATTICE AND
GRAIN-BOUNDARY DIFFUSION-SEE APPARENT DIFFUSIVITY 225 MIXED-POWDER
SEGREGATION 225 MIXED-POWDER SINTERING SHRINKAGE 227 MIXED-POWDER
SWELLING DURING SINTERING-SEE SWELLING REACTIONS DURING MIXED-POWDER
SINTERING 227 MIXING OPTIMAL ROTATIONA1 RATE-SEE OPTIMAL MIXER
ROTATIONAL SPEED 228 MIXTURE HOMOGENIZATION RATE 228 XX CONTENTS MIXTURE
THEORETICAL DENSITY MODULUS OF RUPTURE-SEE BENDING TEST AND TRANSVERSE
RUPTURE STRENGTH MOISTURE CONTENT-SEE DEW POINT MOLECULAR MEAN FREE
PATH-SEE MEAN FREE PATH AND SINTERING ATMOSPHERE MULTIPLE-MECHANISM
SINTERING MULTIPLE-STAGE MODEL OF SINTERING-SEE COMBINED-STAGE MODEL 01
SINTERING N NABARRO - HERRING CREEP-CONTROLLED PRESSURE-ASSISTED
DENSIFICATION NANOPARTICLE AGGLOMERATION NANOPARTICLE MELLING-POINT
DEPRESSION NANOSCALE PARTICLE-AGGLOMERATE SPHEROIDIZATION NANOSCALE
PARTICLE-SIZE EFFECT ON SURFACE ENERGY-SEE SURFACE-ENERGY VARIATION WITH
DROPLET SIZE NECK-CURVATURE STRESS NECK GROWTH EARLY IN LIQUID-PHASE
SINTERING NECK GROWTH-INDUCED SHRINKAGE-SEE SHRINKAGE RELATION TO NECK
SIZE NECK GROWTH LIMITED BY GRAIN GROWTH NECK-GROWTH MODEL-SEE KUCZYNSKI
NECK-GROWTH MODEL NECKLACE MICROSTRUCTURE-SEE FRAGMENTATION BY LIQUID
PENETRATION NECK-SIZE RATIO DEPENDENCE ON SINTERED DENSITY NEWTONIAN
COOLING APPROXIMATION NEWTONIAN FLOW NORMAL CURVE-SEE GAUSSIAN
DISTRIBUTION NUCLEATION FREQUENCY IN SMALL PARTICLES NUCLEATION RATE
NUMBER OF FEATURES-SEE COMPLEXITY NUMBER OF PARTICLES IN AGGLOMERATES
NUMBCR OF PARTIELES PER UNIT WEIGHT O OPEN-PORE CONTENT OPTIMAL PACKING
PARTICLE-SIZE DISTRIBUTION-SEE ANDREASEN SIZE DISTRIBUTION OPTIMAL MIXER
ROTATIONAL SPEED ORDERED PACKING 228 229 229 229 229 230 231 231 232 233
234 235 235 236 237 237 238 238 238 239 239 240 240 240 241 241 242 243
243 243 243 244 OSPREY PROCESS-SEE SPRAY DEPOSITION OSTWALD RIPENING
OXIDE REDUCTION P PACKING DENSITY FOR LOG-NORMAL PARTICLES PARTICLE
COOLING IN ATOMIZATION-SEE NEWTONIAN COOLING APPROXIMATION PARTICLE
COORDINATION NUMBER-SEE COORDINATION NUMBER AND DENSITY PARTICLE
DIFFUSION IN MIXING PARTICLE FRACTURE IN MILLING PARTICLE PACKING
PARTICLE-SHAPE INDEX PARTICLE SIZE-SEE EQUIVALENT SPHERICAL DIAMETER AND
MEAN PARTICLE SIZE PARTICLE-SIZE ANALYSIS-SEE SIEVE PROGRESSION PARTICLE
SIZE AND APPARENT DENSITY PARTICLE SIZE BY VISCOUS SETTLING-SEE STOKES
PARTICLE DIAMETER PARTICLE-SIZE CONTROL IN CENTRIFUGAL ATOMIZATION-SEE
CENTRIFUGAL ATOMIZATION PARTICLE SIZE PARTICLE-SIZE DISTRIBUTION-SEE
ANDREASEN SIZE DISTRIBUTION, GAUDIN-SCHUHMAN DISTRIBUTION, LOG-NORMAL
DISTRIBUTION, AND ROSIN-RAMMLER DISTRIBUTION PARTICLE-SIZE EFFECT ON
INITIAL-STAGE SINTERING-SEE HERRING SCALING LAW PARTICLE-SIZE EFFECT ON
PACKING DENSITY-SEE PARTICLE PACKING PARTICLE-SIZE EFFECT ON
SOLUBILITY-SEE SOLUBILITY DEPENDENCE ON PARTICLE SIZE PARTICLE-SIZE IN
ATOMIZATION-SEE WATER ATOMIZATION PARTICLE SIZE PARTICLE-SIZE
MEASUREMENT ERROR PEAK BROADENING-SEE BROADENING PEAK STRESS FOR
EJECTION-SEE MAXIMUM EJECTION STRESS PENDULAR-BOND CAPILLARY FORCE
PERCOLATION IN SEMISOLID PARTICLES PERCOLATION LIMITS PERIMETER-BASED
PARTICLE SIZE-SEE GRAIN DIAMETER BASED ON EQUIVALENT CIRCLE
PERMEABILITY-BASED PARTICLE SIZE-SEE FISHER SUBSIEVE PARTICLE SIZE
PERMEABILITY COEFFICIENT CONTENTS XXI 244* 245* 245* 247* 247* 248* 248*
248* 249* 249* 250* 251* 252* 252* 252* 252* 252* 252* 253* 253* 253*
253* 254* 254* 254* 255* 256* 256* 257* 257* XXII CONTENTS PHASE
TRANSFORMATION-SEE NUCLEATION RATE PLASMA-SPRAYING PARTICLE SIZE PLASTIC
FLOW IN HOT COMPACTION PLASTIC FLOW IN SINTERING PLASTIC WORKING-SEE
STRAIN HARDENING POISEUILLE S EQUATION POISSON S RATIO POLYMER-BLEND
VISCOSITY-SEE BINDER (MIXED-POLYMER) VISCOSITY POLYMER PYROLYSIS PORE
ATTACHMENT TO GRAIN BOUNDARIES PORE CLOSURE PORE DRAG-SEE MIGRATION OF
PARTICLES PORE FILLING IN LIQUID-PHASE SINTERING PORE-FREE COMPOSITE OR
MIXED-PHASE DENSITY PORE MOBILITY DURING SINTERING PORE PINNING OF GRAIN
BOUNDARIES-SEE GRAIN PINNING BY PORES IN FINAL-STAGE SINTERING AND ZENER
RELATION PORE-SEPARATION DISTANCE PORE SEPARATION FROM GRAIN BOUNDARIES
PORE SIZE AND GRAIN SIZE IN FINAL-STAGE SINTERING-SEE GRAIN SIZE TO PORE
SIZE IN FINAL-STAGE LIQUID-PHASE SINTERING PORE SIZE AND GRAIN SIZE IN
INTERMEDIATE-STAGE SINTERING PORE SIZE IN FINAL-STAGE SINTERING PORE
SIZE IN VISCOUS-FLOW FINAL-STAGE SINTERING POROSIMETRY-SEE WASHBURN
EQUATION POROSITY-SEE FRACTIONAL DENSITY POROSITY EFFECT ON
DUCTILITY-SEE SINTERED DUCTILITY POROSITY EFFECT ON ELASTIC BEHAVIOR
POROSITY EFFECT ON SONIC VELOCITY-SEE ULTRASONIC VELOCITY POROSITY
EFFECT ON STRENGTH-SEE SINTERED STRENGTH POROSITY EFFECT ON THERMAL
CONDUCTIVITY-SEE THERMAL-CONDUCTIVITY DEPENDENCE ON POROSITY POROSITY IN
SWELLING SYSTEMS WITH LIMITED SOLUBILITY POWDER-FORGING HEIGHT STRAIN
AND DENSIFICATION POWDER INJECTION-MOLDING FEEDSTOCK VISCOSITY-SEE
VISCOSITY MODEL FOR INJECTION-MOLDING FEEDSTOCK POWER-LAW CREEP
PREALLOYED-PARTICLE SINTERING-SEE LIQUID AND SOLID COMPOSITIONS IN
PREALLOY-PARTICLE MELTING 257 258 258 259 259 260 260 261 261 26] 262
262 262 264 264 266 266 266 267 267 267 268 269 269 269 269 270 270 270
270 270 271 271 272 XXIV CONTENTS R RADIAL CRUSH STRENGTH-SEE BEARING
STRENGTH RADIANT HEATING RALEIGH INSTABILITY RANDOM PACKING DENSITY
RANDOM PACKING RADIAL-DISTRIBUTION FUNCTION REACTION-CONTROLLED GRAIN
GROWTH-SEE GRAIN-GROWTH MASTER CURVE, LNTERFACIAL REACTION CONTROL, AND
LNTERFACE-CONTROLLED GRAIN GROWTH REACTION-RATE EQUATION-SEE AVRAMI
EQUATION REACTIVE SYNTHESIS REARRANGEMENT KINETICS IN LIQUID-PHASE
SINTERING RECALESCENCE TEMPERATURE REDUCTION IN AREA REDUCTION OF
OXIDES-SEE OXIDE REDUCTION REDUCTION RATIO IN EXTRUSION-SEE EXTRUSION
CONSTANT REYNOLDS NUMBER IN POROUS FLOW RHEOLOGICAL MODEL FOR
LIQUID-PHASE SINTERING RHEOLOGICAL RESPONSE-SEE COMPLEX VISCOSITY
ROCKWELL HARDNESS ROSIN - RAMMLER DISTRIBUTION S SADDLE-SURFACE
STRESS-SEE NECK-CURVATURE STRESS SCHERRER FORRNULA SCREEN SIZES-SEE
SIEVE PROGRESSION SECONDARY DENDRITE-ARRN SPACING SECONDARY
RECRYSTALLIZATION-SEE ABNORMAL GRAIN GROWTH SECOND-STAGE LIQUID-PHASE
SINTERING MODEL-SEE LNTERMEDIATE-STAGE LIQUID-PHASE SINTERING MODEL
SECOND-STAGE SINTERING DENSIFICATION-SEE LNTERMEDIATE-STAGE
SINTERING-DENSITY MODEL SECOND-STAGE SINTERING PORE ELIMINATION-SEE
LNTERMEDIATE-STAGE PORE ELIMINATION SECOND-STAGE SINTERING SURFACE-AREA
REDUCTION-SEE LNTERMEDIATE-STAGE SURFACE-AREA REDUCTION SEDIMENTATION
PARTICLE-SIZE ANALYSIS-SEE STOKES LAW PARTICLE-SIZE ANALYSIS
SEGREGATION COEFFICIENT 285 285 285 286 287 288 289 289 289 290 291 291
292 292 292 293 294 294 296 297 297 297 298 298 298 298 298 298 299 299
299 CONTENTS XXV SEGREGATION OF MIXED POWDERS-SEE MIXED-POWDER
