"ttyymmnn" (ttyymmnn)
11/25/2019 at 12:35 • Filed to: wingspan, planes you've (probably) never heard of, Planelopnik
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"ttyymmnn" (ttyymmnn)
11/25/2019 at 12:35 • Filed to: wingspan, planes you've (probably) never heard of, Planelopnik | 5
| 7 |
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From the Planes You’ve (Probably) Never Heard Of Department of Wingspan , we bring you the North American P-51 Mustang FSW.
As crazy as it may seem, there was some serious thought given to building a version of the P-51 with a forward-swept wing AND a jet engine.
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From the Wright Flyer of 1903 through much of WWII, a period spanning about 40 years, aircraft were designed almost exclusively with straight or modified straight wings. Though early experiments in swept wings had taken place as far back as 1908, it wasn’t until German aerodynamicists tackled the problem of drag at high speeds that the idea of a swept wing really took off. But the Germans weren’t only working on wings swept backwards. They were also investigating wings with a forward sweep, notably with the !!!error: Indecipherable SUB-paragraph formatting!!! . Theoretical work on such wings was also taking place in other parts of the world.
The Ju 287 test aircraft. The main purpose of the wing placement on the 287 was for placement of the bomb bay at the aircraft’s center of gravity. (Top: USAF; Bottom: Author unknown)
A forward-swept wing, or FSW, has some particular benefits over a straight or “traditional” swept wing. Perhaps counterintuitively, an FSW provides the same reduction in drag as a traditional swept wing, and is more efficient by keeping the airflow confined to the wing. It also eliminates the problem of wingtip stall at slower speeds. However, FSWs can also experience dangerous flexing problems as the leading wingtips produce more or less lift than the rest of the wing. This flexing can lead to fluttering which then leads to departure, a fancy aeronautical engineering word for the wings ripping off of the airplane, which is less than ideal. To counter this, at least back in the 1940s, you had to make the wing heavier and stronger, thereby negating much of the aerodynamic advantage of the forward swept wing.
With an FSW, the fuselage of the aircraft acts as a giant wing fence to control the flow of air over the wings (NASA)
With the arrival of the operational jet engine near the end of WWII, designers raced to find an aircraft suitable for the new powerplant. Republic considered putting a jet engine in the !!!error: Indecipherable SUB-paragraph formatting!!! , and the Russians put a jet engine in the originally piston-powered !!!error: Indecipherable SUB-paragraph formatting!!! to produce the modestly successful !!!error: Indecipherable SUB-paragraph formatting!!! . But early jet engines were notoriously unreliable and untrusted. The stopgap solution was to make a mixed propulsion aircraft by pairing a new untrusted jet engine with a trustworthy and reliable piston engine. And what better plane to try it on than the remarkable Mustang? Oh, and while we’re at it, why not throw on some FSWs for good measure? And a tricycle landing gear.
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The idea was to put the latest !!!error: Indecipherable SUB-paragraph formatting!!! V-12 in the nose paired with a !!!error: Indecipherable SUB-paragraph formatting!!! (later called the J30), America’s first axial flow turbojet, in the rear. Forward-swept wings were added to the package in the hopes of super agility and maneuverability in aerial dogfights. The tricycle landing gear accommodated the jet exhaust at the rear. Though this ultimate Mustang was never built in full size, the arrangement was tested in wind tunnels. Tests showed that the benefits of maneuverability were there for the taking, but severe wing flutter meant that it was likely the wings would be sheared off the plane at high speed. Again, not good. The concept was sound, but the construction techniques and materials were still many years off, and the advantages of an FSW would not be fully realized until the arrival of composites and computer flight controls with the !!!error: Indecipherable SUB-paragraph formatting!!! , the world’s first FSW aircraft to break the sound barrier.
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More Mixed Propulsion
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If you enjoy these posts, please join in the conversation and let me know. If you missed an episode, you can find them all at !!!error: Indecipherable SUB-paragraph formatting!!! . Other aircraft also-rans can be found at !!!error: Indecipherable SUB-paragraph formatting!!! .
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Sources: !!!error: Indecipherable SUB-paragraph formatting!!! (NASA); !!!error: Indecipherable SUB-paragraph formatting!!! (Boeing)
Maxima Speed
> ttyymmnn
11/25/2019 at 12:52 |
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This is my favorite swept wing.
benn454
> ttyymmnn
11/25/2019 at 13:40 |
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I can’t help but imagine the pilot watching in horror as the wing waves goodbye and says
, “Welp, I’m done for the day. Good luck!”, as it “departs”.
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ttyymmnn
> benn454
11/25/2019 at 13:46 |
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https://oppositelock.kinja.com/whizzer-ii-1839727644
A different reason for departure, but departure nonetheless.
MrDakka
> Maxima Speed
11/25/2019 at 15:14 |
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Gotta work them obliques XD
Also DAMN YOU TRANSONIC AIRFLOW!!!
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benn454
> ttyymmnn
11/25/2019 at 16:30 |
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And decidedly less funny.
BoxerFanatic, troublesome iconoclast.
> ttyymmnn
11/25/2019 at 21:12 |
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It is certainly no Bugatti P100.
The wing sweep and fuselage to wing root transition is pretty stark.
Rusty Vandura - www.tinyurl.com/keepoppo
> ttyymmnn
11/25/2019 at 22:34 |
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Wing Departure: