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Multiphysics modeling of continuous casting of stainless steel
Matthew L.S. Zappulla
, Seong Mook Cho
,
Seid Koric
, Hyoung Jun Lee
, Seon Hyo Kim
, Brian G. Thomas
National Center for Supercomputing Applications (NCSA)
Mechanical Science and Engineering
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peer-review
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Keyphrases
Phase Fraction
100%
Stainless Steel
100%
Continuous Casting
100%
Multiphysics Modeling
100%
Mechanical Behavior
66%
Austenite
66%
Ferrite
66%
Solid Shell
66%
High Temperature
33%
Phase Diagram
33%
Stress Distribution
33%
Temperature Distribution
33%
Creep
33%
Nonlinear Elasticity
33%
Liquid Phase
33%
Thermal Behavior
33%
Constitutive Equation
33%
Composition Effect
33%
Phase Change
33%
Lagrangian
33%
Multiphysics Model
33%
Classical Times
33%
Eulerian Frame
33%
Elastic-viscoplastic
33%
Plain Carbon Steel
33%
Viscoplastic Constitutive Law
33%
Turbulent Fluidization
33%
Continuous Caster
33%
Solidification Stress
33%
409L Stainless Steel
33%
Surface Compression
33%
Engineering
Stainless Steel
100%
Continuous Casting
100%
Phase Fraction
100%
Austenite
66%
Fluid Flow
33%
Creep
33%
Thermal Behavior
33%
Liquid Phase
33%
Constitutive Equation
33%
Subsurface
33%
Carbon Steel
33%
Reference Frame
33%
Eulerian Frame
33%
Ferritic Stainless Steel
33%