SEGREGATION 299* SEGREGATION TO GRAIN BOUNDARIES DURING SINTERING 299*
SE1F-PROPAGATING HIGH-TEMPERATURE SYNTHESIS 300* SEMISOLID-SYSTEM
VISCOSITY-SEE VISCOSITY OF SEMISOLID SYSTEMS 301* SHAPIRO EQUATION 301*
SHEAR MODULUS 301* SHEAR-RATE EFFECT ON VISCOSITY-SEE CROSS MODEL 302*
SHRINKAGE 302* SHRINKAGE FACTOR IN INJECTION-MOLDING TOOL DESIGN 302*
SHRINKAGE-INDUCED DENSIFICATION 303* SHRINKAGE IN INTERMEDIATE-STAGE
LIQUID-PHASE SINTERING-SEE* SOLUTION-REPRECIPITATION-INDUCED SHRINKAGE
IN LIQUID-PHASE SINTERING 303* SHRINKAGE IN SINTERING-SEE SINTERING
SHRINKAGE (GENERIC FORM) 304* SHRINKAGE RATE FOR SUPERSOLIDUS
LIQUID-PHASE SINTERING-SEE* SUPERSOLIDUS LIQUID-PHASE SINTERING
SHRINKAGE RATE 304* SHRINKAGE RELATION TO NECK SIZE 304* SIEVE
PROGRESSION 304* SINTERED DUCTILITY 305* SINTERED STRENGTH 305*
SINTERING ATMOSPHERE-FLUX EQUATION-SEE VACUUM FLUX IN SINTERING 306*
SINTERING GRAIN SIZE-SEE MAXIMUM GRAIN SIZE IN SINTERING 306* SINTERING
METRICS 306* SINTERING SHRINKAGE (GENERIC FORM) 307* SINTERING SHRINKAGE
FOR MIXED POWDERS-SEE MIXED-POWDER* SINTERING SHRINKAGE 308* SINTERING
SHRINKAGE IN SUPERSOLIDUS LIQUID-PHASE SINTERING-SEE SUPERSOLIDUS
LIQUID-PHASE SINTERING SHRINKAGE RATE 308* SINTERING STRESS, BULK 308*
SINTERING STRESS IN FINAL-STAGE SINTERING FOR SMALL GRAINS AND FACETED
PORES 309* SINTERING STRESS IN FINAL-STAGE SINTERING FOR SMALL GRAINS*
AND ROUNDED PORES 309* SINTERING STRESS IN FINAL-STAGE SINTERING FOR
SPHERICAL PORES INSIDE GRAINS 310* SINTERING STRESS IN INITIAL-STAGE
LIQUID-PHASE SINTERING 311* SINTERING STRESS IN INITIAL-STAGE
SOLID-STATE SINTERING 311* SINTERING SWELLING WITH MIXED POWDERS-SEE
SWELLING REACTIONS* DU RING MIXED-POWDER SINTERING. 311* SINTERING
VISCOUS FLOW-SEE VISCOSITY DU RING SINTERING 312* XXVI CONTENTS SIZE
DISTRIBUTION-SEE ANDREASEN SIZE DISTRIBUTION, GAUDIN-SCHUHMAN
DISTRIBUTION, GAUSSIAN DISTRIBUTION, LOG-NORMAL DISTRIBUTION, AND
ROSIN-RAMMLER DISTRIBUTION SLENDEMESS SLIP CHARACTERIZATION OF
POWDER-BINDER MIXTURES SLIP FLOW IN PORES SLOPE OF THE LOG-NONNAL
DISTRIBUTION-SEE LOG-NORMAL SLOPE PARAMETER SMALL PARTICLE-INDUCED X-RAY
LINE BROADENING-SEE SCHERRER FORMULA SOLIDIFICATIUN TIME SOLIDS LOADING
SOLUBILITY DEPENDENCE ON PARTICLE SIZE SOLUBILITY RATIO
SOLUTION-REPRECIPITATION-CONTROLLED LIQUID-PHASE SINTERING-SEE
DISSOLUTION-INDUCED DENSIJICATION SOLUTION-REPRECIPITATION-INDUCED
SHRINKAGE IN LIQUID-PHASE SINTERING SOLVENT DEBINDING TIME SOUND
VELOCITY-SEE ULTRASONIC VELOCITY SPARK SINTERING-SEE FIELD-ACTIVATED
SINTERING SPECIFIC SURFACE AREA SPHERICAL PORE PRESSURE SPHERICITY
SPHEROIDIZATIUN OF NANOSCALE PARTICLES-SEE NANOSCALE
PARTICLE-AGGLOMERATE SPHEROIDIZATION SPHEROIDIZATION TIME SPOUTING
VELUCITY SPRAY DEPOSITION SPRAY FORMING-SEE SPRAY DEPOSITION SPREADING
STANDARD DEVIATION STIFFNESS-SEE ELASTIC-MODULUS VARIATION WITH DENSITY
STOKES - EINSTEIN EQUATION STOKES LAW STOKES LAW PARTICLE-SIZE
ANALYSIS STOKES PARTICLE DIAMETER STRAIN HARDENING STRAIN RATE IN
INJECTION MOLDING-SEE GATE STRAIN RATE IN LNJECTION MOLDING 312 312 312
315 315 316 316 316 317 318 318 318 320 320 320 321 321 322 322 322 323
324 325 325 326 326 326 327 328 329 329 331 CONFENTS XXVII STRENGTH-SEE
SINTERED STRENGTH 331* STRENGTH DISTRIBUTION-SEE WEIBULL DISTRIBUTION
331* STRENGTH EVOLUTION IN SINTERING-SEE IN SITU SINTERING STRENGTH 331*
STRENGTH-EVOLUTION MODEL 331* STRENGTH OF PRESSED POWDER-SEE GREEN
STRENGTH 333* STRESS CONCENTRATION AT A PORE 333* STRESS IN LIQUID-PHASE
SINTERING-SEE SINTERING STRESS IN INITIAL-STAGE* LIQUID-PHASE SINTERING
334* STRIPPING STRESS-SEE MAXIMUM EJECTION STRESS 334* SUBSIEVE PARTICLE
SIZE-SEE KOZENY-CARMAN EQUATION 334* SUPERPLASTIC FORMING 334*
SUPERSOLIDUS LIQUID-PHASE SINTERING LIQUID DISTRIBUTION-SEE LIQUID
DISTRIBUTION IN SUPERSOLIDUS LIQUID-PHASE SINTERING 335* SUPERSOLIDUS
LIQUID-PHASE SINTERING SHRINKAGE RATE 335* SURFACE AREA-BASED PARTIC1E
SIZE-SEE EQUIVALENT* SPHERICAL DIAMETER 337* SURFACE AREA BY GAS
ABSORPTION-SEE SPECIJIC SWFACE AREA 337* SURFACE AREA BY QUANTITATIVE
MICROSCOPY 337* SURFACE-AREA REDUCTION DURING LIQUID-PHASE SINTERING
337* SURFACE-AREA FOR BROAD PARTICLE-SIZE DISTRIBUTIONS 338*
SURFACE-AREA REDUCTION KINETICS 338* SURFACE CARBURIZE-SEE CASE
CARBURIZE 339* SURFACE CURVATURE-DRIVEN MASS FLOW IN SINTERING 339*
SURFACE DIFFUSION-CONTROLLED NECK GROWTH 341* SURFACE-ENERGY VARIATION
WITH DROPLET SIZE 342* SURFACE-TRANSPORT SINTERING-SEE SWFACE
AREA-REDUCTION KINETICS 343* SURATMAN NUMBER 343* SUSPENSION VISCOSITY
343* SWELLING-SEE SHRINKAGE AND SHRINKAGE-INDUCED DENSIJICATION 344*
SWELLING REACTIONS DURING MIXED-POWDER SINTERING 344* T 347* TAP
DENSITY-SEE VIBRATION-INDUCED PARTICLE PACKING 347* TEMPERATURE
ADJUSTMENTS FOR EQUIVALENT SINTERING 347* TEMPERATURE DEPENDENCE-SEE
ARRHENIUS RELATION 348* TERMINAL DENSITY-SEE FINAL-STAGE SINTERING
LIMITED DENSITY 348* TERMINAL NECK SIZE-SEE NECK GROWTH LIMITED BY GRAIN
GROWTH 348* TERMINAL NECK SIZE IN SINTERING-SEE LIMITING NECK SIZE 348*
TERMINAL PORE SIZE-SEE FINAL-STAGE PORE SIZE 348* XXVIII CONTENTS
TERMINAL SETTLING VELOCITY-SEE STOKES LAW TERMINAL SINTERING-SEE
TRAPPED-GAS PORE STABILIZATION TERMINAL VE1OCITY-SEE ACCELERATION OF
FREE-SETTLING PARTICLES TETRAKAIDECAHEDRON THEORETICAL DENSITY FOR MIXED
POWDERS-SEE MIXTURE THEORETICAL DENSITY THERMAL CONDUCTION-SEE
CONDUCTIVE HEAT FLOW THERMAL CONDUCTIVITY THERMAL CONDUCTIVITY
DEPENDENCE ON POROSITY THERMAL CONDUCTIVITY FROM ELECTRICAL CONDUCTIVITY
THERMAL CONVECTION-SEE CONVECTIVE HEAT TRANSFER THERMAL DEBINDING-SEE
POLYMER PYROLYSIS AND VACUUM THERMAL DEBINDING THERMAL DEBINDING MASTER
CURVE-SEE MASTER DECOMPOSITION CURVE THERMAL DEBINDING TIME THERMAL
DIFFUSIVITY-SEE THERMAL CONDUCTIVITY THERMAL EXPANSION COEFFICIENT
THERMALLY ACTIVATED-SEE ARRHENIUS RELATION THERMAL SHOCK RESISTANCE
THETA TEST THIRD-STAGE SINTERING DENSIFICATION-SEE FINAL-STAGE
DENSIFICATION THIRD-STAGE SINTERING STRESS-SEE FINAL-STAGE SINTERING
STRESS, SINTERING STRESS IN FINAL-STAGE SINTERING FOR SMALL GRAINS AND
FACETED PORES, SINTERING STRESS IN FINAL-STAGE SILUERING FOR SMALL
GRAINS AND ROUNDED PORES, AND SINTERING STRESS IN FINAL-STAGE SINTERING
FOR SPHERICAL PORES INSIDE GRAINS THREE-POINT BENDING STRENGTH-SEE
TRANSVERSE-RUPTURE STRENGTH THREE-POINT BENDING TEST-SEE BENDING TEST
TIME FAR THERMAL DEBINDING-SEE THERMAL DEBINDING TIME TIME TO SOLIDIFY
IN ATOMIZATION-SEE SOLIDIFICATION TIME TIME TO SPHEROIDIZE IN
ATOMIZATION-SEE SPHEROIDIZATION TIME TOOL EXPANSION FACTOR
TORTUOSITY-SEE DARCY S LAW TRANSFORMATION KINETICS-SEE AVRAMI EQUATION
TRANSIENT LIQUID-PHASE SINTERING TRANSVERSE-RUPTURE STRENGTH TRAPPED-GAS
