Exothermic
Welding
The
Furseweld Exothermic Welding process is a simple, self-contained method of forming
high quality electrical connections. The compact process requires no external
power or heat
source, making it completely portable. Connections are made inside a
semi-permanent graphite mold using the high temperature
reaction of powdered copper oxide and aluminum.
Exothermic Welding Equipment and Accessories
Weld Powders
Furseweld
weld powders are contained in plastic cartridges, and are packed in plastic boxes of
10 or 20, depending on their size. Different joints require different powder
sizes, and the size
relates to the powder’s nominal weight in grams. The weld powder packaging also contains
retaining discs and starting powder. The retaining discs are contained in a separate bag within
the box. The starting powder is compacted into the bottom of the cartridge, underneath
the weld
powder, and is released by tapping the cartridge base firmly. Furseweld weld
powders are
suitable for making connections from copper to copper and from copper to steel.
Molds
Furseweld
graphite molds are dedicated to producing one type of connection. With care,
they
should be capable of producing up to 75 connections each. Mold size and
complexity
varies,
and is denoted by a price key, from one upwards. Each mold carries a tag which
gives the mold
part number, the weld powder size for use with the mold and the conductor sizes
for which it
is intended.
Handle Clamps
Handle
clamps provide a means of both handling the mold, and also of clamping the mold
halves together (or of clamping the mold to the surface to which a connection
is to be made).
Standard Tools
A flint
gun is required to start the reaction.
Cleaning tools for conductors, surfaces
and molds
include:
Cable
Brush - for cleaning cables and other circular conductors such as rods.
Mold
Scraper - for removing slag from the mold crucible, after firing.
Mold Brush
- for final mold cleaning.
File Card Brush - for cleaning conductors and
surfaces.
This is how it
works:
The Mold
(1) features a Crucible (2), a Tap Hole (3) and a Weld Cavity (4). The Conductors
(5) and (6) to be joined, are located in the Weld Cavity as shown, and the Mold
is closed. A
steel Retaining Disc (7) is located in the bottom of the crucible, to retain
the Weld Powder (8)
and Starting Powder (9) which are poured in on top. Ignited with a spark gun,
the starting
powder sets off an exothermic reaction in the weld powder, reducing it to
molten copper
alloy.
This instantaneously melts the retaining disc, and flows down the tap
hole, to the weld
cavity, where it partially melts the conductors, before cooling to leave a
fusion weld of great mechanical and electrical integrity.
2 comments:
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Exothermic welding is amazing! Its efficiency and reliability are unmatched, creating strong, durable bonds that last for years. It's revolutionizing electrical and grounding applications with its innovative approach. Keep up the great work!
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