Chapter
1
Introduction
1.1 Overview
The EBE-1 uses electron bombardment to produce intense localised heating. Rods
and/or small crucibles may be heated in this way. They are placed inside a ring filament
at ground potential. Electrons from the incandescent filament are attracted towards
the rod or crucible, which is held at high positive potential and must be electrically con-
ducting. By accelerating the electrons to 2 kV and allowing the emission of up to 200
mA of electron current, a total heating power of up to 400 W may be delivered into a
very small area creating extremely high power densities and allowing temperatures in
excess of 3500
o
C to be reached. Material evaporated in rod form may be fed continu-
ously into the e-beam heating zone as it evaporates away. Lengths of up to 50 mm may
be evaporated.
1.2 Rods and Crucibles
Materials which are electrically conducting and develop a useful vapour pressure before
melting may be evaporated directly from their rod form. Perfect examples of such ma-
terials are chromium and carbon which both sublime as the temperature is increased, as
well as many refractory metals such as molybdenum and tungsten which develop use-
fully high vapour pressures before melting.
Materials which melt before reaching high enough evaporation temperatures will ball-
up on the end of the rod before eventually dripping off the rod. This balling effect can
be controlled in some borderline materials such as silicon where use of a 4 mm or 5 mm
1
Содержание EBE-1
Страница 1: ...EBE 1 Electron Beam Evaporator 1 11...
Страница 8: ...Inspection 4 EBE 1...
Страница 22: ...Operation 18 EBE 1...
Страница 28: ...Drawings 24 EBE 1 Figure 4 Evaporator details...
Страница 30: ...List of Figures II EBE 1...
Страница 32: ...List of Tables IV EBE 1...