PORE STABILIZATION TRUNCATED OCTAHEDRON-SEE TETRAKAIDECAHEDRON 348 348
348 348 350 350 350 350 351 351 351 352 352 352 352 353 353 353 354 355
355 355 355 355 355 355 356 356 356 357 359 360 CONTENTS XXIX
TWO-DIMENSIONAL GRAIN CONTACTS-SEE CONNECTIVITY 360* TWO-PARTICLE
SINTERING MODEL-SEE KUCZYNSKI* NECK-GROWTH MODEL 360* TWO-PARTICLE
VISCOUS-FLOW SINTERING 360* U 363* ULTRASONIC VELOCITY 363* V 365*
VACANCY CONCENTRATION DEPENDENCE ON SURFACE CURVATURE 365* VACANCY
DIFFUSION 366* VACUUM DEBINDING-SEE VACUUM THERMAL DEBINDING 367* VACUUM
DISTILLATION RATE 367* VACUUM FLUX IN SINTERING 368* VACUUM THERMAL
DEBINDING 368* VAPOR MEAN FREE PATH 369* VAPOR PRESSURE 371*
VIBRATION-INDUCED PARTICLE PACKING 372* VICKERS HARDNESS NUMBER 372*
VISCOELASTIC MODEL FOR POWDER-POLYMER MIXTURES 373* VISCOELASTIC
RESPONSE 374* VISCOSITY 376* VISCOSITY DEPENDENCE ON SHEAR RATE-SEE
CROSS MODEL 377* VISCOSITY DURING SINTERING 377* VISCOSITY MODEL FOR
INJECTION-MOLDING FEEDSTOCK 379* VISCOSITY OF SEMISOLID SYSTEMS 380*
VISCOSITY OF SUSPENSION-SEE SUSPENSION VISCOSITY 381* VISCOSITY
VARIATION WITH HYDROSTATIC PRESSURE-SEE PRESSURE* EFFECT ON FEEDSTOCK
VISCOSITY 381* VISCOUS FLOW IN PRESSURE-ASSISTED SINTERING 382* VISCOUS
FLOW OF A LIQUID DROPLET 382* VISCOUS FLOW SINTERING 384* VISCOUS FLOW
SINTERING OF GLASS 385* VISCOUS-PHASE SINTERING-SEE VISCOSITY 0/*
SEMISOLID SYSTEMS 386* VISCOUS SETTLING-SEE STOKES LAW 386* VISCOUS
SINTERING, VISCOUS-PHASE SINTERING-SEE TWO-PARTICLE* VISCOUS-FLOW
SINTERING 386* VOIGT MODEL-SEE VISCOELASTIC MODEL/AR POWDER-POLYMER
MIXTURES 386* XXX CONTENTS VOLUME-BASED PARTICLE SIZE-SEE EQUIVALENT
SPHERICAL DIAMETER VOLUME DIFFUSION-SEE VACANCY DIFFUSION VOLUME
DIFFUSION-CONTROLLED CREEP DENSIFICATION-SEE NABARRO-HERRING
CREEP-CONTROLLED PRESSURE-ASSISTED DENSIFICATION W WASHBUM EQUATION
WATER-ATOMIZATION PARTICLE SIZE WATER IMMERSION DENSITY-SEE ARCHIMEDES
DENSITY WEBER NUMBER WEIBULL DISTRIBUTION WETTING ANGLE WICKING WORK
HARDENING-SEE STRAIN HARDENING WORK OF SINTERING-SEE MASTER SINTERING
CURVE X X-RAY LINE BROADENING-SEE SCHERRER FORMULA Y YIELD STRENGTH IN
VISCOUS FLOW-SEE BINGHAM VISCOUS-FLOW MODEL YIELD STRENGTH OF
PARTICLE-POLYMER FEEDSTOCK YOUNG S EQUATION-SEE CONTACT ANGLE AND
WETTING ANGLE YOUNG S MODULUS-SEE ELASTIC MODULUS Z ZENER RELATION ZETA
POTENTIAL APPENDIX REFERENCES 387 387 387 389 389 389 390 390 390 392
393 393 393 395 395 397 397 397 398 398 399 399 401 403 409
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MATHEMATICAL RELATIONS IN PARTICULATE MATERIALS PROCESSING CERAMIES,
POWDER METALS, CERMETS, CARBIDES, HARD MATERIALS, AND MINERALS RANDALL
M. GERMAN SEONG JIN PARK ~ * WILEY A JOHN WILEY & SONS, INC.,
PUBLICATION CONTENTS FOREWORD ABOUT THE AUTHORS A ABNORMAL GRAIN GROWTH
ABRASIVE WEAR-SEE FRICTION AND WEAR TESTING ACCELERATION OF
FREE-SETTLING PARTICLES ACTIVATED SINTERING, EARLY-STAGE SHRINKAGE
ACTIVATION ENERGY-SEE ARRHENIUS RELATION ADSORPTION-SEE BET SPECIFIC
SUIFACE AREA AGGLOMERATE STRENGTH AGGLOMERATION FORCE AGGLOMERATION OF
NANOSCALE PARTICLES-SEE NANOPARTICLE AGGLOMERATION ANDREASEN SIZE
DISTRIBUTION APPARENT DIFFUSIVITY ARCHARD EQUATION ARCHIMEDES DENSITY
ARRHENIUS RELATION ATMOSPHERE MOISTURE CONTENT-SEE DEW POINT
ATMOSPHERE-STABILIZED POROSITY-SEE GAS-GENERATED FINAL PORES ATOMIC FLUX
IN VACUUM SINTERING ATOMIC-SIZE RATIO IN AMORPHOUS METALS ATOMIZATION
SPHEROIDIZATION TIME-SEE SPHEROIDIZATION TIME ATOMIZATION TIME-SEE
SOLIDIFICATION TIME AVERAGE COMPACTION PRESSURE-SEE MEAN COMPACTION
PRESSURE AVERAGE PARTICLE SIZE-SEE MEAN PARTICLE SIZE AVRAMI EQUATION
XXXI* XXXIII* 1* I* 3* 3* 4* 5* 5* 5* 6* 6* 6* 7* 7* 8* 9* 10* 10* 10*
10* II* II* II* II* II* VII* VIII CONTENTS B BA]] MILLING-SEE LAI'
MILLING BEARING STRENGTH BELL CURVE-SEE GAUSSIAN DISTRIBUTION
BENDING-BEAM VISCOSITY BENDING TEST BET EQUIVALENT SPHERICAL-PARTICLE
DIAMETER BET SPECIFIC SURFACE AREA BIMODAL POWDER PACKING BIMODAL POWDER
SINTERING BINDER BURNOUT-SEE POLYMER PYROLYSIS BINDER (MIXED POLYMER)
VISCOSITY BINGHAM MODEL-SEE VISCOSITY MODELFOR INJECTION-MOLDING
FEEDSTOCK BINGHAM VISCOUS-FLOW MODEL BOLTZMANN STATISTICS-SEE ARRHENIUS
RELATION BOND NUMBER BRAGG'S LAW BRAZILIAN TEST BREAKAGE MODEL BRINELL
HARDNESS BRITTLE MATERIAL STRENGTH DISTRIBUTION-SEE WEIBULL DISTRIBUTION
BROADENING BROWNIAN MOTION BUBBLE POINT-SEE WASHBURN EQUATION BULK
TRANSPORT SINTERING-SEE SINTERING SHRINKAGE AND SURFACE-AREA REDUCTION
KINETICS C CANTILEVER-BEAM TEST-SEE BENDING-BEAM VISCOSITY CAPILLARITY
CAPILLARITY-INDUCED SINTERING-SEE SURFACE CURVATURE-DRIVEN MASS FLOW IN
SINTERING CAPILLARY PRESSURE DURING LIQUID-PHASE SINTERING-SEE MEAN
CAPILLARY PRESSURE CAPILLARY RISE-SEE WASHBURN EQUATION CAPILLARY
STRESS-SEE LAPLACE EQUATION CASE CARBURIZATION CASSON MODEL 13* 13 13 13
14 16 18 18 20 21 22 23 23 23 24 24 24 25 26 27 28 28 29 30 30 31 31 31
32 32 32 32 32 32 X CONTENTS CONSTITUTIVE EQUATIONS FOR SINTERING-SEE
MACROSCOPIC SINTERING MODE CONSTITUTIVE EQUATIONS CONSTRUCTIVE
REINFORCEMENT IN X-RAY DIFFRACTION-SEE BRAGG'S LAW CONTACT ANGLE CONTACT
PRESSURE-SEE EFFECTIVE PRESSURE CONTACT SIZE AS A FUNCTION OF DENSITY
CONTACTS PER PARTIC1E-SEE COORDINATION NUMBER AND DENSITY CONTAINER-SIZE
EFFECT ON RANDOM-PACKING DENSITY CONTIGUITY CONTINUUM THEORY OF
SINTERING CONTINUUM THEORY FOR FIE1D-ACTIVATED SINTERING CONVECTIVE HEAT
TRANSFER COOLING RATE IN ATOMIZATION-SEE NEWTONIAN COOLING
APPROXIMATION, GAS ATOMIZATION COOLING RATE, AND SECONDARY DENDRITE ARM
SPACING COOLING RATE IN MO1DING COO1ING TIME IN MOLDING COORDINATION
NUMBER AND DENSITY COORDINATION NUMBER AND GRAIN SIZE-SEE GRAIN-SIZE
AFFECT ON COORDINATION NUMBER COORDINATION NUMBER FOR ORDERED PACKINGS
COORDINATION NUMBER FROM CONNECTIVITY COORDINATION NUMBER IN
LIQUID-PHASE SINTERING COSTING AND PRICE ESTIMATION COU1OMB'S LAW FOR
P1ASTIC YIE1DING COURTNEY MODEL FOR EARLY-STAGE NECK GROWTH IN
LIQUID-PHASE SINTERING CREEP-CONTROLLED DENSIFICATION CRITICA1 SOLIDS
LOADING-SEE SOLIDS LOADING CROSS MODEL CURVED-SURFACE STRESS-SEE NECK
CURVATURE STRESS CYCLONE SEPARATION OF POWDER CY1INDRICAL CRUSH
STRENGTH-SEE BEARING STRENGTH D DARCY'S LAW DEBINDING-SEE POLYMER
PYROLYSIS, SOLVENT DEBINDING TIME, THERMAL DEBINDING TIME, VACUUM
THERMAL DEBINDING TIME, AND WICKING DEBINDING MASTER CURVE-SEE MASTER
DECOMPOSITION CURVE DEBINDING TEMPERATURE 49 49 50 50 51 51 52 52 53 54
55 56 56 56 57 58 58 59 59 60 62 63 63 64 64 65 65 66 67 67 68 68 68 XII
CONTENTS DISPERSION FORCE-SEE LONDON DISPERSION FORCE 85 DISSOLUTION
INDUCED DENSIFICATION 85 DOM TECHNIQUE 86 DRAINAGE-SEE WICKING 87
