MIG consumables for MIG torch series
- December 3, 2018
ESAB brand Tweco has introduced the VELOCITY2 series of MIG consumables for the Spray Master, Classic Number and Supra SEHD series MIG torches.
The heavy duty nozzle uses a nozzle insert that is “keyed” into place and over moulded with a high temperature silicone compound, essentially producing a single part from two pieces; a copper shell crimped over the insert creates the final nozzle.
The conductor tube has three enhancements, starting with producing it from a single piece of copper with machined threads to securely hold the contact tip and nozzle in place. An O-ring prevents gas leakage in the event of a downstream obstruction, while adding a silicone sleeve over the copper tube minimizes radiant heat and improves impact resistance.
“The VELOCITY2 enhancements deliver unmatched performance through a more robust design, providing less downtime and more weld time,” says Jeff Henderson, global business manager for torches and exothermic cutting systems, ESAB. “VELOCITY2 directly addresses heat-related issues by reducing consumable count, improving thermal conductivity and lowering operating temperature. As a result, updated Velocity consumables stay cooler, last longer, produce a more stable weld puddle and improve overall productivity.”
VELOCITY2 consumables feature threadless, “drop-in-style” contact tips and integrate the contact tip seating area directly into the conductor tube. With medium and heavy duty VELOCITY2 consumables, the shielding gas flows from the conductor tube through four ports machined into the base of the contact tip. This simplified design eliminates the gas diffuser and enables the shielding gas to keep the tip up to 30 per cent cooler. By running cooler, VELOCITY2 MIG consumables extend parts life by up to 10 times in gas shielded flux cored, spray transfer and pulsed spray transfer applications. In short circuit MIG applications, VELOCITY2 consumables typically last two to three times longer than conventional consumables.
A cooler tip also reduces the ability for spatter to stick. The tip needs less cleaning, and any spatter that adheres is easier to remove. Further, spatter generally collects on one part, the nozzle, as opposed to three parts on conventional MIG front ends.
“The drop-in-style tip also eliminates the hassle associated with burn backs. There’s no need to use vice grips or welpers when the electrode fuses inside the tip,” adds Henderson.