A two-dimensional two-scale slice model has been developed to predict the microstructure evolution in the solidifying strand with an arbitrary cross section geometry during continuous casting of steel. The enthalpy equation is solved at the macro level by using meshless local radial basis function collocation method (LRBFCM) based on multiquadrics for spatial discretization and explicit Euler scheme for temporal discretization. The temperature and the solid fraction in computational nodes are calculated by using a continuum model formulation while the lever rule is used as the supplementary microsegregation relation. The temperature field is interpolated to the micro level by using LRBFCM. At the micro level, the norm...
Numerical methods are utilised to reproduce the evolution of a system observed in natural phenomena....
The paper discusses the numerical solution of the large-eddy formulation for modelling the turbulent...
The mathematical model of the globular eutectic solidification in 2D was designed. Proposed model is...
A two-dimensional two-scale slice model has been developed to predict the microstructure ...
A large-eddy simulation (LES) based meshless model is developed for the three-dimensional (3D) probl...
Cracking in continuous casting has always been one of the main problems of steel mills. Many cracks ...
The purpose of the present paper is to predict the grain size of steel during the hot-rolling proces...
The purpose of the present paper is to predict the grain size of steel during the hot-rolling proces...
The heat transfer and solidification microstructure evolution during continuous casting were experim...
This article is based on a presentation made at the “Analysis and Modeling of Solidification” sympos...
This paper presents a thermomicrostructural model for the simulation of the solidification process o...
A computational modeling for predicting microstructure evolutions and mechanical properties of steel...
AbstractThe numerical modeling of hot shape rolling of steel billet is represented by using a meshle...
International audienceAmong the many routes which are used for the processing of high-temperature ma...
Abstract Microstructural banding is observed as alternating microstructures in cast steel products,...
Numerical methods are utilised to reproduce the evolution of a system observed in natural phenomena....
The paper discusses the numerical solution of the large-eddy formulation for modelling the turbulent...
The mathematical model of the globular eutectic solidification in 2D was designed. Proposed model is...
A two-dimensional two-scale slice model has been developed to predict the microstructure ...
A large-eddy simulation (LES) based meshless model is developed for the three-dimensional (3D) probl...
Cracking in continuous casting has always been one of the main problems of steel mills. Many cracks ...
The purpose of the present paper is to predict the grain size of steel during the hot-rolling proces...
The purpose of the present paper is to predict the grain size of steel during the hot-rolling proces...
The heat transfer and solidification microstructure evolution during continuous casting were experim...
This article is based on a presentation made at the “Analysis and Modeling of Solidification” sympos...
This paper presents a thermomicrostructural model for the simulation of the solidification process o...
A computational modeling for predicting microstructure evolutions and mechanical properties of steel...
AbstractThe numerical modeling of hot shape rolling of steel billet is represented by using a meshle...
International audienceAmong the many routes which are used for the processing of high-temperature ma...
Abstract Microstructural banding is observed as alternating microstructures in cast steel products,...
Numerical methods are utilised to reproduce the evolution of a system observed in natural phenomena....
The paper discusses the numerical solution of the large-eddy formulation for modelling the turbulent...
The mathematical model of the globular eutectic solidification in 2D was designed. Proposed model is...