DROPLET COOLING IN ATOMIZATION-SEE NEWTONIAN COOLING APPROXIMATION 87
DUCTILITY VARIATION WITH DENSITY-SEE SINTERED DUCTILITY 87 E EFFECTIVE
PRESSURE 89 EJECTION STRESS-SEE MAXIMUM EJECTION STRESS 89 ELASTIC
BEHAVIOR-SEE HOOKE'S LAW 89 ELASTIC-DEFONNATION NECK-SIZE RATIO 90
ELASTIC-MODULUS VARIATION WITH DENSITY 91 ELASTIC-PROPERTY VARIATION
WITH POROSITY 91 ELECTRICAL-CONDUCTIVITY VARIATION WITH POROSITY 92
ELECTROMIGRATION CONTRIBUTIONS TO SPARK SINTERING 93 ELONGATION 94
ELONGATION VARIATION WITH DENSITY-SEE SINTERED DUCTILITY 95
ENERGY-GOVEMING EQUATION FOR POWDER INJECTION MOLDING 9S ENERGY IN A
PARTICLE 95 ENHANCED SINTERING-SEE ACTIVATED SINTERING, EARLY-STAGE
SHRINKAGE 96 EQUILIBRIUM CONSTANT 96 EQUIVALENT PARTICLE SIZE BASED ON
AREA-SEE BET EQUIVALENT-SPHERICAL-PARTICLE DIAMETER 97 EQUIVALENT
SINTERING-SEE TEMPERATURE ADJUSTMENTS FOR EQUIVALENT SINTERING 97
EQUIVALENT SPHERICAL DIAMETER 97 ERROR FUNCTION FOR CUMULATIVE
LOG-NONNAL DISTRIBUTION 98 EULER RELATION 99 EVAPORATION 99 EVAPORATION
-CONDENSATION-SEE INITIAL-STAGE NECK GROWTH 100 EXAGGERATED GRAIN
GROWTH-SEE ABNORMAL GRAIN GROWTH 100 EXOTHENNIC SYNTHESIS-SEE
SELF-PROPAGATING HIGH-TEMPERATURE SYNTHESIS 100 EXPANSION FACTOR FOR
TOOLING-SEE TOOL EXPANSION FACTOR 100 EXPERIMENTAL SCATTER-SEE GAUSSIAN
DISTRIBUTION 100 EXPONENTIAL DISTRIBUTION FUNCTION 100 EXTRUSION
CONSTANT 101 CONTENTS XIII F 103 FEEDSTOCK FONNULATION 103 FEEDSTOCK
VISCOSITY-SEE SUSPENSION VISCOSITY AND VISCOSITY MODEL FOR
INJECTION-MOLDING FEEDSTOCK 103 FEEDSTOCK VISCOSITY AS A FUNCTION OF
SHEAR RATE-SEE CROSS MODEL 103 FEEDSTOCK YIELD STRENGTH-SEE YIELD
STRENGTH OF PARTICLE-POLYMER FEEDSTOCK 104 FIBER-FRACTURE FROM BUCKLING
104 FIBER-FRACTURE PROBABILITY 104 FIBER PACKING DENSITY 105 FICK' S
FIRST LAW 106 FICK' S SECOND LAW 106 FIELD-ACTIVATED SINTERING 107
FILTRATION RATING 109 FINAL-STAGE DENSIFICATION 109 FINAL-STAGE
LIQUID-PHASE SINTERING DENSIFICATION 110 FIRST-STAGE NECK GROWTH IN
SINTERING-SEE INITIAL-STAGE NECK GROWTH 112 FINAL-STAGE PORE SIZE 112
FINAL-STAGE PRESSURE-ASSISTED DENSIFICATION 112 FINAL-STAGE
PRESSURE-ASSISTED VISCOUS FLOW 113 FINAL-STAGE SINTERING BY VISCOUS FLOW
114 FINAL-STAGE SINTERING GRAIN GROWTH AND PORE DRAG 114 FINAL-STAGE
SINTERING LIMITED DENSITY 115 FINAL-STAGE SINTERING PINNED GRAINS-SEE
ZENER RELATION 117 FINAL-STAGE SINTERING STRESS 117 FIRST-STAGE
SHRINKAGE IN SINTERING-SEE INITIAL-STAGE SHRINKAGE IN SINTERING 117
FIRST-STAGE SINTERING SURFACE-AREA REDUCTION-SEE SURFACE-AREA REDUCTION
KINETICS 118 FISHER SUBSIEVE PARTICLE SIZE 118 FLATNESS-SEE
PARTICLE-SHAPE INDEX 119 FLAW EFFECT ON GREEN STRENGTH-SEE GREEN
STRENGTH VARIATION WITH FLAWS 119 FLOW GOVEMING EQUATION DURING POWDER
INJECTION MOLDING 119 FLUIDIZED-BED PROCESSING 121 FORCE DISTRIBUTION IN
RANDOMLY PACKED POWDER 122 FOUR-POINT BENDING STRENGTH-SEE
TRANSVERSE-RUPTURE STRENGTH 122 FRACTIONAL COVERAGE OF GRAIN BOUNDARIES
IN SUPERSOLIDUS SINTERING 122 FRACTIONAL DENSITY 123 XIV CONTENTS
FRAGMENTATION BY LIQUID FRAGMENTATION MODEL-SEE BREAKAGE MODEL FREEFORM
SPRAYING-SEE SPRAY DEPOSITION FRENKE1 MODEL-SEE TWO-PARTICLE VISCOUS
FLOW SINTERING FRICTION AND WEAR TESTING FUNICULAR-STATE TENSILE
STRENGTH G GAS-ABSORPTION SURFACE AREA-SEE BET SPECIFIC SURFACE AREA
GAS-ATOMIZATION COOLING RATE GAS-ATOMIZATION MELT FLOW RATE
GAS-ATOMIZATION PARTICLE SIZE GAS-GENERATED FINAL PORES GAS
PERMEABILITY-SEE KOZENY-CARMAN EQUATION GATE STRAIN RATE IN INJECTION
MOLDING GAUDIN-SCHUHMANN DISTRIBUTION GAUSSIAN DISTRIBUTION
GEL-DENSIFICATION MODEL GESSINGER MODEL FOR INTERMEDIATE-STAGE
LIQUID-PHASE SINTERING GLASS VISCOSITY TEST-SEE BENDING-BEAM VISCOSITY
GRAIN ACCOMMODATION-SEE GRAIN-SHAPE ACCOMMODATION GRAIN BONDING-SEE
CONTIGUITY GRAIN BOUNDARY-CONTROLLED CREEP-SEE COBLE CREEP
GRAIN-BOUNDARY ENERGY AND MISORIENTATION ANGLE GRAIN-BOUNDARY FRACTION
GRAIN-BOUNDARY GROOVE-SEE DIHEDRAL ANGLE GRAIN-BOUNDARY
MISORIENTATION-SEE GRAIN-BOUNDARY ENERGY AND MISORIENTATION ANGLE
GRAIN-BOUNDARY PENETRATION-SEE FRAGMENTATION BY LIQUID GRAIN-BOUNDARY
PINNING-SEE ZENER RELATION GRAIN-BOUNDARY WETTING GRAIN COORDINATION
NUMBER IN LIQUID-PHASE SINTERING-SEE COORDINATION NUMBER IN LIQUID-PHASE
SINTERING GRAIN DIAMETER BASED ON AN EQUIVALENT CIRCLE GRAIN GROWTH
GRAIN GROWTH IN LIQUID-PHASE SINTERING, DIFFUSION CONTROL AT HIGH SOLID
CONTENTS GRAIN GROWTH IN LIQUID-PHASE SINTERING, DILUTE SOLIDS CONTENTS
GRAIN GROWTH IN LIQUID-PHASE SINTERING, INTERFACIAL REACTION CONTROL 123
124 124 124 124 125 127* 127 127 128 129 130 131 131 132 133 134 136 137
137 137 137 137 137 138 138 138 138 138 140 140 140 141 143 144
GRAIN-GROWTH MASTER CURVE GRAIN-GROWTH MASTER CURVE, INTERFACIAL
REACTION CONTROL GRAIN NUMBER CHANGES IN LIQUID-PHASE SINTERING GRAIN
PINNING BY PORES IN FINAL-STAGE SINTERING GRAIN SEPARATION DISTANCE IN
LIQUID-PHASE SINTERING GRAIN SEPARATION IN CEMENTED CARBIDES-SEE MEAN
FREE PATH. CARBIDE MICROSTRUCTURE GRAIN-SHAPE ACCOMMODATION GRAIN SIZE
GRAIN-SIZE AFFECT ON COORDINATION NUMBER GRAIN-SIZE DISTRIBUTION FOR
LIQUID-PHASE SINTERED MATERIALS GRAIN-SIZE DISTRIBUTION FOR SOLID-STATE
SINTERED MATERIALS GRAIN-SIZE EFFECT ON STRENGTH-SEE HALL-PETCH RELATION
GRAIN SIZE TO PORE SIZE IN FINAL-STAGE LIQUID-PHASE SINTERING
GRANULATION FORCE-SEE AGGLOMERATE FORCE GRANULE STRENGTH-SEE AGGLOMERATE
STRENGTH GREEN DENSITY DEPENDENCE ON COMPACTION PRESSURE GREEN DENSITY
DEPENDENCE ON PUNCH TRAVEL GREEN DENSITY FROM REPEATED PRESSING GREEN
STRENGTH GREEN STRENGTH DISTRIBUTION-SEE WEIBULL DISTRIBUTION GREEN
STRENGTH VARIATION WITH FLAWS GRINDING TIME GROWTH-SEE SINTERING
SHRINKAGE H HALL-PETCH RELATION HARDENABILITY FACTOR HARDNESS HARDNESS
VARIATION WITH GRAIN SIZE IN CEMENTED CARBIDES HEATING-RATE EFFECT IN
TRANSIENT LIQUID-PHASE SINTERING HEAT TRANSFER IN SINTERED MATERIALS
HEAT-TRANSFER RATE IN MOLDING-SEE COOLING RATE IN MOLDING HERRING
SCALING LAW HERTZIAN STRESS-SEE ELASTIC DEFORMATION NECK-SIZE RATIO
HETERODIFFUSION-SEE MIXED-POWDER SINTERING SHRINKAGE HETEROGENEOUS
NUCLEATION CONTENTS XV 145* 147* 149* 149* 150* 151* 151* 152* 152* 153*
154* 155* 155* 155* 156* 156* 157* 157* 158* 158* 158* 159* 159* 161*
161* 161* 162* 163* 164* 164* 165* 165* 166* 166* 167* XVI CONTENTS HIGH
SOLID-CONTENT GRAIN GROWTH-SEE GRAIN GROWTH IN LIQUID-PHASE SINTERING,
DIFFUSION CONTROL AT HIGH SOLID CONTENTS 167 HOMOGENEITY-SEE SEGREGATION
COEFFICIENT 167 HOMOGENEITY OF A MICROSTRUCTURE 168 HOMOGENEITY OF MIXED
POWDERS-SEE MIXTURE HOMOGENIZATION RATE 168 HOMOGENEOUS NUCLEATION 168
HOMOGENIZATION IN SINTERING 169 HOMOGENIZATION RATE IN POWDER MIXING-SEE
MIXTURE HOMOGENIZATION RATE 170 HOOKE'S LAW 170 HOT PRESSING IN THE
