Common Joint Designs Of Gas Tungsten Arc Welding
Gas Tungsten Arc Welding (GTAW) is referred to in professional
circles as Tungsten Inert Gas (TIG) welding. This is an arc welding
process that uses a tungsten electrode to create the weld.
Learning the fundamentals of GTAW
will certainly enlarge the welder's work skills. Gas
tungsten arc welding (GTAW) is an electric
arc welding process that produces an arc between a
non-consumable electrode and the work to be welded.
To qualify as a GTAW welder, you
need to learn and gain proficiency in welding joints,
corners, and T (fillet). Each of these types call
for different considerations of GTAW and the welder
must understand the varying methods.
It is possible to configure all three joint types with mild steel, stainless steel, and aluminum - provided the special precautions for each type
of metal is followed.
As a common rule, before commencing welding on any joint of any material,clean the material properly and position the GTAW torch at a 70-degree
angle to the seam of the joint, with the filler metal at a 20-degree
angle to the joint. Make it a point to use a high-frequency start for
DC work on mild steel and stainless steel, and use continuous high frequency
for AC aluminum applications.
GTAW is capable of being used on both ferrous and nonferrous metals
and depending on the base metal, in all welding positions. When welding
thinner materials, edge joints, and flange, filler metals are not needed.
For thicker materials, however, an externally fed filler wire is generally
used. The type of filler metal wire to be used is based on the chemical
analysis of the base metal. The size of the filler metal wire varies
depending on the thickness of the base metal.
The procedure for welding butt joints
of carbon and stainless steel is they should be tack welded or skip
welded - weld an inch, move down several inches and weld another inch,
until you reach the end of the joint. Thereafter do the welding between
the existing welds. As aluminum does not distort as much as stainless
steel, the tacks can be placed farther apart maybe at three inches.
T joints, as we know, consist of two
pieces of material connecting each other at right angle. They need a
fillet weld and are widely seen in many fabrication of building industry.
T Joint in a tube requires a curved fillet weld as the connecting tube
contours to the curve of the cross-member of the T. For T joints,
you must place the weld on the same side of the joint where force against
the weld will be applied.
A corner joint consists of two pieces
of material joined to form an L shape. These are of two types. When
the edge of one piece lies flush against the edge of the other piece,
it is a closed corner joint. When two edges meet at their corners and
there is an opening then it is an open corner joint. You usually can
fusion weld a closed corner joint without adding filler metal. Open
corner welds however, needs filler metal.
It may be stated that there are many things in common
with regard to Corner, butt, and T Joints. But there also many
differences amongst them. There are five basic types of joints and they
are the butt joint, the corner joint, the edge joint,
the lap joint, and the tee joint. Of the five types of joint designs,
the butt and the tee joint are the most common.
Selecting welding variables depend on the base metal,
filler metal and joint configuration. The fixed welding variables include
filler metal, electrode type and size, the type of current, and the
type of shielding gas. Secondary variables include
work and travel angle and the distance the electrode extends beyond
the end of the cup.
Gaining competence in the fundamentals of the GTAW will qualify
the welder to produce quality welds. Having a good understanding
of the GTAW process will help the welder make wiser choices
of filler metals, welding
equipment, tungsten electrodes, and shielding gases.
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