Add to ORKGIn the casting of reactive metals, such as titanium alloys, contamination can be prevented if there is no contact between the hot liquid metal and solid crucible. This can be achieved by containing the liquid metal by means of high frequency AC magnetic field. A water cooled current-carrying coil, surrounding the metal can then provide the required Lorentz forces, and at the same time the current induced in the metal can provide the heating required to melt it. This ‘attractive’ processing solution has however many problems, the most serious being that of the control and containment of the liquid metal envelope, which requires a balance of the gravity and induced inertia forces on the one side, and the containing Lorentz and surface tens...
Magnetic fields are used in a number of processes related to the extraction of metals, production of...
We study analytically the shaping of liquid metal drops using time-dependent magnetic fields. We con...
All titanium alloys are highly reactive in the molten condition and so are usually melted in a water...
A number of different methods have been developed for noncontact electromagnetic treatment of liquid...
It is well known from experiments and industrial applications of cold crucible melting that an inten...
It is well known from experiments and industrial applications of cold crucible melting that an inten...
The aim of this article is to demonstrate the capability of the software for predicting free-surface...
We present practical modelling techniques for electromagnetically agitated liquid metal flows involv...
Different industrial induction melting processes involve free surface and melt-solid interface of th...
© 2016 IEEE. This paper simulates the melting process and liquid titanium droplet formation in elect...
There are many processes, particularly in the nuclear and metals processing industries, where electr...
The physics of the interaction between a liquid metals and an externally applied magnetic field is a...
This work presents computation analysis of levitated liquid thermal and flow fields with free surfac...
Abstract: This paper describes a numerical solution method for the simulation of a cold crucible ind...
In semilevitation melting, a cylindrical metal ingot is melted by a coaxial a.c. induction coil. A w...
Magnetic fields are used in a number of processes related to the extraction of metals, production of...
We study analytically the shaping of liquid metal drops using time-dependent magnetic fields. We con...
All titanium alloys are highly reactive in the molten condition and so are usually melted in a water...
A number of different methods have been developed for noncontact electromagnetic treatment of liquid...
It is well known from experiments and industrial applications of cold crucible melting that an inten...
It is well known from experiments and industrial applications of cold crucible melting that an inten...
The aim of this article is to demonstrate the capability of the software for predicting free-surface...
We present practical modelling techniques for electromagnetically agitated liquid metal flows involv...
Different industrial induction melting processes involve free surface and melt-solid interface of th...
© 2016 IEEE. This paper simulates the melting process and liquid titanium droplet formation in elect...
There are many processes, particularly in the nuclear and metals processing industries, where electr...
The physics of the interaction between a liquid metals and an externally applied magnetic field is a...
This work presents computation analysis of levitated liquid thermal and flow fields with free surfac...
Abstract: This paper describes a numerical solution method for the simulation of a cold crucible ind...
In semilevitation melting, a cylindrical metal ingot is melted by a coaxial a.c. induction coil. A w...
Magnetic fields are used in a number of processes related to the extraction of metals, production of...
We study analytically the shaping of liquid metal drops using time-dependent magnetic fields. We con...
All titanium alloys are highly reactive in the molten condition and so are usually melted in a water...