PRESENCE OF A LIQUID PHASE-SEE PRESSURE-ASSISTED LIQUID-PHASE SINTERING
170 I 171 IMPREGNATION-SEE INFILTRATION PRESSURE 171 INERTIAL-FLOW
EQUATION 171 INFILTRATION DEPTH 172 INFILTRATION PRESSURE 172
INFILTRATION RATE 173 INHIBITED GRAIN GROWTH-SEE ZENER RELATION 173
INITIAL-STAGE LIQUID-PHASE SINTERING STRESS-SEE SINTERING STRESS IN
INITIAL-STAGE LIQUID-PHASE SINTERING. 173 INITIAL-STAGE NECK GROWTH 174
INITIAL-STAGE SINTERING-SEE SURFACE DIFFUSION - CONTROLLED NECK GROWTH
176 INITIAL-STAGE SINTERING MODEL-SEE KUCZYNSKI NECK-GROWTH MODEL 176
INITIAL-STAGE SINTERING STRESS-SEE SINTERING STRESS IN INITIAL-STAGE
SOLID-STATE SINTERING 176 INITIAL-STAGE SINTERING SURFACE-AREA
REDUCTION-SEE SURFACE-AREA REDUCTION KINETICS 176 INITIAL-STAGE
SHRINKAGE IN SINTERING 176 INJECTION-MOLDING VISCOSITY-SEE VISCOSITY
MODEL FOR INJECTION-MOLDING FEEDSTOCK 177 IN SITU SINTERING STRENGTH 177
INTEGRAL WORK OF SINTERING-SEE MASTER SINTERING CURVE 178
INTERDIFFUSION-SEE MIXED-POWDER SINTERING SHRINKAGE 178
INTERFACE-CONTROLLED GRAIN GROWTH 178 INTERMEDIATE-STAGE LIQUID-PHASE
SINTERING MODEL 179 CONTENTS XVII INTERMEDIATE-STAGE LIQUID-PHASE
SINTERING SHRINKAGE-SEE SOLUTION-REPRECIPITATION-INDUCED SHRINKAGE IN
LIQUID-PHASE SINTERING 180 INTERMEDIATE-STAGE PORE ELIMINATION 180
INTERMEDIATE-STAGE SINTERING-DENSITY MODEL 182 INTERMEDIATE-STAGE
SURFACE-AREA REDUCTION 183 INTERRUPTED HEATING-RATE TECHNIQUE-SEE DORN
TECHNIQUE 183 INVERSE RULE OF MIXTURES-SEE COMPOSITE DENSITY AND MIXTURE
THEORETICAL DENSITY 183 J 185 JAR MILLING 185 JET MIXING TIME* 186 K 187
KAWAKITA EQUATION* 187 KELVIN EQUATION* 188 KELVIN MODEL-SEE
VISCOELASTIC MODEL FOR POWDER- POLYMER MATURES 189 K-FACTOR* 189 KINGERY
INTERMEDIATE-STAGE LIQUID-PHASE SINTERING MODEL-SEE INTERMEDIATE-STAGE
LIQUID-PHASE SINTERING MODEL 189 KINGERY MODEL FOR PRESSURE-ASSISTED
LIQUID-PHASE SINTERING-SEE PRESSURE-ASSISTED LIQUID-PHASE SINTERING* 190
KINGERY REARRANGEMENT SHRINKAGE KINETICS-SEE REARRANGEMENT KINETICS IN
INITIAL-STAGE LIQUID-PHASE SINTERING 190 KISSINGER METHOD* 190 KNOOP
HARDNESS 191 KNUDSEN DIFFUSION-SEE VAPOR MEAN FREE PATH 192
KOZENY-CARMAN EQUATION 192 KUCZYNSKI NECK-GROWTH MODEL 192 L 195 LAMINAR
FLOW SETTLING-SEE STOKES' LAW 195 LAPLACE EQUATION* 195 LAP1ACE
NUMBER-SEE SURATMAN NUMBER* 196 LASER SINTERING* 196 LATTICE
DIFFUSION-SEE VACANCY DIFFUSION* 196 LIFSCHWIZ, SLYOZOV, WAGNER MODEL*
196 LIGAMENT PINCHING-SEE RALEIGH INSTABILITY 197 LIMITING NECK SIZE 197
XVIII CONTENTS LIMITING SIZE FOR SEDIMENTATION ANALYSIS LIQUID AND SOLID
COMPOSITIONS IN PREALLOY PARTICLE MELTING LIQUID DISTRIBUTION IN
SUPERSOLIDUS LIQUID-PHASE SINTERING LIQUID-DROPLET COALESCENCE TIME
LIQUID-DROPLET VISCOUS FLOW-SEE VISEOUS FLOW OF A LIQUID DROPLET LIQUID
EMBRITTLEMENT-SEE FRAGMENTATION BY LIQUID LIQUID PENETRATION OF GRAIN
BOUNDARIES-SEE MELT PENETRATION OF GRAIN BOUNDARIES ON LIQUID FORMATION
LIQUID-PHASE SINTERING GRAIN GROWTH-SEE GRAIN GROWTH IN LIQUID-PHASE
SINTERING, INTERFAEIAL REAETION CONTROL, AND GRAIN GROWTH IN
LIQUID-PHASE SINTERING, DIFFUSION CONTROL AT HIGH SOLID CONTENTS
LIQUID-PHASE SINTERING GRAIN-SIZE DISTRIBUTION-SEE GRAIN-SIZE
DISTRIBUTION FOR LIQUID-PHASE SINTERED MATERIALS LIQUID-PHASE SINTERING
INTERMEDIATE-STAGE SHRINKAGE-SEE GESSINGER MODEL FOR INTENNEDIATE-STAGE
SHRINKAGE IN LIQUID-PHASE SINTERING LIQUID-PHASE SINTERING NECK
GROWTH-SEE NEEK GROWTH EARLY IN LIQUID-PHASE SINTERING AND COURTNEY
MODEL FOR EARLY-STAGE NEEK GROWTH IN LIQUID-PHASE SINTERING LIQUID-PHASE
SINTERING RHEOLOGICAL MODEL-SEE RHEOLOGIEAL MODEL FOR LIQUID-PHASE
SINTERING LIQUID-PHASE SINTERING SURFACE-AREA REDUCTION-SEE SURFAEE-AREA
REDUETION DURING LIQUID-PHASE SINTERING LIQUID VE10CITY IN ATOMIZATION
LOGARITHMIC VISCOSITY RULE-SEE BINDER (MIXED POLYMER) VISEOSITY
LOG-NORMAL DISTRIBUTION LOG-NORMAL SLOPE PARAMETER LONDON DISPERSION
FORCE LOW-SOLID-CONTENT GRAIN GROWTH-SEE GRAIN GROWTH IN LIQUID-PHASE
SINTERING, DILUTE-SOLIDS CONTENT LUBRICANT BURNOUT-SEE POLYMER PYROLYSIS
LUBRICANT CONTENT-SEE MAXIMUM LUBRIEANT CONTENT M MACROSCOPIC SINTERING
MODEL CONSTITUTIVE EQUATIONS MAGNETIC COERCIVITY CORRELATION IN CEMENTED
CARBIDES MASS FLOW RATE IN ATOMIZATION-SEE GAS-ATOMIZATION MELT FLOW
RATE MASTER DECOMPOSITION CURVE MASTER SINTERING CURVE 198 199 200 203
203 203 204 204* 204* 204 204 204 204 204 205 205 206 207 207 208 208
209 209 211 212 212 213 CONTENTS XIX MASTER SINTERING CURVE FOR GRAIN
GROWTH-SEE GRAIN-GROWTH MASTER CURVE 214 MAXIMUM DENSITY IN
PRESSURE-ASSISTED SINTERING 214 MAXIMUM EJECTION STRESS 215 MAXIMUM
GRAIN SIZE IN SINTERING 215 MAXIMUM LUBRICANT CONTENT 216 MAXWELL
MODEL-SEE VISCOELASTIC MODEL JOR POWDER-POLYMER MIXTURES 216 MEAN
CAPILLARY PRESSURE 216 MEAN COMPACTION PRESSURE 217 MEAN FREE
DISTANCE-SEE PORE-SEPARATION DISTANCE 218 MEAN FREE PATH, CARBIDE
MICROSTRUCTURE 218 MEAN FREE PATH IN LIQUID-PHASE SINTERING-SEE GRAIN
SEPARATION DISTANCE IN LIQUID-PHASE SINTERING 218 MEAN FREE PATH,
SINTERING ATMOSPHERE 218 MEAN PARTICLE SIZE 219 MEAN TIME BETWEEN
PARTICLE CONTACTS-SEE BROWNIAN MOTION 220 MEASURE OF SINTERING-SEE
SINTERING METRIES 220 ME1TING-TEMPERATURE DEPRESSION WITH PARTICLE
SIZE-SEE NANOPARTICLE MELTING-POINT DEPRESSION 220 ME1T PENETRATION OF
GRAIN BOUNDARIES 220 MERCURY POROSIMETRY-SEE WASHBURN EQUATION 222 MESH
SIZES-SEE SIEVE PROGRESSION 222 MICROHARDNESS-SEE VICKERS HARDNESS
NUMBER 222 MICROMECHANICA1 MODEL FOR POWDER COMPACT 222 MICROSTRUCTURE
HOMOGENEITY-SEE HOMOGENEITY OJ A MICROSTRUCTURE 223 MICROWAVE HEATING
224 MIGRATION OF PARTICLES 224 MILLING ENERGY-SEE CHARLES EQUATION JOR
MILLING 225 MILLING TIME-SEE GRINDING TIME 225 MIXED GRAIN BOUNDARY AND
LATTICE DIFFUSION-SEE APPARENT DIFFUSIVITY 225 MIXED LATTICE AND
GRAIN-BOUNDARY DIFFUSION-SEE APPARENT DIFFUSIVITY 225 MIXED-POWDER
SEGREGATION 225 MIXED-POWDER SINTERING SHRINKAGE 227 MIXED-POWDER
SWELLING DURING SINTERING-SEE SWELLING REACTIONS DURING MIXED-POWDER
SINTERING 227 MIXING OPTIMAL ROTATIONA1 RATE-SEE OPTIMAL MIXER
ROTATIONAL SPEED 228 MIXTURE HOMOGENIZATION RATE 228 XX CONTENTS MIXTURE
THEORETICAL DENSITY MODULUS OF RUPTURE-SEE BENDING TEST AND TRANSVERSE
RUPTURE STRENGTH MOISTURE CONTENT-SEE DEW POINT MOLECULAR MEAN FREE
PATH-SEE MEAN FREE PATH AND SINTERING ATMOSPHERE MULTIPLE-MECHANISM
SINTERING MULTIPLE-STAGE MODEL OF SINTERING-SEE COMBINED-STAGE MODEL 01
SINTERING N NABARRO - HERRING CREEP-CONTROLLED PRESSURE-ASSISTED
DENSIFICATION NANOPARTICLE AGGLOMERATION NANOPARTICLE MELLING-POINT
DEPRESSION NANOSCALE PARTICLE-AGGLOMERATE SPHEROIDIZATION NANOSCALE
PARTICLE-SIZE EFFECT ON SURFACE ENERGY-SEE SURFACE-ENERGY VARIATION WITH
