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HWANG, SANG MOO (황상무)
Dept of Mechanical Engineering(기계공학과)
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finite element method:21||DEFORMATION:11||design sensitivity:10||PREFORM DESIGN:9||FLOW:8||finite element analysis:8||FINITEELEMENT METHOD:8||HEATTRANSFER:7||hot strip rolling:7||STEEL:6||thermomechanical behavior:5||optimal design:5||PREDICTION:4||MICROSTRUCTURE:4||SIMULATION:4||online model:4||STRIP:3||MODEL:3||FEM:3||OPTIMIZATION:3||strip profile:3||WORK ROLL:3||SHAPE OPTIMIZATION:3||FORMING PROCESSES:3||EXTRUSION:3||BEHAVIOR:3||derivative based approach:3||process optimization:3||Finite element method:3||ALGORITHMS:3||STEEL STRIP:3||residual stress:3||roll force:3||TRANSFORMATION:3||SHEAR DEFORMATION:2||integrated process model:2||KINETICS:2||heat transfer:2||MOLD:2||STAINLESSSTEEL POWDER:2||nonisothermal:2||Contact Problem:2||roll power:2||multiaxial fatigue:2||POWDER:2||MATRIX:2||stainlesssteel powder:2||metal forming:2||die shape design:2||Heat transfer:2||flow softening:2||ACCOMMODATION MODE:2||deformed roll profile:2||DAMAGE:2||porous materials:2||Weibull fracture probability:2||COLD COMPACTION:2||cold strip rolling:2||NETSHAPE:2||steadystate:2||FEM simulation:2||globularization:2||METALS:2||DIAGRAMS:2||normal fracture:2||mean stress effect:2||work roll:2||genetic algorithm:2||hot backward extrusion:2||backward extrusion:2||SUPERPLASTIC DEFORMATION:2||rod rolling:2||5% chrome steel:2||composites:2||SIZE:2||finite element:2||metallurgical behavior:2||hot isostatic pressing:2||MATERIAL BEHAVIOR:2||titanium alloy:2||STRIP PROFILE:2||MILLS:2||CONTACT FATIGUE:2||threedimensional:2||COUPLED TURBULENTFLOW:2||continuum instability criterion:2||Coupled Analysis:2||CHANNEL ANGULAR EXTRUSION:2||MECHANICALPROPERTIES:2||direct differentiation method:2||SOLUTE TRANSPORT:2||DENSIFICATION:2||forming defects:2||Ti6Al4V alloy:2||YIELD CRITERION:2||equal channel angular pressing:2||three dimensional:2||TEMPERATURE:2||SHRINKAGE:2||Ti6Al4V:2||METALFORMING PROCESSES:2||Flat Rolling:2||Finite Element Method:2||edge heater:1||mean effective strain:1||HOT:1||free surface correction:1||elasticviscoplastic deformation:1||online prediction:1||nondimensional analysis:1||Roughing mill:1||THERMOMECHANICAL BEHAVIOR:1||derivativebased approach:1||SENSITIVITY:1||forging:1||PLANESTRAIN DEFORMATION:1||strip:1||steadystate forming:1||finite element process model:1||offfine model:1||FORCE:1||Bar temperatures:1||Strip temperatures:1||FINITEELEMENTMETHOD:1||anisotropic sheet metal:1||online modelling:1||continuous casting:1||threedimensional flow:1||roll:1||thermal behavior:1||streamline tracing:1||phase transformation:1||effective strain:1||ElasticPlastic Deformation:1||strip curvature:1||THIN STRIP:1||FINITEELEMENT SIMULATION:1||temperature prediction:1||SURFACE:1||strip rolling:1||forming limit diagram:1||void volume fraction:1||HCR:1||TEXTURE:1||hot and cold forming:1||OPTIMAL PROCESS DESIGN:1||collapse absorption capability:1||maximum collapse load:1||SHAPE:1||thermal and metallurgical behavior:1||CARBON STEEL:1||rod (or bar) rolling:1||strainhardening:1||SENSITIVITY ANALYSIS:1||roil force:1||metal flow:1||3DIMENSIONAL EXTRUSION:1||camber:1||.:1||TENSION:1||damage evolution:1||VOID GROWTH:1||STRAINS:1||CRACKS:1||PLASTICITY:1||stainless steel:1||rigidviscoplastic finite element model:1||SHAPE OPTIMALDESIGN:1||DIE SHAPE:1||nonisothermal forming:1||plate:1||POWER:1||predeformation zone:1||CONSTITUTIVEEQUATIONS:1||sheet metal:1||blanking bow:1||SHAPE CONTROL:1||roller leveler:1||FOIL:1||online model:1||nonspherical voids:1||microcrack:1||type 304 stainless steel:1||shape optimization:1||finite element model:1||roller leveling:1||runouttable:1||shape rolling:1||shape extrusion:1||DEFORMATION ANALYSIS:1||SECTIONS:1||Hot strip rolling:1||PROFILE:1||dogbone shape:1||minimum energy principle:1||DIMENSIONAL ANALYSIS:1||forming limit:1||steels:1||NECKING:1||process optimal design:1||adjoint state method:1||solidification:1||intermesh:1||DIE DESIGN:1||analytic model:1||COMPOSITE RODS:1||strip shape:1||roll force distributions:1||3D theory of rolling:1||tension distributions:1||equiaxed:1||TITANIUM:1||Elasticplastic Deformation:1||Sendzimir mill:1||vertical rolling:1||STRAIN:1||CONTACT CONDUCTANCE:1||springback:1||tube hydroforming:1||hydroformed tube:1||approximate model:1||FE simulation:1||roll thermal profile:1||EXPANSION:1||extrusion:1||accelerated cooling:1||Analytic model:1||Online model:1||Work roll thermal profile:1||Finishing mills:1||Analytical solution:1||Widmanstatten:1||microstructure:1||tension leveling:1||residual stress prediction:1||admissible velocity field:1||void shape:1||DUCTILE FRACTURE:1||CCR:1||STEEL SLABS:1||
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