Transcript GMAW or MIG

GMAW or MIG
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GAS METAL ARC WELDING or METAL
INERT GAS
GMAW DEFINED
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GMAW (also referred to as
Metallic Inert Gas –MIG). A
continuous consumable wire fed
automatically. The wire electrode
is consumed and becomes the filler
metal. Usually operates on DCEP.
Types of Metal Transfer
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Metal transfer occurs in two
ways.
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The filler metal comes in contact with the
molten puddle and melts off as in short
circuiting method.
Droplets of metal form and travel across
the arc as in Globular and Spray Transfer.
3 Methods of Metal Transfer
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Short Circuit GMAW (GMAW-S) –
Excellent for thin sections of metal. The
wire comes in contact with the molten
puddle and melts of at a rate of 20 to
200 times per second. This process is
good for all position welding. CO2
shielding gas is best for carbon and low
allows steels. Argon (75%) and CO2
(25%) is an acceptable mixture to help
minimize spatter. Helium (90%), Argon
(7-1/2%), and CO2 (2-1/2%) is best for
stainless steel.
3 Methods of Metal Transfer (cont.)
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Globular Transfer – Process is
similar to short circuit but the
current set higher. As a result,
droplets of molten metal are
transferred across the arc gap. This
process is not for all position
welding.
3 Methods of Metal Transfer (cont.)
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Spray Transfer – This happens when
the current and voltage are set higher
than those used for globular transfer.
Very fine droplets of metal are
transferred across the arc gap at a high
rate of speed. A high amount (min. of
90%) of argon gas is used. Small
amounts of Oxygen (2-5%) and or CO2
(up to 10%) are used for various
applications. Produces deep
penetration and is best in the flat or
horizontal position.
Advantages of the GMAW process:
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Shorter training time. Easier to learn
compared to other welding processes.
Narrower heat affected zone. Reduces
distortion in base metals.
High deposition rate (92-98%) of the welding
wire is consumed.
Weld on both ferrous and non-ferrous metals.
Good for production welding – less stopping
and starting as in SMAW.
Excellent for bridging gaps and misaligned
fit-ups.
Test question
Disadvantages of the GMAW
process.
– Prone to wind drafts. Wind or moving
air may displace shielding gas.
– Metal must be clean to insure proper
fusion.
– Requires accurate setting to insure
successful welds.
– Test question
Problems /Concerns with GMAW
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Porosity in the weld. Inadequate gas coverage or
contamination from base metal is two of the more
common reasons.
Cold Lapping. Excess filler metal on toes of weld
with a lack of fusion. Caused by wrong settings.
Bird nesting. A build-up of wire next to the feed roll
mechanism. Filler wire is unable to travel through the
liner to the contact tip. Probable causes are clogged
guide tube (s), dirty liner, or a damaged contact tip.
To prevent bird nesting, adjust the tightening screw on
the feed roll mechanism just tight enough to allow a
continuous flow of wire but loose enough to allow the
feed roll mechanism to slip if the wire were to become
bound up.
Bridging – Lack of fusion in the root of a weld.
Spatter build-up between the contact tip and the
nozzle which will result in the nozzle sticking to the
base metal if it comes in contact with it and the weld
process will stop.
Test Question
Filler Metals:
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Come in a variety of sizes, .025” to
5/32” are the most common.
The filler metal must be compatible to
the base metal being welded.
Deoxidizers are added to filler metals
(ex.- silicon) to neutralize the
oxidization caused by using O2 or
CO2 in the shielding gasses.
Safety:
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SAFETY
Use full protective work clothing, i.e. leather jacket,
helmet, gloves, etc.
Weld in a shielded area to prevent “Flashes” to
others.
Always say cover before starting to weld.
Provide for good ventilation. Do not stand over the
flume. Use a respirator when possible.
Use a lens appropriate to the amperage being used.
High the amperage, the darker the lens.
Do not handle hot metal with gloves or get them wet.
The gloves will not insulate you from electricity if
they are wet.
Do not walk on the welding leads.
Do not weld on any metal that has a coating on it,
i.e. galvanized, paints, zinc, chrome, anodizing, etc.
Troubleshooting:
Possible reasons the wire does not feed
at the desired/constant rate;
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Tip is dirty or damaged.
Liner is clogged or damaged.
Guide tubes are dirty.
Wrong size rollers or wrong type.
Tension on feed roller system is too loose.
Wire is restricted from feeding off of the
spool (overlapped, tension too tight, spool is
bound up, etc.)
Setting up the GMAW equipment.
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Visual check of all equipment. Look for damage to
regulator and leads.
Open cylinder slowly all the way as it is a high
pressure cylinder.
Set regulator to 18-25 cubic feet per hour (CFH).
Use the chart provided by the manufacture (If a
chart is not provided, go to section XI. Below). Metal
thickness/ position/ weld requirements are factors in
determining which metal transfer process is selected.
Make sure metal is clean and prepped to insure a
quality weld.
Insure proper grounding.
Use trial and error method to determine proper
settings and get desired results.
Steps to shutting down the
GMAW process;
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Release / disengage the wire feed
roller system.
Turn off gas source.
Pull trigger and bleed gas.
Undial/ relieve the regulator.
Turn off machine and roll up leads.
Clean-up area and cool all metal.
Setting up the GMAW machine
without the aid of a chart.
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In the GMAW process, the Wire Feed Speed (WFS)
controls the amperage and the voltage is adjusted by
the voltage control. WFS may also be referred to as
Inches Per Minute (IPM) as well. When making
adjustment to the weld settings, it is recommended to
only change one variable (WFS or Voltage) at a time.
Pick a voltage setting (it may be easier to start with
a low setting and work your way up). As you weld, turn
the WFS up until you get the desired sound (smooth,
consistent sound with no popping). Look at the weld, if it
is too cold, turn the voltage up slightly. Run another
bead and adjust the WFS until you get the desired
sound. Look at the weld. Repeat the process until you
get the desired weld. This process may vary with the
metal transfer process you select. Experience and
continual testing of welds will help you determine the
characteristics of a quality weld.