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DE, COOMAN BRUNO C (DE COOMANBRUNO C)

Ferrous & Energy materials Technology(철강 · 에너지소재대학원)

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STACKINGFAULT ENERGY:14||MECHANICALPROPERTIES:13||ALLOYS:11||MICROSTRUCTURE:10||IRON:10||DEFORMATION:10||TRANSFORMATION:9||BEHAVIOR:9||TEMPERATURE:8||TRIP steel:8||AUSTENITE:7||SINGLECRYSTALS:7||GRAINSIZE:7||RETAINED AUSTENITE:6||TEXTURE:6||TRANSFORMATIONINDUCED PLASTICITY:6||STABILITY:5||SI:5||INTERNAL OXIDATION:5||TENSILE PROPERTIES:5||TRIP STEELS:5||SILICON:4||INDUCED PLASTICITY STEEL:4||C ALLOYS:4||STRAIN:4||MARTENSITICTRANSFORMATION:4||DEFORMATIONBEHAVIOR:4||STRENGTH:4||SEGREGATION:4||NUCLEATION:4||CARBON:4||SURFACE:4||TWIP steel:4||STAINLESSSTEEL:4||INDUCED PLASTICITY STEELS:3||EBSD:3||ALLOY:3||INTERNALFRICTION:3||BAINITE:3||MARTENSITETRANSFORMATION:3||DIFFUSION:3||OXIDATION:3||annealing:3||SIZE:3||RECRYSTALLIZATION:3||TRIP/TWIP STEELS:3||Dynamic strain aging:3||OXIDES:3||TRIP:3||DISLOCATION:3||MARTENSITE:3||TWIP STEEL:3||Retained austenite:3||GRAIN:3||DEPENDENCE:3||KINETICS:3||HSLA STEELS:2||ALLOYING ELEMENTS:2||MN:2||texture:2||Dual phase steel:2||magnetic domains:2||FORMABILITY:2||DUALPHASE STEEL:2||dew point:2||TITANIUM:2||NB:2||LOWCARBON:2||coating:2||DEFORMATION TWINS:2||AL:2||synchrotron radiation:2||Hot Press Forming:2||STEEL:2||retained austenite:2||COATINGS:2||Twinninginduced plasticity steel:2||SILICON STEELS:2||AUSTENITIC STEELS:2||GALVANIZABILITY:2||electrical steel:2||hot deformation:2||MODEL:2||AUSTENITIC STAINLESSSTEEL:2||Twinning:2||Mn partitioning:2||selective oxidation:2||HOT SHORTNESS:2||TIN:2||SYSTEM:2||HIGHSTRENGTH:2||hot stamping:2||CRYSTAL:2||FE:2||HARDENING BEHAVIOR:2||GROWTH:2||Internal friction:2||MECHANISMS:2||ENHANCEMENT:2||NEUTRONDIFFRACTION:2||Martensite:2||ANTIMONY:2||AUSTENITE STABILITY:2||PLASTICITY:2||ALPHAIRON:2||FEMN:2||aluminized:2||Stacking fault energy:2||SHEET:2||mechanical properties:2||STRESS:2||GRAINBOUNDARIES:2||Steels:2||ALUMINUM:2||Strain hardening:2||AUSTENITIC STEEL:2||TENSILE:2||CRYSTALS:2||TWIP STEELS:1||MANGANESE:1||GOSS orientation:1||softening ratio:1||thin slab direct rolling:1||SOLUBILITY:1||MORPHOLOGY:1||Grain refinement:1||Niobium:1||decarburization:1||constitutive equation:1||CONTINUOUS DYNAMIC RECRYSTALLIZATION:1||HIGHTEMPERATURE DEFORMATION:1||nonoriented electrical steel:1||BOUNDARY STRUCTURE:1||FinkelshteinRosin relaxation:1||CRYSTALLOGRAPHIC TEXTURE:1||Mechanical twinning:1||GRAINORIENTATION:1||FCC METALS:1||NIOBIUM:1||Twinning induced plasticity:1||TWINNINGINDUCED PLASTICITY:1||DELAYED FRACTURE:1||Quenching:1||WATERVAPOR:1||STRAINRATE SENSITIVITY:1||Ti:1||MICROALLOYED STEELS:1||Point defect complexes:1||IRONCARBON MARTENSITE:1||MARTENSITESTART TEMPERATURE:1||Ultrafine grain (UFG):1||aluminide:1||Stretch formability:1||silicon steel:1||STABILIZATION:1||FCC ALLOYS:1||PHASE