That is true, however my point still stands. The force generated by the cutter is fairly constant through out the cut based on engagement. It's up to your own engineering insight whether or not your part/fixture combo has enough material being supported by vacuum around where the cutter will be at all times to counteract that force. The reason why corners lift in vacuum fixtures is b/c there is less square inches being affected by vacuum in that area (effectively 75% less).
Not sure I believe my gauge, but 30"Hg, which I don't think is possible using a venturi vacuum. I calculate holding force around 100lbs. Orings are a good point. The gasket slot is .0625 located at the wall of the fixture/part interface. The forked fingers was the challenge as there is no room for bend radius. Gasket was laser cut at .07" wide from a sheet of neoprene closed cell foam.
Yes, op-1 makes the profile for the fixture. The fingers are roughed out first to get the benefit of the existing carrier stock rigidity.
I have good luck using the .0625" foam core gasket cord you can get from mcmaster. Usually cut the groove .0625" wide .050" deep. That way you can make the groove whatever profile you want. 30" is hard to believe, a venturi setup is usually only good to around 26-27". My full blown vacuum pump struggles to get 29.5" If you can get away with not drilling all the way through the part and leave a .005-.008 floor that you can avoid having all the perforations. Then take a counter sink and poke it through the thin floor and debur it away.
Thank you
I'll look into down cut tooling, thanks