Sistemas de corte de metales por plasma inverter
PLASMA 36 COMPRESSOR PFC INVERTER
monofásico
P00481
PLASMA 36 COMPRESSOR PFC INVERTER
pestaña
PLASMA 30-16 PFC INVERTER
monofásico
P00479
PLASMA 30-16 PFC INVERTER
pestaña
PLASMA 51 PFC INVERTER
monofásico
P00482
PLASMA 51 PFC INVERTER
pestaña
PLASMA 46 COMPRESSOR INVERTER
monofásico
P00477
PLASMA 46 COMPRESSOR INVERTER
pestaña
PLASMA 57 COMPRESSOR INVERTER
trifásico
P00472
PLASMA 57 COMPRESSOR INVERTER
pestaña
PLASMA 77 HF INVERTER
trifásico
P00473
PLASMA 77 HF INVERTER
pestaña
PLASMA 735 LCD INVERTER
trifásico
P00455
PLASMA 735 LCD INVERTER
pestaña
THUNDER CUT 105
trifásico
THUNDER CUT 125
trifásico
PLASMA 1260 LCD INVERTER
trifásico
P00459
PLASMA 1260 LCD INVERTER
pestaña
PLASMA 1360 SYNERGIC LCD INVERTER
trifásico
P00441
PLASMA 1360 SYNERGIC LCD INVERTER
pestaña
PLASMA 1880 SYNERGIC LCD INVERTER
trifásico
P00461
PLASMA 1880 SYNERGIC LCD INVERTER
pestaña
PLASMA 1980 SYNERGIC LCD INVERTER
trifásico
P00462
PLASMA 1980 SYNERGIC LCD INVERTER
pestaña
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Plasma is an effective means of cutting steel and other metals (or sometimes other materials) of different thicknesses. Since plasma cutters produce a very hot and very localized "cone" to cut with, they are extremely useful for cutting sheet metal in curved or angled shapes.
In this process, an inert gas (in some units, compressed air) is blown at high speed out of a nozzle; at the same time an electrical arc is formed through that gas from the nozzle to the surface being cut, turning some of that gas to plasma. The plasma is sufficiently hot to melt the metal being cut and moves sufficiently fast to blow molten metal away from the cut.
To perform plasma cutting, the basic necessary equipment includes a power source; a plasma torch complete with consumables: electrode, diffusor, nozzle, nozzle holder, protection; a ground clamp and compressed air or a gas cylinder.