Future Development

Preliminary investigation of metal melting in ICF ELTA

Abstract

Several problems of melting in the induction crucible furnaces are described. A short description of ICF ELTA program for simulation of electromagnetic and thermal parameters in these systems is given. The program was used at the initial stage of the development of new technological processes and the induction crucible furnaces. Preliminary results allowed to find a rational decision of an induction system, the required parameters of a refractory and a power supply. Non-conductive and graphite crucibles of the furnace were compared from electrical and economical points of view.  (Full text)

 p208

 

The problem of edge effect in continuous transfers flux inductor heaters (TFIH) is examined using a new problem oriented program based on a structure of ELTA program. This new program is designed to simulate distribution of power sources and temperature along the width and length of the workpiece in continuous TFIH system. In paper methods of calculation are described and the results of several case studies are presented. Main attention was paid to distribution of the power source and temperature along the width of thin strips from copper, aluminum, stainless steel and ferromagnetic steel.

Control System of Smart HF Power Supply Integrated with ELTA Program

Abstract

The control system of smart high frequency power supply for induction heating of titanium wire is presented. This system is intended for the use in the developments of FREAL&Co Ltd. A program of numerical calculation ELTA integrated in control system of the induction heating installation is described. ELTA calculates a temperature distribution in a cross-section of a cylindrical load taking into account the parameters exported from the power supply.  (Full text)

 p210

 

The problem of edge effect in continuous transfers flux inductor heaters (TFIH) is examined using a new problem oriented program based on a structure of ELTA program. This new program is designed to simulate distribution of power sources and temperature along the width and length of the workpiece in continuous TFIH system. In paper methods of calculation are described and the results of several case studies are presented. Main attention was paid to distribution of the power source and temperature along the width of thin strips from copper, aluminum, stainless steel and ferromagnetic steel.