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- Electron_beam_technology abstract "Free electrons in vacuum can be influenced by electric and magnetic fields as to form a fine beam. At the spot of collision of the beam with the particles of the solid-state matter, most portion of the kinetic energy of electrons is transferred into heat. The main advantage of this method is the possibility of very fast local heating, which can be precisely electronically (computer) controlled. The high concentration of power in a small volume of matter, which can be reached in this way results in very fast increase of temperature in the spot of impact causing the melting or even evaporation of any material, depending on working conditions. This makes the electron beam an excellent tool in many applications.".
- Electron_beam_technology wikiPageID "758730".
- Electron_beam_technology wikiPageRevisionID "606016994".
- Electron_beam_technology hasPhotoCollection Electron_beam_technology.
- Electron_beam_technology subject Category:Electron_beam.
- Electron_beam_technology comment "Free electrons in vacuum can be influenced by electric and magnetic fields as to form a fine beam. At the spot of collision of the beam with the particles of the solid-state matter, most portion of the kinetic energy of electrons is transferred into heat. The main advantage of this method is the possibility of very fast local heating, which can be precisely electronically (computer) controlled.".
- Electron_beam_technology label "Electron beam technology".
- Electron_beam_technology sameAs m.038y1c.
- Electron_beam_technology sameAs Q5358163.
- Electron_beam_technology sameAs Q5358163.
- Electron_beam_technology wasDerivedFrom Electron_beam_technology?oldid=606016994.
- Electron_beam_technology isPrimaryTopicOf Electron_beam_technology.