Electron beam melting (EBM) process is a clean environment process where the heat required for vacuum melting and refinement of reactive, refractory and special metals/alloys is obtained from the impingement of high energy intense electron beam on the target surface. The major sub-systems of an EBM Machine consists of EB Gun Column, process chamber, crucible assembly, vacuum system, cooling water system, power supply and controls. The technology and knowhow of a 15 kV, 10 kW EBM Machine developed at Bhabha Atomic Research Centre is available for transfer to industry. It is suitable for melting refractory, reactive and specials metals/alloys such as Tungsten (W), Tantalum (Ta), Niobium (Nb), Titanium (Ti), Zirconium (Zr), Nb-Ti etc. under high vacuum environment and prepare buttons (up to 50 gm) and fingers (up to 150 gm) for metallurgical and mechanical studies.
Electron beam melting (EBM) process is a clean environment process where the heat required for vacuum melting and refinement of reactive, refractory and special metals/alloys is obtained from the impingement of high energy intense electron beam on the target surface. The major sub-systems of an EBM Machine consists of EB Gun Column, process chamber, crucible assembly, vacuum system, cooling water system, power supply and controls. The technology and knowhow of a 15 kV, 10 kW EBM Machine developed at Bhabha Atomic Research Centre is available for transfer to industry. It is suitable for melting refractory, reactive and specials metals/alloys such as Tungsten (W), Tantalum (Ta), Niobium (Nb), Titanium (Ti), Zirconium (Zr), Nb-Ti etc. under high vacuum environment and prepare buttons (up to 50 gm) and fingers (up to 150 gm) for metallurgical and mechanical studies.
Electron beam melting (EBM) process is a clean environment process where the heat required for vacuum melting and refinement of reactive, refractory and special metals/alloys is obtained from the impingement of high energy intense electron beam on the target surface. The major sub-systems of an EBM Machine consists of EB Gun Column, process chamber, crucible assembly, vacuum system, cooling water system, power supply and controls. Electrons generated by thermionic emission are accelerated and focused with the help of electric and magnetic fields in high vacuum to the metals/alloys placed in the crucible assembly. The technology and knowhow of a 15 kV, 10 kW EBM Machine developed at Bhabha Atomic Research Centre is available for transfer to industry. Indigenous manufactured machines costing nearly a third of the imported machines and could prove a cost effective solution to help the domestic industry and research institutions working in the field of new material and alloy development studies.
Electrons generated by thermionic emission in the EB gun are accelerated and focused with the help of electric and magnetic fields in high vacuum. The focused beam is directed towards the crucible assembly to melt and consolidate metals and alloys in the form of button mould or finger mould by controlling the accelerating voltage, beam current, focusing coil current, oscillation and deflection current. The major advantage of EB Melting is that the melting and refinement is carried out in vacuum environment and therefore most suitable for melting and refining of reactive and refractory metals and alloys.
