English, 5 cable for mma welding and return current cable, 6 the welding torch – Kemppi DC 3500W User Manual

8 / 1916110E / 9901

English

Welding

current

range

Elec-

trode

Gas nozzle

Gas

flow

rate

DC–

WC20

Argon

A

ø mm

number

ø mm

l / min

5...80

1,0

4/5

6,5/8,0

5...6

70...140

1,6

4/5/6

6,5/8,0/9,5

6...7

140...230

2,4

6/7

9,5/11,0

7...8

225...350

3,2

7/8

11,0/12,5

8...10

330...350

4,0

10

16

10...12

2.5 Cable for MMA welding and return

current cable

The welding cables have to be at least 16 mm

2

copper

cables for Mastertig AC/DC 1600 and 25 mm

2

copper

cables for Mastertig AC/DC 2500, Mastertig AC/DC

2500W and 50 mm

2

copper cables for Mastertig AC/

DC 3500W. Thinner cables will cause voltage losses

and heating.

Connect the grounding clight of the return cable care-

fully, preferably directly to the piece to be welded. Use

as short welding cables as possible. Unnecessarily long

cables will lower the maximum output voltage of the

machine. Coiling of the excess cable lowers the out-

put voltage of the machine especially in AC welding

and decreases the ignition spark.

Clean the fastening surface of any paint and rust!

2.6 The welding torch

In Mastertig AC/DC 1600 and Masterig AC/DC 2500,

only an gas-cooled torch can be used. In Mastertig AC/

DC 2500 W and -3500W, you can use either an gas-

cooled or a water-cooled torch. Make sure that the torch

you are using is designed for the maximum welding

current that you need.

Never use a damaged torch !

2.7 Electrodes to be welded

By the Mastertig AC/DC power sources you can use

all electrodes designed for DC or AC welding within

the current limits of the machine in question.

Mastertig AC/DC 2500, -2500W and -3500W power

sources is suitable for carbon arc gouging and cutting

according to its maximum power.

2.8 TIG DC– welding

DC– current is used typically when welding different

kind of steel. We rekommend for DC– welding a WC20

(grey) elctrode.

Sharpening of the electrode

The tip of the electrode is sharpened into a cone, so

that the arc becomes steady and the thermal energy is

concentrated on the spot being welded. The length of

the sharpening to the diameter of the electrode:

with small current sharp l = 3 x d

with large current blunt l = 1 x d

Choice of the electrode for DC welding. The table is

only given as a guide.

2.9 TIG AC welding

AC-current is typically used when welding aluminium.

We recommend for AC-welding a WC20 (grey) or a

clean wolfram electrode (green).

Balance

In AC-welding the ratio between the positive and neg-

ative half-cycle is called balance. With the balance you

can control heat between the electrode and work piece.

When balance is positive, it means that the positive

half-cycle is longer than the negative, more heat is

coming to the electrode than to the work piece. Corre-

spondingly when balance is negative, negative half-

cycles are longer, the work piece is hotter and the elec-

trode is colder. Mastertig AC/DC-machines have build-

in BALANCE-automatism, which chooses automatically

right balance value. User adjusts the BALANCE-knob

according to the electrode, and the machine takes care

of the balance control in different currents.
BALANCE automatics offers two benefits as com-

pared to a constant balance:

– In AC welding, you can use both a sharpened and

a rounded (cut) electrode. When welding starts,

the machine will round the cut tip so that its is suit-

able.

– The current-range of the electrode is extended: the

current of the lower end is lowered and the current

of the maximum end is increased.

With BALANCE automatics, you can use the position

for a sharpened electrode with a

narrower arc to obtain a narrower

seam and to a deeper penetration

than with a rounded electrode. A nar-

row seam is useful especially in fillet

welding.

When using a rounded electrode, the arc is broad and

the cleaning area of the arc is also

wider, so it can be used for end-to-

end seams and outer corners.

Reference max elecctrode diameters and yield

electrode type

yield

1600

2500,

2500W

3500W

Fe-rutile

95 %

ø 4

ø 5

ø 6

Fe-base

100 %

ø 4

ø 5

ø 6

Fe-high-yield

180 %

250-270 %

ø 2,5

- - -

ø 4
ø 4

ø 5
ø 5

Ss-rutile

- - -

ø 4

ø 6

ø 6

Ss-base

- - -

ø 4

ø 6

ø 6

Ss-high-yield

150 %

ø 3,25

ø 5

ø 6

Hard facing by

welding

100 %

ø 3,25

ø 5

ø 6

d

l