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5-5. GMAW (MIG) Aluminum Welding Hints
Here are several hints to help you be more successful with your new aluminum feed system.
MIG welding aluminum requires different techniques than MIG welding mild steel.
A. Before You Start Welding
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The removal of lubricants from the aluminum base material may be necessary. Consult with your local welding
distributor for their recommendation on aluminum cleaners.
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Oxide removal should be done after degreasing. This should be done with a stainless steel wire brush. This can be
done with a hand wire brush or with a cup wire brush. If a power wire brush is used, keep the RPM's and pressures
low to reduce smearing the surface of the material, which could entrap oxides and impurities under the surface.
Always use a wire brush that is used only on aluminum to keep from contaminating the base material.
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Contact you local welding distributor or aluminum filler metal representative for recommendations on wire alloys
that fit your application. Know the alloy of your base aluminum and what conditions the finished part will be
subjected to. The two most readily available aluminum filler wires are ER4043 and ER5356.
B. Welding Techniques
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Make sure the welding power source is set up to weld DCEP (DC Electrode Positive).
For MIG welding aluminum you need to use a 10 to 15 degree push travel angle (tip and nozzle pointing in the
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direction of travel). See Figure 5-1.
Pulling or using a drag angle will produce porous, dirty welds due to a lack of gas coverage.
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The reflective heat and weld puddle that is present when MIG welding aluminum is very hot. Holding the tip closer
than 3/4 in. could lead to the wire burning back to the contact tip and other feeding problems.
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The most common shielding gas for MIG welding aluminum is 100% argon. Flow rates of 20 to 30 CFH [cubic feet
per hour (0.57 to 0.85 m
Side View Of Gun Tip Angle
10 -15
Direction Of Welding
Forehand (Push)
Technique
Figure 5-1. Gun Tip Angle
3
/hr)] are acceptable. C25 or argon CO
10 -15
Backhand (Drag)
Technique
shielding gases are not acceptable.
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OM-234 016 Page 39
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