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6 Αυγ 2018 · This work presents the first step concerning the design of a very high temperature inductive furnace dedicated to the characterization of molten metals in the 1 600 K - 2 800 K temperature...
The coreless induction furnace is commonly used to melt all qualities of steels and irons as well as many non-ferrous alloys. The furnace is ultimate for re-melting and alloying because of the absolute control over temperature and chemistry. Refractory lined steel casing can be considered as the channel induction furnace comprising the molten ...
1 Μαρ 2015 · Isam M. Abdulbaqi at al. (2015) have done detailed analysis on design and implementation of an induction furnace. The design of a certain induction furnace for a certain application...
Induction heating fundamentals. Summary. Induction heating physical principles. Characteristics of the induction heating process. Physical parameters that affect induction heating. The. Examples: Heating of a magnetic billet. Choosing the frequency appropriate to the workpiece. Coil thickness as a function of frequency.
1 Αυγ 2011 · Induction furnaces are systems where the heat is generated by induced currents by the electromagnetic field. Every production cycle, the system generates 15% of by-products as slag.
An induction furnace consists of a nonconductive crucible holding the charge of metal to be melted, surrounded by a coil of copper wire. A powerful alternating current flows through the wire. The coil creates a rapidly reversing magnetic field that penetrates the metal.
The main task of the present work is to design and construct a coreless induction furnace. Many analytical methods could be applied to induction heating and melting problems.
