Drawoh...
CAUTION. I know what an 'air-bend' is!!!!! REALLY BAD sheet-metal bend-forming practice due to lack of the appropriate bend radius edge for the brake inner radius fingers. I fell short trying to get simple words to describe the process, so gave up for expediency... without using bad-words. Perhaps someone out-there can provide illustrations of proper brake--bending over an appropriately radiused edge; and of the jury-rigged'' air-bend' practice over a 'sharp-brake/clamp-edge' that has been backed-away from the ... gaaaag ... forgot the term... getting old...
NOTE.
In general the radius set-back is the same for 'guided brake forming around a true radius edge' as for an ‘air-bend brake form with a sharp radius'.
An old-sheet-metal-bender’s trick to eliminate need for a series of machined/precision brake-form edge radii [replaceable clamp-fingers with precision edge radii, various sizes] is as follows. This eliminates the need to make/accept garbage-quality 'air bends' and is economical even for small/low budget shops. The work-piece quality rises dramatically a the minor cost of being careful with the special sheet-metal radius sleeves, made/used as follows.
EXAMPLE...
Existing sheet metal brake- has an edge with a R0.016 bend radius... or an equivalent that was squared-off/deburred.
To make a R0.024 bend-edge: take a wide sheet of 6061-T4 0.008 thick sheet and bend-form it to nest tightly around the 0.016 fixed-radius edge. Leave this radius cuff in-place and bend the production sheet metal part around it for a tight/straight 0.024 inner BR.
To make a R0.032 bend-edge: take a wide sheet of 6061-T4 0.016 thick sheet and bend-form it to nest tightly around the 0.016 fixed-radius edge. Leave this radius cuff in-place and bend the production sheet metal part around it for a tight/straight 0.032 inner BR.
To make a R0.064 bend-edge: take a wide sheet of 6061-T4 0.032 thick sheet and bend-form it to nest tightly around the 0.032 radius edge created in the previous step. Leave these [2] radius cuffs in-place and bend the production sheet metal part around it for a tight/straight 0.064 inner BR.
To make a R0.096 bend-edge: take a wide sheet of 6061-T4 0.032 thick sheet and bend-form it to nest tightly around the 0.064 radius edge created in the previous step. Leave these [3] radius cuffs in-place and bend the production sheet metal part around it for a tight/straight 0.064 inner BR.
Etc...
NOTE. There with have to be obvious be clamp-height and off-set requirements to this kluged system that will limit use to relatively small radii. Reason for starting with precision machined fingers from the start [a few hundred-dollars per piece X length].
NOTE.
This trick works well for aluminum bending on a temporary basis... or when a really –odd BR is required. For longer-term production bending, substitute 3xx-1/8H CRES sheet for the 6061-T4 sheet, thicknesses noted. These sheet-stacks can be left as single/interchangeable... a few drops of light-weight oil between the BR cuff sheets helps them separate for smaller BRs cuff-stacks... and nest tightly with greater thickness stacks of cuffs for bigger BRs. OR these nested sheet-stacks can be can be spot-welded or flush tack-riveted together to remain as permanent radius guide sets, specific Radii.
NOTE.
Precision radius bending of thin sheet metal is as much art as science. It was a required skill I had to learn to help my dad build simple sheet-metal parts for his Thorp T-18 in the 1960s.
Regards, Wil Taylor
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