Electron Beam Welding Ebw

The kinetic energy of each electron is given by mv 2 but v that is the electron velocity is proportional to the square root of the accelerating volt age so the energy of each electron is proportional to the accelerating voltage.

Electron beam welding ebw.

Ebw is often performed under vacuum conditions to prevent dissipation of the electron beam. Electron beam welding ebw is a method of welding in which the energy required to melt the area to be welded is provided by a focussed stream of electrons. The process develops energy by bombarding the work piece with a focused beam of high velocity electrons. The reputation of electron beam welding llc for excellence and competence remains the cornerstone for continued growth.

The higher the vacuum the less amount of contamination and residual gasses will be present when the welding occurs. Electron beam welding ebw is a fusion welding in which coalescence is produced by heating the workpiece due to impingement of the concentrated electron beam of high kinetic energy on the workpiece. Electron beam welding ebw is a fusion welding process in which a beam of high velocity electrons is applied to two materials to be joined. Electron beam welding must occur in a vacuum because air molecules interfere with the propagation of the electron beam.

Electron beam welding emerged as a production process in the late 1950s within the aerospace and nuclear power generation industries. A leading edge electron beam welding company since 1966 we partner with our customers to provide high performance quality results. Electron beam welding ebw is another focused beam welding process. High power electron beam systems for welding and drilling are used in the aerospace automotive defense semiconductor medical nuclear oil gas power generationand a variety of other industries.

Around the world automobiles on the road have components that were manufactured using eb welding. The pd in watts per unit area is obtained by the following equation. Today s aircraft have components that were manufactured using eb welding. The vacuum level makes a difference in the quality of the weld.

The workpieces melt and flow together as the kinetic energy of the electrons is transformed into heat upon impact. The power density pd defines the process s ability to develop enough heat for welding. To impinge on the weld joint and produce coalescence ebw utilizes a moving concentrated beam of high velocity electrons while lbw utilizes the heat from a high density coherent laser beam.