Pulse on Pulse™ is a Lincoln process specifically
designed for use in welding relatively thin (less than
1/4" thick) aluminum (See the table below). It gives
weld beads with very consistent uniform ripple.

In Pulse on Pulse modes, two distinct pulse types are
used, instead of the single pulse type normally used in
GMAW-P. A number of high energy pulses are used to
obtain spray transfer and transfer metal across the arc.
Such pulses are shown in the figure below. After a
number "N" of such pulses, depending on the wire feed
speed used, an identical number "N" of low energy
pulses are performed. These low energy pulses,
shown in the figure below, do not transfer any filler
metal across the arc and help to cool the arc and keep
the heat input low.

The Peak Current, Background Current, and
Frequency are identical for the high energy and low
energy pulses. In addition to cooling the weld down,
the major effect of the low energy pulses is that they
form a weld ripple. Since they occur at very regular
time intervals, the weld bead obtained is very uniform
with a very consistent ripple pattern. In fact, the bead
has its best appearance if no oscillation of the welding
gun ("whipping") is used.(See the figure below)

When Arc Control is used in the Pulse on Pulse modes,
it does the same things it does in the other pulsed
modes: decreasing the Arc Control decreases the
droplet transfer and weld deposition rate. Increasing
the Arc Control increases the droplet transfer and weld
deposition rate. Since Arc Control varies weld droplet
transfer rate, the Arc Control can be used to vary the
ripple spacing in the weld bead.

BENEFITS OF PULSE ON PULSE FROM
LINCOLN ELECTRIC

• Excellent appearance of the weld bead

• Improved cleaning action

• Reduced porosity

Table B.2 shows WFS and Trim settings for common
aluminum types and wire sizes when welding with
Pulse-on-Pulse. The welds made to obtain the values
in the table were fillet welds in the flat position. The val-
ues in the table can be helpful as a starting point to
establish a welding procedure. From there, adjust-
ments need to be made to set the proper procedure for
each specific application (out-of-position, other types
of joints, etc.).

The comments on the table below show values of WFS
below which it is not recommended to weld. The rea-
son is, that below these values the weld transfer will
change from a spray arc to a short-arc, which is not
advisable when welding aluminum.

PEAK
AMPS

BACKGROUND
AMPS

TIME

HIGH HEAT
PULSES

LOW HEAT
PULSES

"N" PULSES

Aluminum 4043

Aluminum 5356

100% Ar.

E4043

E5356

0.035

3/64

0.035

3/64

14 ga.

250 / 0

200 / 0

230 / 0

225 / 0

10 ga.

400 / 0

280 / 0

425 / 0

400 / 0

3/16

550 / 0

340 / 0

670 / 0

500 / 0

1/4

600 / 0

400 / 0

700 / 0

550 / 0

WFS /

ARC CONTROL

MATERIAL

THICKNESS

MATERIAL

GAS

WIRE

WIRE SIZE

Not Recommended

below 200 WFS

COMMENTS

Not Recommended

below 200 WFS

Not Recommended

below 100 WFS

Not Recommended

below 200 WFS

WELDING PROCEDURES FOR PULSE-ON-PULSE

OPERATION

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