Transarc 130i – Tweco 130i Transarc Operating Manual User Manual

TRANSARC 130i

Manual 0-5283

4-9

BASIC WELDING GUIDE

B. Distribution of Stresses

Distortion may be reduced by selecting a welding sequence which will distribute the stresses suitably so

that they tend to cancel each other out. See Figures 4-20 through 4-23 for various weld sequences. Choice

of a suitable weld sequence is probably the most effective method of overcoming distortion, although an

unsuitable sequence may exaggerate it. Simultaneous welding of both sides of a joint by two welders is

often successful in eliminating distortion.

C. Restraint of Parts

Forcible restraint of the components being welded is often used to prevent distortion. Jigs, positions, and

tack welds are methods employed with this in view.

D. Presetting

It is possible in some cases to tell from past experience or to find by trial and error (or less frequently, to

calculate) how much distortion will take place in a given welded structure. By correct pre-setting of the

components to be welded, constructional stresses can be made to pull the parts into correct alignment.

A simple example is shown in Figure 4-21.

E. Preheating

Suitable preheating of parts of the structure other than the area to be welded can be sometimes used to

reduce distortion. Figure 4-22 shows a simple application. By removing the heating source from b and c as

soon as welding is completed, the sections b and c will contract at a similar rate, thus reducing distortion.

Art # A-07707

Figure 4-21: Principle of Presetting

Art # A-07708

B

Preheat

Preheat

Dotted lines show effect if no preheat is used

Weld

C

Figure 4-22: Reduction of Distortion by Preheating

Art # A-07709

Figure 4-23: Examples of Distortion