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finally adjust the current setting to suit
the application.
A. Butt Welds
Set up two plates with their edges parallel, as shown in
Figure 6-12, allowing 1.6mm to 2.4mm gap between
them and tack weld at both ends. This is to prevent
contraction stresses from the cooling weld metal
pulling the plates out of alignment. Plates thicker
than 6.0mm should have their mating edges bevelled
to form a 70° to 90° included angle. This allows full
penetration of the weld metal to the root. Using a
3.2mm Ferrocraft 21 electrode at 100 amps, deposit
a run of weld metal on the bottom of the joint.
Do not weave the electrode, but maintain a steady
rate of travel along the joint sufficient to produce a
well-formed bead. At first you may notice a tendency
for undercut to form, but keeping the arc length short,
the angle of the electrode at about 20° from vertical,
and the rate of travel not too fast, will help eliminate
this. The electrode needs to be moved along fast
enough to prevent the slag pool from getting ahead
of the arc. To complete the joint in thin plate, turn the
job over, clean the slag out of the back and deposit
a similar weld.
20°-30°
Electrode
Tack Weld
Figure 6-12: Butt weld
Figure 6-13: Weld build up sequence
Heavy plate will require several runs to complete the
joint. After completing the first run, chip the slag out
and clean the weld with a wire brush. It is important
to do this to prevent slag being trapped by the second
run. Subsequent runs are then deposited using either
a weave technique or single beads laid down in the
sequence shown in Figure 6-13. The width of weave
should not be more than three times the core wire
diameter of the electrode. When the joint is completely
filled, the back is either machined, ground or gouged
out to remove slag which may be trapped in the root,
and to prepare a suitable joint for depositing the
backing run. If a backing bar is used, it is not usually
Manual 0-5406
OPERATING MANUAL
necessary to remove this, since it serves a similar
purpose to the backing run in securing proper fusion
at the root of the weld.
B. Fillet Welds
These are welds of approximately triangular cross-
section made by depositing metal in the corner of
two faces meeting at right angles. Refer to Figure 6-5.
A piece of angle iron is a suitable specimen with
which to begin, or two lengths of strip steel may
be tacked together at right angles. Using a 3.2mm
Ferrocraft 21 electrode at 100 amps, position angle
iron with one leg horizontal and the other vertical.
This is known as a horizontal-vertical (HV) fillet.
Strike the arc and immediately bring the electrode to
a position perpendicular to the line of the fillet and
about 45° from the vertical. Some electrodes require
to be sloped about 20° away from the perpendicular
position to prevent slag from running ahead of the
weld. Refer to Figure 6-14. Do not attempt to build
up much larger than 6.4mm width with a 3.2mm
electrode, otherwise the weld metal tends to sag
towards the base, and undercut forms on the vertical
leg. Multi-runs can be made as shown in Figure 6-15.
Weaving in HV fillet welds is undesirable.
Tack Weld
Art # A-07697_AB
Figure 6-14: Electrode position for HV fillet weld
Art # A-07698
6-7
45° from
vertical
60° - 70° from line
of weld
6
3
5
2
4
1
Figure 6-15: Multi-runs in HV fillet weld
200HF
Art # A-07699_AB
Art # A-07700_AB
OPERATION
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