A suggestion tip: If you are about to weld the full seam @ 3:09 on the top between the bigger block and the thinner hole plate, I would recommend adding a triangle cut in the support plate area so you don't accidentally weld the assembly to the fixture plate.
Technically oxygen assisted lasers are “burning” operations. The photons are used to heat the metal with friction and the oxygen accelerates the cut, creating plasma to remove the material. Nitrogen/inert gas shielded lasers are “cut” - the photons act like the teeth on a saw blade, physically removing the material, and the inert gas cools/shields the material to prevent the combustion/plasma front. This is why N2 laser cuts can meet tighter tolerances.
A suggestion tip: If you are about to weld the full seam @ 3:09 on the top between the bigger block and the thinner hole plate, I would recommend adding a triangle cut in the support plate area so you don't accidentally weld the assembly to the fixture plate.
Nice Video raymond, btw when to use vertical toggle clamp? why not always use horizontal toggle clamp? thx
@Sherwood Manufacturing Corporation ok got it sir
Se puede ver como funcionan los clamps en diversas posiciones
yes, the mounting blocks under the Toggle Clamps allow you use them in many different ways for welding fixtures.
holes with lasers are cutted. not burned out lol
Technically oxygen assisted lasers are “burning” operations. The photons are used to heat the metal with friction and the oxygen accelerates the cut, creating plasma to remove the material.
Nitrogen/inert gas shielded lasers are “cut” - the photons act like the teeth on a saw blade, physically removing the material, and the inert gas cools/shields the material to prevent the combustion/plasma front. This is why N2 laser cuts can meet tighter tolerances.