Skip to main navigation
Skip to search
Skip to main content
Illinois Experts Home
LOGIN & Help
Home
Profiles
Research units
Research & Scholarship
Datasets
Honors
Press/Media
Activities
Search by expertise, name or affiliation
Efficient thermo-mechanical model for solidification processes
Seid Koric
, Brian G. Thomas
Mechanical Science and Engineering
National Center for Supercomputing Applications (NCSA)
Research output
:
Contribution to journal
›
Review article
›
peer-review
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Efficient thermo-mechanical model for solidification processes'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
ABAQUS
100%
Thermo-mechanical Model
100%
Solidification Process
100%
Highly Nonlinear
66%
Finite Element Code
66%
Newton-Raphson Method
66%
Temperature-dependent Properties
66%
Continuous Casting
66%
Local Integration
66%
Latent Heat
33%
Constitutive Law
33%
Local Level
33%
Thermal Stress
33%
Thermoelastic
33%
Mushy Zone
33%
Stress-strain
33%
Computationally Efficient Algorithms
33%
Stress State
33%
Integration Method
33%
Constitutive Equation
33%
Temperature Field
33%
Boundary Value Problem
33%
Phase Transformation
33%
Stress Development
33%
Thermal Displacement
33%
Thermo-mechanical Modeling
33%
Generalized Plane Strain
33%
Field History
33%
Implicit Integration
33%
Finite Element Equation
33%
Actual Conditions
33%
Special Treatment
33%
Temperature Development
33%
Steel Shell
33%
Transient Heat Conduction Equation
33%
Semi-analytical Solution
33%
Integration Point
33%
Grid Approach
33%
Actual Temperature
33%
Steelmaking
33%
Fixed Grid
33%
Stress Displacement
33%
Continuous Casting Mold
33%
Elastic-viscoplastic
33%
User Manual
33%
Viscoplastic Constitutive Equations
33%
Inelastic Strain
33%
User-defined Subroutine
33%
Commercial Packages
33%
Nonlinear Constitutive Relation
33%
Strain Method
33%
Two-level Method
33%
Thermal Stress-strain
33%
Engineering
Mechanical Model
100%
Continuous Casting
100%
Abaqus
100%
Solidification Process
100%
Finite Element Method
66%
Thermal Stress
66%
Dependent Property
66%
Constitutive Equation
66%
Transients
33%
Latent Heat
33%
Constitutive Relation
33%
Local Level
33%
Mushy Zone
33%
Stress State
33%
Integration Method
33%
Temperature Field
33%
Boundary Value
33%
Generalized Plane Strain
33%
Finite Element Equation
33%
Fixed Grid
33%
Steel Shell
33%
Integration Point
33%
Steel Making
33%
Field History
33%