Wow - lot's of feedback for a simple introduction...
As to what I'm up to - I'm working on a aluminum semi-monocoque tailcone that bolts to a chromoly-steel tube framework for the forward fuselage. Similar to the way that the Mooney M20 or North American T-6 are built. The tailcone is 2024-T3 alclad sheet, over aluminum frames, riveted together. The steel tube is gas welded 4130.
Like most tailcone designs - it's almost all flat-wrap; meaning no compound curves are necessary. However at the front of the cone, the straight line of the tailcone bottom needs to curve up to meet the straight line of the fuselage floor aft of the wing. And at the same time the lower corner radius on the tailcone needs to come to a "close to square" corner where the frame attaches to the lower longerons. This means there's one part of the tailcone which isn't a developable surface.
BellyPanel1.jpg
I'm currently trying to figure out how to go about constructing this - considering that my metal shaping skills are rudimentary at best.
I'm designing in Rhino-4; and have used the advanced flattening tool to "Squish" the proposed surface down onto into 2-D. The tool indicates that most of the work is in stretching and some small areas requiring shrinking; about 3% elongation each way. You can adjust the analysis to have all stretch and no shrink - but the amount of elongation goes up. I don't know whether this is within the range of forming for 2024-T3 for .032 or .040 sheet thickness, or whether it will have to be 2024-O and heat treated afterward.
BellyPanelFlat.jpg
In any case I'm trying to figure out an appropriate technique to apply to the problem. A lower skill threshold would be preferable for a novice like me - a 7 year apprenticeship is probably not on the cards at this time of my life. So I'd love any pointers as to where best to to aim my research...