DROPLET SIZE NECK-CURVATURE STRESS NECK GROWTH EARLY IN LIQUID-PHASE
SINTERING NECK GROWTH-INDUCED SHRINKAGE-SEE SHRINKAGE RELATION TO NECK
SIZE NECK GROWTH LIMITED BY GRAIN GROWTH NECK-GROWTH MODEL-SEE KUCZYNSKI
NECK-GROWTH MODEL NECKLACE MICROSTRUCTURE-SEE FRAGMENTATION BY LIQUID
PENETRATION NECK-SIZE RATIO DEPENDENCE ON SINTERED DENSITY NEWTONIAN
COOLING APPROXIMATION NEWTONIAN FLOW NORMAL CURVE-SEE GAUSSIAN
DISTRIBUTION NUCLEATION FREQUENCY IN SMALL PARTICLES NUCLEATION RATE
NUMBER OF FEATURES-SEE COMPLEXITY NUMBER OF PARTICLES IN AGGLOMERATES
NUMBCR OF PARTIELES PER UNIT WEIGHT O OPEN-PORE CONTENT OPTIMAL PACKING
PARTICLE-SIZE DISTRIBUTION-SEE ANDREASEN SIZE DISTRIBUTION OPTIMAL MIXER
ROTATIONAL SPEED ORDERED PACKING 228 229 229 229 229 230 231 231 232 233
234 235 235 236 237 237 238 238 238 239 239 240 240 240 241 241 242 243
243 243 243 244 OSPREY PROCESS-SEE SPRAY DEPOSITION OSTWALD RIPENING
OXIDE REDUCTION P PACKING DENSITY FOR LOG-NORMAL PARTICLES PARTICLE
COOLING IN ATOMIZATION-SEE NEWTONIAN COOLING APPROXIMATION PARTICLE
COORDINATION NUMBER-SEE COORDINATION NUMBER AND DENSITY PARTICLE
DIFFUSION IN MIXING PARTICLE FRACTURE IN MILLING PARTICLE PACKING
PARTICLE-SHAPE INDEX PARTICLE SIZE-SEE EQUIVALENT SPHERICAL DIAMETER AND
MEAN PARTICLE SIZE PARTICLE-SIZE ANALYSIS-SEE SIEVE PROGRESSION PARTICLE
SIZE AND APPARENT DENSITY PARTICLE SIZE BY VISCOUS SETTLING-SEE STOKES'
PARTICLE DIAMETER PARTICLE-SIZE CONTROL IN CENTRIFUGAL ATOMIZATION-SEE
CENTRIFUGAL ATOMIZATION PARTICLE SIZE PARTICLE-SIZE DISTRIBUTION-SEE
ANDREASEN SIZE DISTRIBUTION, GAUDIN-SCHUHMAN DISTRIBUTION, LOG-NORMAL
DISTRIBUTION, AND ROSIN-RAMMLER DISTRIBUTION PARTICLE-SIZE EFFECT ON
INITIAL-STAGE SINTERING-SEE HERRING SCALING LAW PARTICLE-SIZE EFFECT ON
PACKING DENSITY-SEE PARTICLE PACKING PARTICLE-SIZE EFFECT ON
SOLUBILITY-SEE SOLUBILITY DEPENDENCE ON PARTICLE SIZE PARTICLE-SIZE IN
ATOMIZATION-SEE WATER ATOMIZATION PARTICLE SIZE PARTICLE-SIZE
MEASUREMENT ERROR PEAK BROADENING-SEE BROADENING PEAK STRESS FOR
EJECTION-SEE MAXIMUM EJECTION STRESS PENDULAR-BOND CAPILLARY FORCE
PERCOLATION IN SEMISOLID PARTICLES PERCOLATION LIMITS PERIMETER-BASED
PARTICLE SIZE-SEE GRAIN DIAMETER BASED ON EQUIVALENT CIRCLE
PERMEABILITY-BASED PARTICLE SIZE-SEE FISHER SUBSIEVE PARTICLE SIZE
PERMEABILITY COEFFICIENT CONTENTS XXI 244* 245* 245* 247* 247* 248* 248*
248* 249* 249* 250* 251* 252* 252* 252* 252* 252* 252* 253* 253* 253*
253* 254* 254* 254* 255* 256* 256* 257* 257* XXII CONTENTS PHASE
TRANSFORMATION-SEE NUCLEATION RATE PLASMA-SPRAYING PARTICLE SIZE PLASTIC
FLOW IN HOT COMPACTION PLASTIC FLOW IN SINTERING PLASTIC WORKING-SEE
STRAIN HARDENING POISEUILLE' S EQUATION POISSON'S RATIO POLYMER-BLEND
VISCOSITY-SEE BINDER (MIXED-POLYMER) VISCOSITY POLYMER PYROLYSIS PORE
ATTACHMENT TO GRAIN BOUNDARIES PORE CLOSURE PORE DRAG-SEE MIGRATION OF
PARTICLES PORE FILLING IN LIQUID-PHASE SINTERING PORE-FREE COMPOSITE OR
MIXED-PHASE DENSITY PORE MOBILITY DURING SINTERING PORE PINNING OF GRAIN
BOUNDARIES-SEE GRAIN PINNING BY PORES IN FINAL-STAGE SINTERING AND ZENER
RELATION PORE-SEPARATION DISTANCE PORE SEPARATION FROM GRAIN BOUNDARIES
PORE SIZE AND GRAIN SIZE IN FINAL-STAGE SINTERING-SEE GRAIN SIZE TO PORE
SIZE IN FINAL-STAGE LIQUID-PHASE SINTERING PORE SIZE AND GRAIN SIZE IN
INTERMEDIATE-STAGE SINTERING PORE SIZE IN FINAL-STAGE SINTERING PORE
SIZE IN VISCOUS-FLOW FINAL-STAGE SINTERING POROSIMETRY-SEE WASHBURN
EQUATION POROSITY-SEE FRACTIONAL DENSITY POROSITY EFFECT ON
DUCTILITY-SEE SINTERED DUCTILITY POROSITY EFFECT ON ELASTIC BEHAVIOR
POROSITY EFFECT ON SONIC VELOCITY-SEE ULTRASONIC VELOCITY POROSITY
EFFECT ON STRENGTH-SEE SINTERED STRENGTH POROSITY EFFECT ON THERMAL
CONDUCTIVITY-SEE THERMAL-CONDUCTIVITY DEPENDENCE ON POROSITY POROSITY IN
SWELLING SYSTEMS WITH LIMITED SOLUBILITY POWDER-FORGING HEIGHT STRAIN
AND DENSIFICATION POWDER INJECTION-MOLDING FEEDSTOCK VISCOSITY-SEE
VISCOSITY MODEL FOR INJECTION-MOLDING FEEDSTOCK POWER-LAW CREEP
PREALLOYED-PARTICLE SINTERING-SEE LIQUID AND SOLID COMPOSITIONS IN
PREALLOY-PARTICLE MELTING 257 258 258 259 259 260 260 261 261 26] 262
262 262 264 264 266 266 266 267 267 267 268 269 269 269 269 270 270 270
270 270 271 271 272 XXIV CONTENTS R RADIAL CRUSH STRENGTH-SEE BEARING
STRENGTH RADIANT HEATING RALEIGH INSTABILITY RANDOM PACKING DENSITY
RANDOM PACKING RADIAL-DISTRIBUTION FUNCTION REACTION-CONTROLLED GRAIN
GROWTH-SEE GRAIN-GROWTH MASTER CURVE, LNTERFACIAL REACTION CONTROL, AND
LNTERFACE-CONTROLLED GRAIN GROWTH REACTION-RATE EQUATION-SEE AVRAMI
EQUATION REACTIVE SYNTHESIS REARRANGEMENT KINETICS IN LIQUID-PHASE
SINTERING RECALESCENCE TEMPERATURE REDUCTION IN AREA REDUCTION OF
OXIDES-SEE OXIDE REDUCTION REDUCTION RATIO IN EXTRUSION-SEE EXTRUSION
CONSTANT REYNOLDS NUMBER IN POROUS FLOW RHEOLOGICAL MODEL FOR
LIQUID-PHASE SINTERING RHEOLOGICAL RESPONSE-SEE COMPLEX VISCOSITY
ROCKWELL HARDNESS ROSIN - RAMMLER DISTRIBUTION S SADDLE-SURFACE
STRESS-SEE NECK-CURVATURE STRESS SCHERRER FORRNULA SCREEN SIZES-SEE
SIEVE PROGRESSION SECONDARY DENDRITE-ARRN SPACING SECONDARY
RECRYSTALLIZATION-SEE ABNORMAL GRAIN GROWTH SECOND-STAGE LIQUID-PHASE
SINTERING MODEL-SEE LNTERMEDIATE-STAGE LIQUID-PHASE SINTERING MODEL
SECOND-STAGE SINTERING DENSIFICATION-SEE LNTERMEDIATE-STAGE
SINTERING-DENSITY MODEL SECOND-STAGE SINTERING PORE ELIMINATION-SEE
LNTERMEDIATE-STAGE PORE ELIMINATION SECOND-STAGE SINTERING SURFACE-AREA
REDUCTION-SEE LNTERMEDIATE-STAGE SURFACE-AREA REDUCTION SEDIMENTATION
PARTICLE-SIZE ANALYSIS-SEE STOKES' LAW PARTICLE-SIZE ANALYSIS
SEGREGATION COEFFICIENT 285 285 285 286 287 288 289 289 289 290 291 291
292 292 292 293 294 294 296 297 297 297 298 298 298 298 298 298 299 299
299 CONTENTS XXV SEGREGATION OF MIXED POWDERS-SEE MIXED-POWDER
SEGREGATION 299* SEGREGATION TO GRAIN BOUNDARIES DURING SINTERING 299*
SE1F-PROPAGATING HIGH-TEMPERATURE SYNTHESIS 300* SEMISOLID-SYSTEM
VISCOSITY-SEE VISCOSITY OF SEMISOLID SYSTEMS 301* SHAPIRO EQUATION 301*
SHEAR MODULUS 301* SHEAR-RATE EFFECT ON VISCOSITY-SEE CROSS MODEL 302*
SHRINKAGE 302* SHRINKAGE FACTOR IN INJECTION-MOLDING TOOL DESIGN 302*
SHRINKAGE-INDUCED DENSIFICATION 303* SHRINKAGE IN INTERMEDIATE-STAGE
LIQUID-PHASE SINTERING-SEE* SOLUTION-REPRECIPITATION-INDUCED SHRINKAGE
IN LIQUID-PHASE SINTERING 303* SHRINKAGE IN SINTERING-SEE SINTERING
SHRINKAGE (GENERIC FORM) 304* SHRINKAGE RATE FOR SUPERSOLIDUS
LIQUID-PHASE SINTERING-SEE* SUPERSOLIDUS LIQUID-PHASE SINTERING
SHRINKAGE RATE 304* SHRINKAGE RELATION TO NECK SIZE 304* SIEVE
PROGRESSION 304* SINTERED DUCTILITY 305* SINTERED STRENGTH 305*
SINTERING ATMOSPHERE-FLUX EQUATION-SEE VACUUM FLUX IN SINTERING 306*
SINTERING GRAIN SIZE-SEE MAXIMUM GRAIN SIZE IN SINTERING 306* SINTERING