STEELS:1||Relaxation:1||Loadingunloadingreloading:1||Thermography:1||PROFILE ANALYSIS:1||DIFFRACTION:1||Burgers vector:1||Defects:1||Nanocrystalline materials:1||Steel:1||INDUCED PHASETRANSFORMATION:1||STRAINRATE DEPENDENCE:1||NITRIDE:1||Martensite transformation kinetics:1||Alloy partitioning:1||Ultrafine grain:1||LOWALLOY STEEL:1||Scanning transmission electron microscopy:1||LOWALLOY STEELS:1||dislocation climb:1||ELECTRICAL STEEL:1||LATH MARTENSITE:1||LOCALIZATION:1||galvanized:1||CORROSION:1||Twinning induced plasticity steel:1||HOLE EXPANSION:1||Automotive steel:1||STAINLESSSTEELS:1||COPPER:1||Nitrogen effect:1||PortevinLe Chatelier (PLC) band:1||ACTIVATION VOLUME:1||MOSSBAUER:1||heataffected zone:1||Grain size:1||ALLOY STEELS:1||MAGNETITE:1||texture inhomogeneity:1||twostage cold rolling:1||METASTABLE AUSTENITIC STEELS:1||Kirkendall voids:1||internal oxidation:1||oxidation:1||WORK:1||phenomenological modelling:1||thermomechanical properties:1||fracture mechanism:1||galvanization property:1||SOLIDSOLUTION:1||Deformation:1||Grain boundaries:1||Partial dislocations:1||COMPRESSION PILLARS:1||HOT STRIP:1||CARBON STEELS:1||NI:1||warm rolling:1||TENSILESTRENGTH:1||PLAIN CARBON:1||VANADIUM:1||22MnB5:1||three point bending:1||SHEETS:1||HIGHSTRENGTH STEEL:1||METALLURGY:1||TENSILE DEFORMATION:1||TWIPSTEEL:1||Stretchflangeability:1||DEWPOINT:1||Dynamic strain aging (DSA):1||precipitation transition:1||PHASE:1||SECONDARY RECRYSTALLIZATION:1||GOSS ORIENTATION:1||dynamic strain aging:1||kinetics:1||High resolution transmission electron microscopy:1||Manganese:1||ENGINEERING APPLICATIONS:1||TENSILE FLOWSTRESS:1||ATOMISTIC SIMULATION:1||DUALPHASE:1||OXYGEN:1||DOMAIN CONFIGURATIONS:1||stored energy:1||microalloying:1||CARBIDES:1||MULTIPHASE STEELS:1||Atom probe tomography:1||PRECIPITATION BEHAVIOR:1||LARGESTRAIN DEFORMATION:1||SELFDIFFUSION:1||Twinninginduced plasticity (TWIP) steel:1||INTERNAL HYDROGEN:1||intermetallics:1||Taylor factor:1||Texture:1||Hole expansion ratio:1||AUSTENITIC STAINLESSSTEELS:1||ALC ALLOYS:1||Partitioning:1||HEATTREATMENT:1||Continuous Annealing:1||METALS:1||Microalloying:1||SOLIDSOLUTIONS:1||Austenite stability:1||oxidationreduction:1||EVOLUTION:1||PLASTICDEFORMATION:1||ENERGY:1||FIELD:1||Hole Expansion test:1||diffusion:1||galvanizing:1||thermal analysis:1||split Hopkinson tensile bar:1||ASSISTED STEELS:1||microalloying:1||weldability:1||COLDWORK PEAK:1||FERROUS MARTENSITE:1||Deformation twinning:1||ANNEALED FE9MN0.05C STEEL:1||LOWTEMPERATURES:1||FCC FE:1||SUBSTRUCTURE:1||PURITY ALPHAIRON:1||SNOEKKOSTER RELAXATION:1||LATTICE DEFECTS:1||NIOBIUM CARBONITRIDE PRECIPITATION:1||ATMOSPHERE DEWPOINT:1||INTRAGRANULAR FERRITE:1||TI:1||DYNAMIC RECRYSTALLIZATION:1||Martensite volume fraction:1||Transformationinduced plasticity steel:1||CARBIDE:1||PERCENT SI:1||Stainless steels:1||Interstitials diffusion:1||FEMNC:1||Transformationinduced plasticity (TRIP):1||Weakbeam darkfield (WBDF):1||ASSISTED