06 mig (gmaw/fcaw) basic welding technique, Mig (gmaw/fcaw) basic welding technique -4, Transmig vaf4 – Tweco VAF4 Transmig User Manual

TRANSMIG VAF4

SERVICE

4-4

Manual 0-5231

NOTE

Once cause of error has been corrected then the power to the Wirefeeder must be turned OFF then ON

to reset and clear Error Code from the display.

Please follow Subsection 4.08 for more information regarding troubleshooting.

4.06 MIG (GMAW/FCAW) Basic Welding

Technique

Two different welding processes are covered in this

section (GMAW and FCAW), with the intention of pro-

viding the very basic concepts in using the Mig mode

of welding, where a MIG Torch is hand held, and the

electrode (welding wire) is fed into a weld puddle, and

the arc is shielded by an inert welding grade shielding

gas or inert welding grade shielding gas mixture.
GAS METAL ARC WELDING (GMAW): This process,

also known as MIG welding, CO2 welding, Micro Wire

Welding, short arc welding, dip transfer welding, wire

welding etc., is an electric arc welding process which

fuses together the parts to be welded by heating them

with an arc between a solid continuous, consumable

electrode and the work. Shielding is obtained from an

externally supplied welding grade shielding gas or weld-

ing grade shielding gas mixture. The process is normally

applied semi automatically; however the process may be

operated automatically and can be machine operated.

The process can be used to weld thin and fairly thick

steels, and some non-ferrous metals in all positions.

Art # A-8991_AB

Shielding Gas

Molten Weld Metal

Solidified

Weld Metal

Nozzle

Electrode

Arc

Base Metal

GMAW Process

Figure 4-1 GMAW Process

FLUX CORED ARC WELDING (FCAW): This is an electric

arc welding process which fuses together the parts to be

welded by heating them with an arc between a continu-

ous flux filled electrode wire and the work. Shielding is

obtained through decomposition of the flux within the

tubular wire. Additional shielding may or may not be

obtained from an externally supplied gas or gas mixture.

The process is normally applied semi automatically;

however the process may be applied automatically or

by machine. It is commonly used to weld large diameter

electrodes in the flat and horizontal position and small

electrode diameters in all positions. The process is

used to a lesser degree for welding stainless steel and

for overlay work.

Art # A-08992_AB

Molten

Slag

Nozzle

(Optional)

FCAW Process

Flux Cored

Electrode

Arc

Shielding Gas

(Optional)

Slag

Molten Metal

Base Metal

Solidified

Weld Metal

Figure 4-2 FCAW Process

Position of MIG Torch
The angle of MIG Torch to the weld has an effect on the

width of the weld.

Push

Vertical

Drag/Pull

Art # A-07185_AB

Figure 4-3 Position of MIG Torch

The MIG Torch should be held at an angle to the weld

joint. (See Secondary Adjustment Variables below)
Hold the MIG Torch so that the welding seam is viewed

at all times. Always wear the welding helmet with proper

filter lenses and use the proper safety equipment.

CAUTION

Do NOT pull the MIG Torch back when the

arc is established. This will create excessive

wire extension (stick-out) and make a very

poor weld.

The electrode wire is not energized until the MIG Torch

trigger switch is depressed. The wire may therefore be

placed on the seam or joint prior to lowering the helmet.