Add to ORKG223 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.The model is then applied to investigate three separate issues in high speed continuous casting: the minimum shell thickness to avoid breakouts, the maximum casting speed to avoid hot off-corner sub-surface cracks, and the optimal mold taper.U of I OnlyRestricted to the U of I community idenfinitely during batch ingest of legacy ETD
MasterA finite element thermal stress model to investigate the bulging behavior during thin slab con...
A computational thermo-mechanical model has been developed to simulate the continuous casting of sha...
MasterLarge section bloom caster (700x700mm2) has extremely low casting speeds (0.05~0.1mpm). There ...
223 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.The model is then applied to ...
Solidification and stress numerical models were developed in order to predict flow, shell thickness,...
The behavior of the solidifying shell in the early stages of solidification has an important influen...
peer reviewedA finite element simulation of the steel shell formation in continuous casti...
182 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2006.The model is then improved to...
Abstract. A finite-element model, CON2D, has been developed to simulate temperature, stress, and sha...
Mathematical models have been developed to predict temperature, stress, and shape development during...
Separate three-dimensional models of thermo-mechanical behavior of the solidifying shell, turbulent ...
This work takes initial steps towards the ultimate goal of fundamental understanding of how cracks a...
Hot crack formation in continuously cast steel is significantly influenced by the mechanical propert...
A mathematical model has been developed to compute the thermomechanical state of the shell of contin...
An efficient computational model has been developed to quantify the thermo-mechanical behavior of th...
MasterA finite element thermal stress model to investigate the bulging behavior during thin slab con...
A computational thermo-mechanical model has been developed to simulate the continuous casting of sha...
MasterLarge section bloom caster (700x700mm2) has extremely low casting speeds (0.05~0.1mpm). There ...
223 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.The model is then applied to ...
Solidification and stress numerical models were developed in order to predict flow, shell thickness,...
The behavior of the solidifying shell in the early stages of solidification has an important influen...
peer reviewedA finite element simulation of the steel shell formation in continuous casti...
182 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2006.The model is then improved to...
Abstract. A finite-element model, CON2D, has been developed to simulate temperature, stress, and sha...
Mathematical models have been developed to predict temperature, stress, and shape development during...
Separate three-dimensional models of thermo-mechanical behavior of the solidifying shell, turbulent ...
This work takes initial steps towards the ultimate goal of fundamental understanding of how cracks a...
Hot crack formation in continuously cast steel is significantly influenced by the mechanical propert...
A mathematical model has been developed to compute the thermomechanical state of the shell of contin...
An efficient computational model has been developed to quantify the thermo-mechanical behavior of th...
MasterA finite element thermal stress model to investigate the bulging behavior during thin slab con...
A computational thermo-mechanical model has been developed to simulate the continuous casting of sha...
MasterLarge section bloom caster (700x700mm2) has extremely low casting speeds (0.05~0.1mpm). There ...