Heat transfer during metal pouring and its solidification in the vacuum furnace have been investigated by experiments using model set of castings of different diameters and insulations. The pouring metal was Inconel 713LC alloy based on nickel. The found data have been used for optimization of the numerical simulation of the thermal regime during the both pouring and solidification phases of the process in vacuum. Numerical simulation of the alloy structure in individual castings has been made by the CAFE module of the ProCast software and obtained results compared with the real structure. The optimized boundary conditions can be used for simulation of real castings
The future of solidification processing clearly lies not only in elucidating the various aspects of ...
Metals casting is a process governed by the interaction of a range of physical phenomena. Most compu...
The quality of final casting mainly depends on the rate of solidification as rapid solidification pr...
Experimentálním měřením ve vakuové peci byly zjišťovány teplotní poměry při odlévání a tuhnutí model...
Heat transfer in vacuum investment casting of a nickel-based superalloy, 1N718, was studied using a...
The mathematical model and numerical simulations of the solidification of a cylindrical casting, whi...
The solidification of metals continues to be a phenomenon of great interest to physicists, metallurg...
This paper provides an analysis of experimental research and results of investment casting process. ...
A mathematical model based on the control volume method with fixed mesh was selected in order to sim...
Mathematical and physical simulation of the temperature fields of the processers of structure format...
The metals and alloys solidification can be defined as a transient heat transfer process. A liquid/s...
The quality of the strip produced in a near-net-shape casting process is strongly linked to the meta...
A variety of interacting complex phenomena takes place during the casting of metallic components. He...
This paper concerns the modelling of the solidification process including the phenomena of heat tran...
Many complex phenomena favoring the solidification of metal that occur during the casting process, s...
The future of solidification processing clearly lies not only in elucidating the various aspects of ...
Metals casting is a process governed by the interaction of a range of physical phenomena. Most compu...
The quality of final casting mainly depends on the rate of solidification as rapid solidification pr...
Experimentálním měřením ve vakuové peci byly zjišťovány teplotní poměry při odlévání a tuhnutí model...
Heat transfer in vacuum investment casting of a nickel-based superalloy, 1N718, was studied using a...
The mathematical model and numerical simulations of the solidification of a cylindrical casting, whi...
The solidification of metals continues to be a phenomenon of great interest to physicists, metallurg...
This paper provides an analysis of experimental research and results of investment casting process. ...
A mathematical model based on the control volume method with fixed mesh was selected in order to sim...
Mathematical and physical simulation of the temperature fields of the processers of structure format...
The metals and alloys solidification can be defined as a transient heat transfer process. A liquid/s...
The quality of the strip produced in a near-net-shape casting process is strongly linked to the meta...
A variety of interacting complex phenomena takes place during the casting of metallic components. He...
This paper concerns the modelling of the solidification process including the phenomena of heat tran...
Many complex phenomena favoring the solidification of metal that occur during the casting process, s...
The future of solidification processing clearly lies not only in elucidating the various aspects of ...
Metals casting is a process governed by the interaction of a range of physical phenomena. Most compu...
The quality of final casting mainly depends on the rate of solidification as rapid solidification pr...