LEARNING
TO WELD
MIG (Metal Inert Gas) welding
is the process
of uniting
metallic
parts by heating and
allowing
the metals
to flow together
through
the use of an electrical
arc. The electrical
arc
is created
between
a continuous
consumable
wire electrode
(the welding
wire) and the
work piece. An inert shielding
gas is used to
protect
the weld puddle from contamination
and enhance
the welding
capabilities
of the
electrical
arc.
Whether
you have welded
before or not, it is
important
that you become
familiar with your
new welder,
its controls,
and the results
achieved
at different
settings.
We strongly
recommend
that you practice
with your new
welder
on scrap metal trying different
heat
settings,
base metal thicknesses,
and weld-
ing positions
for each type and size of wire
you will be using. By doing this you will gain
a feel for how changes
in these welding
variables
affect the weld.
Of course,
if you have not welded
before,
you will need to develop
welding
skills and
techniques
as well.
The self-taught
welder
learns through
a
process
of trial and error. The best way to
teach yourself
how to weld is with short
periods
of practice
at regular intervals.
All
practice
welds
should be done on scrap
metal that can be discarded.
Do not attempt
to make any repairs
on valuable
equipment
until you have satisfied
yourself
that your
practice
welds are of good appearance
and
free of slag or gas inclusions.
What you fail
to learn through
practice
will be learned
through
mistakes
and re-welds
later on.
HOLDING
THE
GUN
The best way to hold the welding
gun is the
way that feels most comfortable
to you.
While
practicing
to use your new welder,
experiment
holding
the gun in different
positions
until you find the one that seems
to
work best for you.
Position
the Gun to the Work Piece
There
are two angles
of the gun nozzle in
relation
to the work piece that must be con-
sidered
when welding.
14
1.
Angle A (Figure
7) can be varied, but in
most cases the optimum
angle will be 60
degrees.
The point at which the gun
handle is parallel to the work piece. If
angle A is increased,
penetration
will
increase.
If angle A is decreased,
penetration
will decrease
also.
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Figure
7. Gun Position,
Angle A
.
Angle B (Figure
8) can be varied for two
reasons:
to improve
the ability to see the
arc in relation
to the weld puddle and to
direct the force of the arc.
45 °
I
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Figure
8. Gun Position,
Angle B
The force of the welding
arc follows
a
straight
line out of the end of the nozzle.
If angle B is changed,
so will the direction
of
arc force and the point at which penetration
will be concentrated.
Qn a butt weld joint, the only reason to vary
angle B from perpendicular
(straight
up) to
the work piece would
be to improve
visibility
of the weld puddle.
In this case, angle B can
be varied
anywhere
from zero to 45 degrees
with 30 degrees
working
about the best.
On a fillet weld joint, the nozzle is generally
positioned
in such a manner
so as to split
the angle between
the horizontal
and vertical
members
of the weld joint. In most cases, a
fillet weld will be 45 degrees.
Distance
from the Work
Piece
The end of the welding
gun is designed
with
the contact
tip recessed
from the end of the
nozzle and the nozzle electrically
insulated