Specifications

3.5 Shielding Gas Selection

Brass With argon, the arc is stable and there is little smoke.

Cobalt-based alloys Argon provides a stable, easy-to-control arc.

Copper nickel (Monel) Argon gives a stable, easy-to-control arc. Also used for welding copper nickel

to steel.

Deoxidised copper Helium is preferred as it helps greatly in counteracting thermal conductivity of

copper.Amixtureof75%heliumand25%argon(AlushieldHeavy)producesa

stable arc, less heat than an arc produced with helium alone.

Nickel alloys

(Inconel)

Argon produces a very stable arc. Helium is recommended for automatic welding

at high speeds.

Mild steel For manual welding, argon is recommended. Successful welding depends on the

skill of the welder. Helium is preferred for:

•highspeedautomaticwelding

•wheredeeperpenetrationthanwithargonisrequired

•smallHAZ

Magnesium alloys Argon recommended with continuous high frequency AC. Produces good arc

stability and good cleaning action

0.5%Molybdenum Pure argon or helium is recommended. For good welding ductility, welding must

be carried out in a draught-free area.

Silicon bronze Argon decreases internal tension in base metal and in the weld since there is less

penetration with this gas compared to helium.

Stainless steel Argon is the most commonly used gas for stainless steel. Helium can be used if

better penetration is required.

Titanium alloys Argon produces a stable arc. Helium is recommended for high speed welding.