Portability and power supply matter as much as the process itself. A stick welder will run from a generator or a domestic supply in places a gas bottle can’t easily follow, while MIG and TIG set-ups need a gas cylinder and, for anything beyond light-gauge work, a heavier electrical supply. Workshop layout, the materials you weld most often, and how frequently the machine needs to travel are all worth weighing up before settling on one process.
Duty cycle is one of the most misunderstood figures on a welder’s spec sheet, yet it tells you more about real-world usability than the headline amperage does. It’s expressed as a percentage over a ten-minute period at a given output, so a machine rated at 30% duty cycle at its maximum amperage can run for three minutes out of every ten at that setting before it needs to rest and cool.
Cutting capacity is usually described in terms of clean cut and maximum cut thickness, and the two are worth distinguishing. Clean cut is the thickness a machine handles with a good edge finish and reasonable speed, while maximum cut is the thickest material the machine will get through at all, usually slower and with a rougher edge. Buying with your typical material thickness in mind, rather than the thickest job you might occasionally face, generally gives a better day-to-day result.
If you’re not sure which supply a particular machine needs or whether your workshop can support it, it’s a sensible question to put to a supplier before ordering, and the team at arc welding machines can talk through the options against your existing set-up.
A reliable, adequately sized compressed air supply is the part most first-time buyers underestimate. Undersized or contaminated air, whether from moisture, oil or an undersized compressor, is one of the most common causes of poor cut quality and shortened consumable life, so it’s worth checking a machine’s air requirements against what your compressor can actually deliver before you buy, not after.
The figure changes with output. Turn the amperage down and the duty cycle climbs, because the internal components are working less hard. This is why a welder can feel completely different in a busy production environment compared with occasional home workshop use: someone welding continuously through a shift needs a much higher duty cycle at their working amperage than someone doing short repair jobs a few times a week. It’s the kind of spec worth comparing properly across brands such as Kemppi and EWM, not just reading off the headline amperage figure.