METRICS 306* SINTERING SHRINKAGE (GENERIC FORM) 307* SINTERING SHRINKAGE
FOR MIXED POWDERS-SEE MIXED-POWDER* SINTERING SHRINKAGE 308* SINTERING
SHRINKAGE IN SUPERSOLIDUS LIQUID-PHASE SINTERING-SEE SUPERSOLIDUS
LIQUID-PHASE SINTERING SHRINKAGE RATE 308* SINTERING STRESS, BULK 308*
SINTERING STRESS IN FINAL-STAGE SINTERING FOR SMALL GRAINS AND FACETED
PORES 309* SINTERING STRESS IN FINAL-STAGE SINTERING FOR SMALL GRAINS*
AND ROUNDED PORES 309* SINTERING STRESS IN FINAL-STAGE SINTERING FOR
SPHERICAL PORES INSIDE GRAINS 310* SINTERING STRESS IN INITIAL-STAGE
LIQUID-PHASE SINTERING 311* SINTERING STRESS IN INITIAL-STAGE
SOLID-STATE SINTERING 311* SINTERING SWELLING WITH MIXED POWDERS-SEE
SWELLING REACTIONS* DU RING MIXED-POWDER SINTERING. 311* SINTERING
VISCOUS FLOW-SEE VISCOSITY DU RING SINTERING 312* XXVI CONTENTS SIZE
DISTRIBUTION-SEE ANDREASEN SIZE DISTRIBUTION, GAUDIN-SCHUHMAN
DISTRIBUTION, GAUSSIAN DISTRIBUTION, LOG-NORMAL DISTRIBUTION, AND
ROSIN-RAMMLER DISTRIBUTION SLENDEMESS SLIP CHARACTERIZATION OF
POWDER-BINDER MIXTURES SLIP FLOW IN PORES SLOPE OF THE LOG-NONNAL
DISTRIBUTION-SEE LOG-NORMAL SLOPE PARAMETER SMALL PARTICLE-INDUCED X-RAY
LINE BROADENING-SEE SCHERRER FORMULA SOLIDIFICATIUN TIME SOLIDS LOADING
SOLUBILITY DEPENDENCE ON PARTICLE SIZE SOLUBILITY RATIO
SOLUTION-REPRECIPITATION-CONTROLLED LIQUID-PHASE SINTERING-SEE
DISSOLUTION-INDUCED DENSIJICATION SOLUTION-REPRECIPITATION-INDUCED
SHRINKAGE IN LIQUID-PHASE SINTERING SOLVENT DEBINDING TIME SOUND
VELOCITY-SEE ULTRASONIC VELOCITY SPARK SINTERING-SEE FIELD-ACTIVATED
SINTERING SPECIFIC SURFACE AREA SPHERICAL PORE PRESSURE SPHERICITY
SPHEROIDIZATIUN OF NANOSCALE PARTICLES-SEE NANOSCALE
PARTICLE-AGGLOMERATE SPHEROIDIZATION SPHEROIDIZATION TIME SPOUTING
VELUCITY SPRAY DEPOSITION SPRAY FORMING-SEE SPRAY DEPOSITION SPREADING
STANDARD DEVIATION STIFFNESS-SEE ELASTIC-MODULUS VARIATION WITH DENSITY
STOKES - EINSTEIN EQUATION STOKES' LAW STOKES' LAW PARTICLE-SIZE
ANALYSIS STOKES' PARTICLE DIAMETER STRAIN HARDENING STRAIN RATE IN
INJECTION MOLDING-SEE GATE STRAIN RATE IN LNJECTION MOLDING 312 312 312
315 315 316 316 316 317 318 318 318 320 320 320 321 321 322 322 322 323
324 325 325 326 326 326 327 328 329 329 331 CONFENTS XXVII STRENGTH-SEE
SINTERED STRENGTH 331* STRENGTH DISTRIBUTION-SEE WEIBULL DISTRIBUTION
331* STRENGTH EVOLUTION IN SINTERING-SEE IN SITU SINTERING STRENGTH 331*
STRENGTH-EVOLUTION MODEL 331* STRENGTH OF PRESSED POWDER-SEE GREEN
STRENGTH 333* STRESS CONCENTRATION AT A PORE 333* STRESS IN LIQUID-PHASE
SINTERING-SEE SINTERING STRESS IN INITIAL-STAGE* LIQUID-PHASE SINTERING
334* STRIPPING STRESS-SEE MAXIMUM EJECTION STRESS 334* SUBSIEVE PARTICLE
SIZE-SEE KOZENY-CARMAN EQUATION 334* SUPERPLASTIC FORMING 334*
SUPERSOLIDUS LIQUID-PHASE SINTERING LIQUID DISTRIBUTION-SEE LIQUID
DISTRIBUTION IN SUPERSOLIDUS LIQUID-PHASE SINTERING 335* SUPERSOLIDUS
LIQUID-PHASE SINTERING SHRINKAGE RATE 335* SURFACE AREA-BASED PARTIC1E
SIZE-SEE EQUIVALENT* SPHERICAL DIAMETER 337* SURFACE AREA BY GAS
ABSORPTION-SEE SPECIJIC SWFACE AREA 337* SURFACE AREA BY QUANTITATIVE
MICROSCOPY 337* SURFACE-AREA REDUCTION DURING LIQUID-PHASE SINTERING
337* SURFACE-AREA FOR BROAD PARTICLE-SIZE DISTRIBUTIONS 338*
SURFACE-AREA REDUCTION KINETICS 338* SURFACE CARBURIZE-SEE CASE
CARBURIZE 339* SURFACE CURVATURE-DRIVEN MASS FLOW IN SINTERING 339*
SURFACE DIFFUSION-CONTROLLED NECK GROWTH 341* SURFACE-ENERGY VARIATION
WITH DROPLET SIZE 342* SURFACE-TRANSPORT SINTERING-SEE SWFACE
AREA-REDUCTION KINETICS 343* SURATMAN NUMBER 343* SUSPENSION VISCOSITY
343* SWELLING-SEE SHRINKAGE AND SHRINKAGE-INDUCED DENSIJICATION 344*
SWELLING REACTIONS DURING MIXED-POWDER SINTERING 344* T 347* TAP
DENSITY-SEE VIBRATION-INDUCED PARTICLE PACKING 347* TEMPERATURE
ADJUSTMENTS FOR EQUIVALENT SINTERING 347* TEMPERATURE DEPENDENCE-SEE
ARRHENIUS RELATION 348* TERMINAL DENSITY-SEE FINAL-STAGE SINTERING
LIMITED DENSITY 348* TERMINAL NECK SIZE-SEE NECK GROWTH LIMITED BY GRAIN
GROWTH 348* TERMINAL NECK SIZE IN SINTERING-SEE LIMITING NECK SIZE 348*
TERMINAL PORE SIZE-SEE FINAL-STAGE PORE SIZE 348* XXVIII CONTENTS
TERMINAL SETTLING VELOCITY-SEE STOKES' LAW TERMINAL SINTERING-SEE
TRAPPED-GAS PORE STABILIZATION TERMINAL VE1OCITY-SEE ACCELERATION OF
FREE-SETTLING PARTICLES TETRAKAIDECAHEDRON THEORETICAL DENSITY FOR MIXED
POWDERS-SEE MIXTURE THEORETICAL DENSITY THERMAL CONDUCTION-SEE
CONDUCTIVE HEAT FLOW THERMAL CONDUCTIVITY THERMAL CONDUCTIVITY
DEPENDENCE ON POROSITY THERMAL CONDUCTIVITY FROM ELECTRICAL CONDUCTIVITY
THERMAL CONVECTION-SEE CONVECTIVE HEAT TRANSFER THERMAL DEBINDING-SEE
POLYMER PYROLYSIS AND VACUUM THERMAL DEBINDING THERMAL DEBINDING MASTER
CURVE-SEE MASTER DECOMPOSITION CURVE THERMAL DEBINDING TIME THERMAL
DIFFUSIVITY-SEE THERMAL CONDUCTIVITY THERMAL EXPANSION COEFFICIENT
THERMALLY ACTIVATED-SEE ARRHENIUS RELATION THERMAL SHOCK RESISTANCE
THETA TEST THIRD-STAGE SINTERING DENSIFICATION-SEE FINAL-STAGE
DENSIFICATION THIRD-STAGE SINTERING STRESS-SEE FINAL-STAGE SINTERING
STRESS, SINTERING STRESS IN FINAL-STAGE SINTERING FOR SMALL GRAINS AND
FACETED PORES, SINTERING STRESS IN FINAL-STAGE SILUERING FOR SMALL
GRAINS AND ROUNDED PORES, AND SINTERING STRESS IN FINAL-STAGE SINTERING
FOR SPHERICAL PORES INSIDE GRAINS THREE-POINT BENDING STRENGTH-SEE
TRANSVERSE-RUPTURE STRENGTH THREE-POINT BENDING TEST-SEE BENDING TEST
TIME FAR THERMAL DEBINDING-SEE THERMAL DEBINDING TIME TIME TO SOLIDIFY
IN ATOMIZATION-SEE SOLIDIFICATION TIME TIME TO SPHEROIDIZE IN
ATOMIZATION-SEE SPHEROIDIZATION TIME TOOL EXPANSION FACTOR
TORTUOSITY-SEE DARCY'S LAW TRANSFORMATION KINETICS-SEE AVRAMI EQUATION
TRANSIENT LIQUID-PHASE SINTERING TRANSVERSE-RUPTURE STRENGTH TRAPPED-GAS
PORE STABILIZATION TRUNCATED OCTAHEDRON-SEE TETRAKAIDECAHEDRON 348 348
348 348 350 350 350 350 351 351 351 352 352 352 352 353 353 353 354 355
355 355 355 355 355 355 356 356 356 357 359 360 CONTENTS XXIX
TWO-DIMENSIONAL GRAIN CONTACTS-SEE CONNECTIVITY 360* TWO-PARTICLE
SINTERING MODEL-SEE KUCZYNSKI* NECK-GROWTH MODEL 360* TWO-PARTICLE
VISCOUS-FLOW SINTERING 360* U 363* ULTRASONIC VELOCITY 363* V 365*
VACANCY CONCENTRATION DEPENDENCE ON SURFACE CURVATURE 365* VACANCY
DIFFUSION 366* VACUUM DEBINDING-SEE VACUUM THERMAL DEBINDING 367* VACUUM
DISTILLATION RATE 367* VACUUM FLUX IN SINTERING 368* VACUUM THERMAL
DEBINDING 368* VAPOR MEAN FREE PATH 369* VAPOR PRESSURE 371*
VIBRATION-INDUCED PARTICLE PACKING 372* VICKERS HARDNESS NUMBER 372*
VISCOELASTIC MODEL FOR POWDER-POLYMER MIXTURES 373* VISCOELASTIC
RESPONSE 374* VISCOSITY 376* VISCOSITY DEPENDENCE ON SHEAR RATE-SEE
