Re: Cul de' Sacs and Taylorcrafts
You could do the same thing on the T-craft that Ford did with the Mustang and the Thunderbird, and VW did with the Beetle. A bigger, better, badder vehicle that was built with the visual styling cues to leave no doubt in the public's mind where the DNA came from.
My vision was a Wortmann or other efficient airfoil, and a composite molded fuselage about 10-15% bigger in the cabin, and a composite leaf spring landing gear. But still a 36 foot span, 5 foot chord, and the famous "pumpkin seed" fuselage shape. There's a Suzuki/Geo car engine conversion called "Raven Redrive" that makes 90 or 110 horsepower using a reliable belt drive and uses about 3 gallons of car gas an hour. The kicker is that the new carbon rod material called "Graphlite" would allow the airframe to be built at least 10-15% lighter with far greater strength. Commercial pre-preg skins are now commonplace AND FAA approved for transport category airplanes... the engineering and testing is all done.
Another kicker is that the new CNC modeling and machining ability can blast out a set of production molds in a day's time each or less. The "resin infusion" or "resin transfer" method saves at least 10-15% in resin costs (one of the big costs in composites) even further AND speeds up production. Basically all you'd have to do to become a little more cost competitive is make some kind of a deal with a large aerospace concern to buy their pre-preg materials at a discount for materials approaching the time-out date that they cannot use anymore.The Sparrowhawk glider is made this way I believe, and costs less than the equivalent European glider.
Sure it might cost the same $4-5 Mil in startup costs (although I truly believe less), but the final product would be less time/labor intensive to build. It would have better performance and appeal to American pilots who revere the classic airplanes of the past.
And of course... "having a CG Taylor inspired airplane without any involvement from Harry Ingram... PRICELESS!"
Originally posted by Ed O'Brien
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My vision was a Wortmann or other efficient airfoil, and a composite molded fuselage about 10-15% bigger in the cabin, and a composite leaf spring landing gear. But still a 36 foot span, 5 foot chord, and the famous "pumpkin seed" fuselage shape. There's a Suzuki/Geo car engine conversion called "Raven Redrive" that makes 90 or 110 horsepower using a reliable belt drive and uses about 3 gallons of car gas an hour. The kicker is that the new carbon rod material called "Graphlite" would allow the airframe to be built at least 10-15% lighter with far greater strength. Commercial pre-preg skins are now commonplace AND FAA approved for transport category airplanes... the engineering and testing is all done.
Another kicker is that the new CNC modeling and machining ability can blast out a set of production molds in a day's time each or less. The "resin infusion" or "resin transfer" method saves at least 10-15% in resin costs (one of the big costs in composites) even further AND speeds up production. Basically all you'd have to do to become a little more cost competitive is make some kind of a deal with a large aerospace concern to buy their pre-preg materials at a discount for materials approaching the time-out date that they cannot use anymore.The Sparrowhawk glider is made this way I believe, and costs less than the equivalent European glider.
Sure it might cost the same $4-5 Mil in startup costs (although I truly believe less), but the final product would be less time/labor intensive to build. It would have better performance and appeal to American pilots who revere the classic airplanes of the past.
And of course... "having a CG Taylor inspired airplane without any involvement from Harry Ingram... PRICELESS!"
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