Fabricator 141i – Tweco 141i Fabricator User Manual

Fabricator 141i

BASIC WELDING GUIDE

4-14

Manual 0-5145

Striking the Arc
Practice this on a piece of scrap plate before going on to more exacting work. You may at first experience difficulty

due to the tip of the electrode "sticking" to the work piece. This is caused by making too heavy a contact with the

work and failing to withdraw the electrode quickly enough. A low amperage will accentuate it. This freezing-on of

the tip may be overcome by scratching the electrode along the plate surface in the same way as a match is struck.

As soon as the arc is established, maintain a 1/16"(1.6mm) to 1/8"(3.2mm) gap between the burning electrode

end and the parent metal. Draw the electrode slowly along as it melts down.
Another difficulty you may meet is the tendency, after the arc is struck, to withdraw the electrode so far that the

arc is broken again. A little practice will soon remedy both of these faults.

Art # A-10368

1/16" (1.6mm)

Figure 4-20: Striking an Arc

Arc Length
The securing of an arc length necessary to produce a neat weld soon becomes almost automatic. You will find

that a long arc produces more heat. A very long arc produces a crackling or spluttering noise and the weld metal

comes across in large, irregular blobs. The weld bead is flattened and spatter increases. A short arc is essential

if a high quality weld is to be obtained although if it is too short there is the danger of it being blanketed by slag

and the electrode tip being solidified in. If this should happen, give the electrode a quick twist back over the weld

to detach it. Contact or "touch-weld" electrodes such as E7014 Stick electrodes do not stick in this way, and make

welding much easier.
Rate of Travel
After the arc is struck, your next concern is to maintain it, and this requires moving the electrode tip towards the

molten pool at the same rate as it is melting away. At the same time, the electrode has to move along the plate to

form a bead. The electrode is directed at the weld pool at about 20º from the vertical. The rate of travel has to be

adjusted so that a well-formed bead is produced.
If the travel is too fast, the bead will be narrow and strung out and may even be broken up into individual globules.

If the travel is too slow, the weld metal piles up and the bead will be too large.
Making Welded Joints
Having attained some skill in the handling of an electrode, you will be ready to go on to make up welded joints.

A. Butt Welds

Set up two plates with their edges parallel, as shown in Figure 4-21, allowing 1/16"(1.6mm) to 3/32"(2.4mm)

gap between them and tack weld at both ends. This is to prevent contraction stresses from the cooling weld

metal pulling the plates out of alignment. Plates thicker than 1/4" (6.4mm) should have their mating edges

beveled to form a 70º to 90º included angle. This allows full penetration of the weld metal to the root. Using

a 1/8"(3.2mm) E7014 Stick electrode at 100 amps, deposit a run of weld metal on the bottom of the joint.

Do not weave the electrode, but maintain a steady rate of travel along the joint sufficient to produce a well-

formed bead. At first you may notice a tendency for undercut to form, but keeping the arc length short, the

angle of the electrode at about 20º from vertical, and the rate of travel not too fast, will help eliminate this.

The electrode needs to be moved along fast enough to prevent the slag pool from getting ahead of the arc.

To complete the joint in thin plate, turn the job over, clean the slag out of the back and deposit a similar weld.