EN
DIGISTEEL
III
320C
/
DIGIPULS
III
320C
25
Waveform of speed short arc welding process
By eliminating the "globular" arc mode, which is characterized by heavy and sticky spatter and higher energy than the short arc, the
speed short arc enables to:
Reduce the amount of distortions at high welding currents in the typical "globular" welding range
Reduce the amount of spatter compared to the globular mode
Achieve good weld appearance
reduce smoke emissions compared with the usual modes (up to 25% less)
Achieve good rounded penetration
Enable welding in all positions
Note
: The CO
2
programmes automatically and exclusively use the “soft” short arc and do not enable access to the speed short arc.
The “dynamic” short arc is not suitable for CO
2
, welding due to arc instability.
NORMAL Pulsed MIG
Metal transfer in the arc takes place by detachment of droplets caused by current pulses. The microprocessor calculates all the Pulsed MIG
parameters for each wire speed, to ensure superior welding and striking results.
The advantages of pulsed Mig are :
Reduced distortions at high welding currents in the customary "globular" welding and spray arc ranges
Enables all welding positions
Excellent fusion of stainless steel and aluminium wires
Almost complete elimination of spatter and hence of finishing work
good bead appearance
Reduced smoke emissions compared with customary methods and even-speed short-arc (up to 50% less);
Pulsed
DIGISTEEL III 320C / DIGIPULS III 320C
programs for stainless steel eliminate the small spatter that may occur on thin sheets at very
low wire feed speeds. These "balls" are caused by slight spraying of the metal at the time of droplet detachment. The extent of this
phenomenon depends on the type and origin of the wires.
These programmes for stainless steel have undergone improvements for operation at low currents and increasing the flexibility of use for thin
sheet welding using Pulsed MIG method.
Excellent results for welding thin stainless steel sheets (1 mm) are obtained using the pulsed MIG method with Ø 1 mm wire in M12 or M11
shield (average 30A is acceptable).
The appearance of joints processed using,
DIGISTEEL III 320C / DIGIPULS III 320C
is of a quality comparable with that achieved by TIG
welding.
Summary of Contents for DIGIPULS III 320C
Page 17: ...EN DIGISTEEL III 320C DIGIPULS III 320C 17 ...
Page 18: ...EN 18 DIGISTEEL III 320C DIGIPULS III 320C Internal and inverter ...
Page 19: ...EN DIGISTEEL III 320C DIGIPULS III 320C 19 Front and rear ...
Page 23: ...EN DIGISTEEL III 320C DIGIPULS III 320C 23 5 7 ELECTRICAL DIAGRAM ...
Page 46: ...FR DIGISTEEL III 320C DIGIPULS III 320C 17 Capots ...
Page 47: ...FR 18 DIGISTEEL III 320C DIGIPULS III 320C Composants interne et onduleur ...
Page 48: ...FR DIGISTEEL III 320C DIGIPULS III 320C 19 Sous ensemble face avant arrière ...
Page 52: ...FR DIGISTEEL III 320C DIGIPULS III 320C 23 5 7 SCHEMA ELECTRIQUE ...
Page 75: ...ES DIGISTEEL III 320C DIGIPULS III 320C 17 ...
Page 76: ...ES 18 DIGISTEEL III 320C DIGIPULS III 320C Vista interna e inversor ...
Page 77: ...ES DIGISTEEL III 320C DIGIPULS III 320C 19 Vista delantera y trasera ...
Page 81: ...ES DIGISTEEL III 320C DIGIPULS III 320C 23 5 7 DIAGRAMA ELÉCTRICO ...
Page 104: ...IT DIGISTEEL III 320C DIGIPULS III 320C 17 ...
Page 105: ...IT 18 DIGISTEEL III 320C DIGIPULS III 320C Interno ed inverter ...
Page 106: ...IT DIGISTEEL III 320C DIGIPULS III 320C 19 Lato anteriore e posteriore ...
Page 110: ...IT DIGISTEEL III 320C DIGIPULS III 320C 23 5 7 SCHEMA ELETTRICO ...
Page 133: ...PT DIGISTEEL III 320C DIGIPULS III 320C 17 ...
Page 134: ...PT 18 DIGISTEEL III 320C DIGIPULS III 320C Interna e inversor ...
Page 135: ...PT DIGISTEEL III 320C DIGIPULS III 320C 19 Frente e traseira ...
Page 139: ...PT DIGISTEEL III 320C DIGIPULS III 320C 23 5 7 ESQUEMA ELÉTRICO ...
Page 162: ...NL DIGISTEEL III 320C DIGIPULS III 320C 17 ...
Page 163: ...NL 18 DIGISTEEL III 320C DIGIPULS III 320C Intern en omvormer ...
Page 164: ...NL DIGISTEEL III 320C DIGIPULS III 320C 19 Voor en achterkant ...
Page 168: ...NL DIGISTEEL III 320C DIGIPULS III 320C 23 5 7 BEDRADINGSSCHEMA ...
Page 191: ...RO DIGISTEEL III 320C DIGIPULS III 320C 17 ...
Page 192: ...RO 18 DIGISTEEL III 320C DIGIPULS III 320C Intern și invertor ...
Page 193: ...RO DIGISTEEL III 320C DIGIPULS III 320C 19 Față și spate ...
Page 197: ...RO DIGISTEEL III 320C DIGIPULS III 320C 23 5 7 SCHEMĂ ELECTRICĂ ...
Page 216: ...EL DIGISTEEL III 320C DIGIPULS III 320C 13 ...
Page 221: ...EL 18 DIGISTEEL III 320C DIGIPULS III 320C ...
Page 222: ...EL DIGISTEEL III 320C DIGIPULS III 320C 19 Εσωτερικό και αναστροφέας ...
Page 223: ...EL 20 DIGISTEEL III 320C DIGIPULS III 320C Εμπρός και πίσω ...
Page 227: ...EL 24 DIGISTEEL III 320C DIGIPULS III 320C 5 7 ΗΛΕΚΤΡΙΚΟ ΔΙΑΓΡΑΜΜΑ ...
Page 250: ...RU DIGISTEEL III 320C DIGIPULS III 320C 17 ...
Page 251: ...RU 18 DIGISTEEL III 320C DIGIPULS III 320C Внутренний и инвертер ...
Page 252: ...RU DIGISTEEL III 320C DIGIPULS III 320C 19 Передняя и задняя сторона ...
Page 256: ...RU DIGISTEEL III 320C DIGIPULS III 320C 23 5 7 ЭЛЕКТРИЧЕСКАЯ СХЕМА ...
Page 263: ...1 DVU W500 INDICE DATE MOTIF F GB 30 31 32 23 B A 10 1 1 2 11 21 22 24 25 ...