A few Plasma cutters tips: how to become a better welder and how to select the best welding equipment. For DCEN welding on steels, 1/16″ will work in the 20 to 100 amp rage as long as you prep it right. If you are using 20 amps, you will need a needle sharp point to get good crisp arc starts. At 100 amps, you might not want quite a needle sharp point or you might be putting a smidge of tungsten in the weld. You need a blunter taper. Some charts extend the range to 150 amps for 1/16, but I think that’s way too much. Why not just swap to a 3/32 at that amperage.? 3/32″ is good from about 65 – 200 amps. And 1/8″ 2% thoriated electrodes are good in the 85 – 300 amp range. ( Drop all these numbers by about 30% for A/C) Using helium mixed with the argon will also change the recommended currents because the arc is hotter with the same amps. These recommendations are from down and dirty experience and don’t come from a chart. Most charts I have seen tell you a 1/16 tungsten is good all the way to 150 amps…Please.
Use gas lens style collet bodies and cups to weld stainless steel: Use gas lens style collet bodies and cups to weld stainless steel. The screen in the gas lens allows far better gas coverage of your welds. You can use gas lenses to weld all materials is you want; they also allow you to stick your tungsten up to 1” out of the cup by increasing gas flow. Sometimes you need to extend it just to reach a tight spot. The screen diffuses gas at higher gas flow rates eliminating turbulence which is what you would get if you tried this without the gas lens. Too much gas is as bad as too little gas. (Especially for TIG welding aluminum) Typical gas flow rates are around 15 to 20 cfh. Bu it really depends on the nozzle/cup diameter. While I am on the subject, what do the numbers on TIG cups mean? I am glad you asked… A #4 means 4/16″ or 1/4″ A #7 means 7/16″. In other words the number cup means how large the inside diameter in 1/16’s. When you use a #4 cup remember to adjust the argon flow to around 10cfh. And the bigger the cup inside diameter, the more gas flow….to an extent.
Just about everyone who tries TIG welding feels challenged at first. This is understandable, given all the things you have to watch for and think about, while simultaneously coordinating the motion of both hands. In most cases, a foot pedal or torch-mounted amperage control will be used — for starting, modulating and stopping the flow of current. I have coached many people as they learn these skills, and I have received my share of questions over the years. Here are a few frequently asked questions — and answers — that should be helpful, particularly for beginning and intermediate welders.
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Contact tips can have a significant impact on MIG welding performance since this consumable is responsible for transferring the welding current to the wire as it passes through the bore, creating the arc. The position of the contact tip within the nozzle, referred to as the contact tip recess, is just as important. The correct contact recess position can reduce excessive spatter, porosity, insufficient penetration, and burn-through or warping on thinner materials. While the ideal contact tip recess position varies according to the application, a general rule of thumb is that as the current increases, the recess should also increase.