Carbon Steel Welding; Stainless Steel Welding; Aluminium Welding; Spot Welding - CEMONT BLUMIG 243C Betriebs-Wartungs Und Sicherheitsanleitung

EN
2. Select the welding current by means of switches (Ref. 11 -
Picture 3 Page 6.) ; bear in mind that the greater the welding
thickness, the more power is required. The first switch setting
is suitable for minimum thickness welding.Also take into ac-
count that each setting features a specific wire drive speed
which can be selected by means of adjustment knob (Ref. 4
- Picture 3 Page 6.).
FOR OPTIMAL WELDING, KEEP THE TORCH IN THE
SAME DIRECTION AS THE WIRE FEED, AS ILLUSTRA-
TED IN FIGURE.
7.2

CARBON STEEL WELDING

For MIG welding, proceed as follows:
1. Use a binary shielding gas (commonly a AR/CO2 mixture
with percentages ranging from 75-80% of Argon and from 20-
25% of CO2), or ternary mixtures such as AR/CO2/O2.
These gases provide welding heat and a uniform and com-
pact bead, although penetration is low. Use of carbon dioxide
(MAG) as a shielding gas achieves a thin and well-penetrat-
ed bead but ionisation of the gas may impair arc stability.
2. Use a wire feed of the same quality of that of the steel for
welding. Always use good quality wire; welding with rusty
wires can cause welding defects.
In general the applicable current range for wire use is:
- Ø wire mm x 100 = minimum Amps.
- Ø wire mm x 200 = minimum Amps.
Example: Ø filo 1.2 mm= minimum Amps 120 mm/maximum
Amps 240.
The above range is used with binary AR/CO2 gas mixtures
and with short-circuiting transfer (SHORT).
3. Do not weld parts where rust, oil or grease is present.
FAULT
UNEVEN LEVEL
EXCESS THICKNESS
INSUFFICIENT METAL
OXIDISED BEAD
INSUFFICIENT PENETRATION

MIG WELDING FAULTS

APPEARANCE CAUSE AND REMEDY
- Poor preparation.
- Align edges and hold during spot welding.
- No-load voltage or welding speed too low.
- Incorrect torch inclination.
- Wire diameter too large.
- Welding speed too high.
- Welding voltage too low for welding application.
- Weld in the channel if using a long arc.
- Regulate voltage.
- Wire is bent or over-protruding from the wire guide tube.
- Incorrect wire feed speed.
- Incorrect torch inclination.
- Irregular or insufficient distance.
- Wire guide tube worn.
- Wire speed too slow for voltage used or for welding speed.
4. Use a torch suited to welding current specifications
5. Periodically check that the earth clamp pads are not dam-
aged and that the welding cables (torch and earth) are not cut
or burnt which could impair efficiency.
7.3

STAINLESS STEEL WELDING

MIG Welding of 300 series (austenitic) stainless steel must be car-
ried out with a shielding gas that has a high Argon content and a
small percentage of O2 to stabilise the arc. The most commonly
used mixture is AR/O2 98/2.
- Never use CO2 or AR/CO2 mixtures.
- Never touch the wire.
The filler material used must be of a higher quality than the base
material and the welding zone must be completely clean.
7.4

ALUMINIUM WELDING

To MIG weld aluminium, use the following:
1. 100% Argon shielding gas.
2. Filler wire with a composition suited to the base welding ma-
terial. To weld ALUMAN and ANTICORODAL use 3-5% sili-
con wire. To weld PERALUMAN and ERGAL use 5%
magnesium wire.
3. Use a torch designed for aluminium welding.
7.5

SPOT WELDING

This type of welding is used for spot welding two overlapping
sheets, and requires the use of a special gas nozzle.
Fit the spot welding gas nozzle, press it against the piece to be
welded. Press the torch button; note that the welder will eventually
detach from the piece. This time period is fixed by the TIMER con-
trol (Ref. 5 - Picture 3 Page 6.) , and must be set depending on the
thickness of the material.
8.0 MIG WELDING FAULTS
FAULT CLASSIFICATION AND DESCRIPTION
MIG welds may be affected by various defects, which are impor-
tant to identify. These faults do not differ in form or nature from
those encountered during manual arc welding with coated elec-
trodes. The difference between the two applications lies rather in
the frequency of defects: porosity, for example, is more common
in MIG welding, while inclusion of slag is only encountered in
welding with coated electrodes.
The causes and prevention of faults are also quite different.
The following table illustrates the various faults.
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