A weld position table is generally flat and the work is clamped to it via hold-downs that fit in the slots in the table. We tack welded a hub to one for a job where we weld something that looks like a brake rotor (and will grind the tacks off and remove the hub for the next job). The threaded spindle on yours hopefully unscrews.
We have a slightly bigger positioner too, if you're wondering.
As a note (in simple terms), welding in this context can be thought of as using an arc to melt existing solid metal in two different parts into a liquid puddle which when cool makes the two parts have a continuous seam, essentially making the two parts one continuous part; the filler wire is used to replace the metal that is vaporized. Stacking dimes is...generally bad; a lot of stress is introduced with the heating/cooling/heating when burning back in/cooling/heating when burning back in/cooling process. As far as I know it started as a TIG thing for looks (not strength), possibly to imitate the pattern of robotic welders. A proper weld is to maintain a liquid puddle, melt new donor metal from each part into the puddle, roll impurities out of the weld, and cool "slowly" well behind the weld arc so a low-stress junction is created. The feed rate of the filler wire is adjusted to make up for the material loss and not have undercut. (Notice there's no "stacking dimes" involved, a proper weld is continuous.)
Part of the problem I encounter is people think more filler wire makes for a stronger weld, but the opposite is true. Welding wire has more strength and therefore generally more brittleness than the material being welded, so structurally there is a transition from softer more elastic material to the less elastic weld back to a softer more elastic material making the weld seam a weak point IF the weld is "too heavy." It therefore makes sense to use as little filler wire as necessary, which as far as I've seen is what welding manuals state in general (there are formulas for this, and welder experience, but the bottom line is good penetration and a smooth transition is way better than using filler wire as cake frosting). For an incredibly strong joint there is such a thing as a 100% bevel, welding one side, air-arcing out the other side until 100% penetration of weld is reached, welding the second side, needle-scaling the flux off the first side, then making further passes on each side. Pre-heating, post-heating, and stress relieving (including sub-critical temperature stress relieving for some materials) is also "a thing."
https://forum.millerwelds.com/forum/welding-discussions/24336-stack-of-dimes post #4
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