Add to ORKGIn this paper a numerical model will be adopted to analyze the heat transfer process during rapid solidification of a spherical sample placed on a metallic substrate cooled by water. The interfacial heat transfer coefficient between the sample and the substrate will be evaluated by matching model calculations with the surface temperature history recorded by a digital camera during solidification of a sample melted in an Arc-image furnace
A general mathematical treatment for heat-flux differential scanning calorimetry is given. It combin...
The simulation of the casting development of metals and alloys using FEM (finite-elements-methods) r...
This paper is a study of the temperature field in a melted material layer. The finite difference met...
In this paper a numerical model will be adopted to analyze the heat transfer process during rapid so...
The present work focuses on the determination of transient mold-environment and metal-mold heat tran...
Generally speaking, complex rapid solidification process kinetics can be solved by using numerical t...
Generally speaking, complex rapid solidification process kinetics can be solved by using numerical t...
A finite difference scheme is developed to treat the solidification of an alloy system in a semiinfi...
The finite-element simulation of heat transfer and metal-casting solidification is discussed. New te...
Analytic solutions for heat transfer problems are limited to simple geometries and boundary conditio...
Analytic solutions for heat transfer problems are limited to simple geometries and boundary conditio...
A fundamental understanding of the fluid flow and heat transfer that occurs during the spreading and...
The finite-element simulation of heat transfer and metal-casting solidification is discussed. New te...
Estimation of the heat flow at the metal-mold interface is necessary for accurate simulation of the ...
Estimation of the heat flow at the metal-mold interface is necessary for accurate simulation of the ...
A general mathematical treatment for heat-flux differential scanning calorimetry is given. It combin...
The simulation of the casting development of metals and alloys using FEM (finite-elements-methods) r...
This paper is a study of the temperature field in a melted material layer. The finite difference met...
In this paper a numerical model will be adopted to analyze the heat transfer process during rapid so...
The present work focuses on the determination of transient mold-environment and metal-mold heat tran...
Generally speaking, complex rapid solidification process kinetics can be solved by using numerical t...
Generally speaking, complex rapid solidification process kinetics can be solved by using numerical t...
A finite difference scheme is developed to treat the solidification of an alloy system in a semiinfi...
The finite-element simulation of heat transfer and metal-casting solidification is discussed. New te...
Analytic solutions for heat transfer problems are limited to simple geometries and boundary conditio...
Analytic solutions for heat transfer problems are limited to simple geometries and boundary conditio...
A fundamental understanding of the fluid flow and heat transfer that occurs during the spreading and...
The finite-element simulation of heat transfer and metal-casting solidification is discussed. New te...
Estimation of the heat flow at the metal-mold interface is necessary for accurate simulation of the ...
Estimation of the heat flow at the metal-mold interface is necessary for accurate simulation of the ...
A general mathematical treatment for heat-flux differential scanning calorimetry is given. It combin...
The simulation of the casting development of metals and alloys using FEM (finite-elements-methods) r...
This paper is a study of the temperature field in a melted material layer. The finite difference met...