CROSS MODEL 377* VISCOSITY DURING SINTERING 377* VISCOSITY MODEL FOR
INJECTION-MOLDING FEEDSTOCK 379* VISCOSITY OF SEMISOLID SYSTEMS 380*
VISCOSITY OF SUSPENSION-SEE SUSPENSION VISCOSITY 381* VISCOSITY
VARIATION WITH HYDROSTATIC PRESSURE-SEE PRESSURE* EFFECT ON FEEDSTOCK
VISCOSITY 381* VISCOUS FLOW IN PRESSURE-ASSISTED SINTERING 382* VISCOUS
FLOW OF A LIQUID DROPLET 382* VISCOUS FLOW SINTERING 384* VISCOUS FLOW
SINTERING OF GLASS 385* VISCOUS-PHASE SINTERING-SEE VISCOSITY 0/*
SEMISOLID SYSTEMS 386* VISCOUS SETTLING-SEE STOKES' LAW 386* VISCOUS
SINTERING, VISCOUS-PHASE SINTERING-SEE TWO-PARTICLE* VISCOUS-FLOW
SINTERING 386* VOIGT MODEL-SEE VISCOELASTIC MODEL/AR POWDER-POLYMER
MIXTURES 386* XXX CONTENTS VOLUME-BASED PARTICLE SIZE-SEE EQUIVALENT
SPHERICAL DIAMETER VOLUME DIFFUSION-SEE VACANCY DIFFUSION VOLUME
DIFFUSION-CONTROLLED CREEP DENSIFICATION-SEE NABARRO-HERRING
CREEP-CONTROLLED PRESSURE-ASSISTED DENSIFICATION W WASHBUM EQUATION
WATER-ATOMIZATION PARTICLE SIZE WATER IMMERSION DENSITY-SEE ARCHIMEDES
DENSITY WEBER NUMBER WEIBULL DISTRIBUTION WETTING ANGLE WICKING WORK
HARDENING-SEE STRAIN HARDENING WORK OF SINTERING-SEE MASTER SINTERING
CURVE X X-RAY LINE BROADENING-SEE SCHERRER FORMULA Y YIELD STRENGTH IN
VISCOUS FLOW-SEE BINGHAM VISCOUS-FLOW MODEL YIELD STRENGTH OF
PARTICLE-POLYMER FEEDSTOCK YOUNG'S EQUATION-SEE CONTACT ANGLE AND
WETTING ANGLE YOUNG'S MODULUS-SEE ELASTIC MODULUS Z ZENER RELATION ZETA
POTENTIAL APPENDIX REFERENCES 387 387 387 389 389 389 390 390 390 392
393 393 393 395 395 397 397 397 398 398 399 399 401 403 409 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | German, Randall M. Park, Seong Jin |
| author_facet | German, Randall M. Park, Seong Jin |
| author_role | aut aut |
| author_sort | German, Randall M. |
| author_variant | r m g rm rmg s j p sj sjp |
| building | Verbundindex |
| bvnumber | BV035014925 |
| classification_rvk | UQ 7520 |
| ctrlnum | (OCoLC)231884440 (DE-599)BVBBV035014925 |
| dewey-full | 671.37 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 671 - Metalworking & primary metal products |
| dewey-raw | 671.37 |
| dewey-search | 671.37 |
| dewey-sort | 3671.37 |
| dewey-tens | 670 - Manufacturing |
| discipline | Physik Werkstoffwissenschaften / Fertigungstechnik |
| discipline_str_mv | Physik Werkstoffwissenschaften / Fertigungstechnik |
| format | Book |
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| id | DE-604.BV035014925 |
| illustrated | Illustrated |
| index_date | 2024-07-02T21:45:07Z |
| indexdate | 2024-07-09T21:20:14Z |
| institution | BVB |
| isbn | 9780470173640 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016684110 |
| oclc_num | 231884440 |
| open_access_boolean | |
| owner | DE-703 DE-29T DE-11 |
| owner_facet | DE-703 DE-29T DE-11 |
| physical | XXXIII, 419 S. graph. Darst. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Wiley |
| record_format | marc |
| series2 | Wiley series on processing of engineering materials |
| spelling | German, Randall M. Verfasser aut Mathematical relations in particulate materials processing ceramics, powder metals, cermets, carbides, hard materials, and minerals Randall M. German ; Seong Jin Park Handbook of mathematical relations in particulate materials processing Hoboken, NJ Wiley 2008 XXXIII, 419 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley series on processing of engineering materials Includes bibliographical references and index Powder metallurgy Powder metallurgy / Mathematical models Mathematisches Modell Powder metallurgy Mathematical models Mathematisches Modell (DE-588)4114528-8 gnd rswk-swf Teilchentechnologie (DE-588)4429656-3 gnd rswk-swf Pulvermetallurgie (DE-588)4047840-3 gnd rswk-swf Teilchentechnologie (DE-588)4429656-3 s Mathematisches Modell (DE-588)4114528-8 s DE-604 Pulvermetallurgie (DE-588)4047840-3 s Park, Seong Jin Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016684110&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | German, Randall M. Park, Seong Jin Mathematical relations in particulate materials processing ceramics, powder metals, cermets, carbides, hard materials, and minerals Powder metallurgy Powder metallurgy / Mathematical models Mathematisches Modell Powder metallurgy Mathematical models Mathematisches Modell (DE-588)4114528-8 gnd Teilchentechnologie (DE-588)4429656-3 gnd Pulvermetallurgie (DE-588)4047840-3 gnd |
| subject_GND | (DE-588)4114528-8 (DE-588)4429656-3 (DE-588)4047840-3 |
| title | Mathematical relations in particulate materials processing ceramics, powder metals, cermets, carbides, hard materials, and minerals |
| title_alt | Handbook of mathematical relations in particulate materials processing |
| title_auth | Mathematical relations in particulate materials processing ceramics, powder metals, cermets, carbides, hard materials, and minerals |
| title_exact_search | Mathematical relations in particulate materials processing ceramics, powder metals, cermets, carbides, hard materials, and minerals |
| title_exact_search_txtP | Mathematical relations in particulate materials processing ceramics, powder metals, cermets, carbides, hard materials, and minerals |
| title_full | Mathematical relations in particulate materials processing ceramics, powder metals, cermets, carbides, hard materials, and minerals Randall M. German ; Seong Jin Park |
| title_fullStr | Mathematical relations in particulate materials processing ceramics, powder metals, cermets, carbides, hard materials, and minerals Randall M. German ; Seong Jin Park |
| title_full_unstemmed | Mathematical relations in particulate materials processing ceramics, powder metals, cermets, carbides, hard materials, and minerals Randall M. German ; Seong Jin Park |
| title_short | Mathematical relations in particulate materials processing |
| title_sort | mathematical relations in particulate materials processing ceramics powder metals cermets carbides hard materials and minerals |
| title_sub | ceramics, powder metals, cermets, carbides, hard materials, and minerals |
| topic | Powder metallurgy Powder metallurgy / Mathematical models Mathematisches Modell Powder metallurgy Mathematical models Mathematisches Modell (DE-588)4114528-8 gnd Teilchentechnologie (DE-588)4429656-3 gnd Pulvermetallurgie (DE-588)4047840-3 gnd |
| topic_facet | Powder metallurgy Powder metallurgy / Mathematical models Mathematisches Modell Powder metallurgy Mathematical models Teilchentechnologie Pulvermetallurgie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016684110&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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