MULTIPHASE STEELS:1||DISLOCATIONS:1||Hot Stamping:1||stressstrain partitioning:1||iron losses:1||epsilonmartensite:1||STORED ENERGY:1||Q&:1||Elongation:1||Crystalline materials:1||Transmission electron microscopy:1||FLOWSTRESS:1||METASTABLE AUSTENITE:1||TRIP STEEL:1||ELECTRICALRESISTIVITY:1||SCREW DISLOCATIONS:1||ANNEALING TEXTURES:1||HIGHSTRENGTH STEELS:1||GAMMAIRON:1||Bake hardening:1||Thermomechanical controlled processing:1||START TEMPERATURE:1||IRONCARBON ALLOYS:1||continuous dynamic recrystallization:1||GRAINBOUNDARY DISLOCATIONS:1||magnetic losses:1||HYSTERESIS:1||GENERAL MECHANISM:1||ALLOYSTEELS:1||Neel temperature:1||fractography:1||TRANSMISSION ELECTRONMICROSCOPY:1||DISLOCATION ACCOMMODATION:1||SHEET STEELS:1||STRAININDUCED MARTENSITE:1||Selective Oxidation:1||Twinning Induced Plasticity Steel:1||CMNSI TRIP STEEL:1||Cu addition:1||Twinninginduced plasticity (TWIP):1||Ultrafine grain size:1||Nb:1||CMn reorientation:1||RATE SENSITIVITY:1||NITROGEN:1||CGHAZ simulation:1||HIGHTEMPERATURES:1||TWIP:1||GO electrical steel:1||grain boundary:1||Phase Transformations:1||DUALPHASE STEELS:1||martensitic transformation kinetics:1||COINCIDENCE GRAINBOUNDARY:1||Advanced High Strength Steel:1||TUBE:1||SLIP:1||P processing:1||antiintrusion barriers:1||Insitu transmission electron microscopies:1||NANOCRYSTALLINE FCC METALS:1||FOCUSED IONBEAM:1||SHAPEMEMORY ALLOY:1||LOWCARBON STEELS:1||COMPLEX HETEROGENEOUS PRECIPITATION:1||GRAINREFINEMENT:1||VOLUME FRACTION:1||PURE IRON:1||DECARBURIZATION:1||SILICON STEEL:1||ACICULAR FERRITE:1||Dynamic strain ageing:1||Microalloying element:1||Twinning kinetics:1||Localized deformation:1||Grain boundary thickening:1||HADFIELD MANGANESE STEEL:1||CONVERSIONAL MODEL:1||hot dip galvanizing:1||ridging:1||stainless steel:1||WALLS:1||NONORIENTED ELECTRICAL STEELS:1||Aluminised coating:1||FeMn:1||RECRYSTALLIZATION TEXTURES:1||transformation induced plasticity:1||high strain rate behaviour:1||GRAINBOUNDARY SEGREGATION:1||forminglimited curve:1||design:1||C partitioning:1||FERRITE:1||PLATES:1||Plasticity:1||Shockley partial dislocations:1||NICKEL MICROCRYSTALS:1||CHROMIUM:1||COMPOSITION PROPERTY APPROACH:1||ZINC:1||ZN:1||PARTICLE:1||Cooling rate:1||LOCAL PROPERTIES:1||Precipitation:1||MOLYBDENUM:1||press hardening:1||Snoek relaxation:1||hydrogen embrittlement:1||ATMOSPHERES:1||Physically based constitutive model:1||PHYSICS:1||LOWCARBON STEEL:1||NANOCRYSTALLINE:1||Retained Austenite:1||BEARING:1||Transmission electron microscopy (TEM):1||Intercritical annealing:1||FEAL:1||IF steel:1||MAGNETIZATION:1||IR thermography:1||hot press forming:1||intermetallic:1||ELECTRON BACKSCATTER DIFFRACTION:1||bakehardening effect:1||external oxidation:1||Phase transformations:1||ORIENTATION DEPENDENCE:1||TENSILE BEHAVIOR:1||ORIGIN:1||thermodynamics:1||carbide precipitation:1||LOWCARBON MARTENSITE:1||In situ processing:1||

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