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A forward-swept wing is an aircraft wing configuration in which the
quarter-chord In aeronautics, the chord is an imaginary straight line joining the leading edge and trailing edge of an aerofoil. The chord length is the distance between the trailing edge and the point where the chord intersects the leading edge.L. J. Cla ...
line of the wing has a forward sweep. Typically, the leading edge also sweeps forward.


Characteristics

The forward-swept configuration has a number of characteristics which increase as the angle of sweep increases.


Main spar location

The rearward location of the main wing spar would lead to a more efficient interior arrangement with more usable space.


Inward spanwise flow

Air flowing over any
swept wing A swept wing is a wing that angles either backward or occasionally forward from its root rather than in a straight sideways direction. Swept wings have been flown since the pioneer days of aviation. Wing sweep at high speeds was first investigate ...
tends to move spanwise towards the rearmost end of the wing. On a rearward-swept wing this is outwards towards the tip, while on a forward-swept wing it is inwards towards the root. As a result, the dangerous tip stall condition of a rearward-swept design becomes a safer and more controllable root stall on a forward-swept design. This allows full
aileron An aileron (French for "little wing" or "fin") is a hinged flight control surface usually forming part of the trailing edge of each wing of a fixed-wing aircraft. Ailerons are used in pairs to control the aircraft in roll (or movement around ...
control despite loss of lift, and also means that drag-inducing leading edge slots or other devices are not required. With the air flowing inwards, wingtip vortices and the accompanying drag are reduced. Instead, the fuselage acts as a very large
wing fence Wing fences, also known as boundary layer fences and potential fences are fixed aerodynamic devices attached to aircraft wings. Often seen on swept-wing aircraft, wing fences are flat plates fixed to the upper surfaces parallel to the wing ch ...
and, since wings are generally larger at the root, this raises the maximum lift coefficient allowing a smaller wing. As a result, maneuverability is improved, especially at high angles of attack. At transonic speeds, shockwaves build up first at the root rather than the tip, again helping ensure effective aileron control.


Yaw instability

One problem with the forward-swept design is that when a swept wing yaws sideways (moves about its horizontal axis), one wing retreats while the other advances. On a forward-swept design, this reduces the sweep of the rearward wing, increasing its drag and pushing it further back, increasing the amount of yaw and leading to directional instability. This can lead to a
Dutch roll Dutch roll is a type of aircraft motion consisting of an out-of-phase combination of "tail-wagging" (yaw) and rocking from side to side (roll). This yaw-roll coupling is one of the basic flight dynamic modes (others include phugoid, short per ...
in reverse.Miller, J.; ''The X-Planes'', Speciality Press, Second Printing (1985), pp. 175–177.


Aeroelasticity

One of the drawbacks of forward swept wings is the increased chance of divergence, an aeroelastic consequence of lift force on forward swept wings twisting the tip upwards under increased lift. On a forward-swept design, this causes a positive feedback loop that increases the angle of incidence at the tip, increasing lift and inducing further deflection, resulting in yet more lift and additional changes in wing shape. The effect of divergence increases with speed. The maximum safe speed below which this does not happen is the divergence speed of the aircraft. Such an increase in tip lift under load causes the wing to tighten into turns and may result in a spiral dive from which recovery is not possible. In the worst case, the wing structure can be stressed to the point of failure. At large angles of sweep and high speeds, in order to build a structure stiff enough to resist deforming yet light enough to be practicable, advanced materials such as carbon fiber composites are required. Composites also allow
aeroelastic tailoring Aeroelastic tailoring is defined as "the embodiment of directional stiffness into an aircraft structural design to control aeroelastic deformation, static or dynamic, in such a fashion as to affect the aerodynamic and structural performance of that ...
by aligning fibers to influence the nature of deformation to a more favorable shape, impacting stall and other characteristics.


Stall characteristics

Any swept wing tends to be unstable in the stall, since the wing tips stalls first causing a pitch-up force worsening the stall and making recovery difficult. This effect is less significant with forward sweep because the rearward end carries greater lift and provides stability. However, if the aeroelastic bending is sufficient, it can counteract this tendency by increasing the angle of attack at the wing tips to such an extent that the tips stall first and one of the main characteristics of the design is lost, on a conventional wing the tips always stall first. Such a tip stall can be unpredictable, especially where one tip stalls before the other. Composite materials allow aeroelastic tailoring, so that as the wing approaches the stall it twists as it bends, so as to reduce the angle of attack at the tips. This ensures that the stall occurs at the wing root, making it more predictable and allowing the ailerons to retain full control.


History


Prewar studies

Belyaev, the author of the below mentioned DB-LK project, tested forward-swept wing gliders BP-2 and BP-3 in 1934 and 1935. Other prewar design studies included the Polish PWS Z-17, Z-18 and Z-47 "Sęp" series.


World War II and aftermath

Forward-swept wings designs, some whose design had begun during the prewar period, were developed during the Second World War, independently in Germany, Russia, Japan, and the US. An early example to fly, in 1940, was the Belyayev DB-LK, a twin-boom design with forward-swept outer wing sections and backwards-swept tips. It reportedly flew well. Belyayev's proposed Babochka research aircraft was cancelled following the German invasion. The American
Cornelius Mallard The Cornelius Mallard was a single-engined light aircraft of very unusual configuration, tailless and with a swept forward wing of variable incidence. It flew between 1943-4. Design and development The Mallard was the third aircraft type produce ...
flew on 18 August 1943. The Mallard was powered by a single engine, but it was followed by the
Cornelius XFG-1 The Cornelius XFG-1 was an American military fuel transporting towed glider, without a tailplane and with a forward-swept wing. Two were built but development ended in 1945. Design and development The Cornelius XFG-1, developed under the project ...
prototypes, which were flying fuel tanks, unpowered and designed for towing by larger aircraft. These Cornelius designs were unusual for being not only forward swept but also tailless. Meanwhile in Germany,
Hans Wocke Hans Wocke born August 2, 1908 in Danzig was a German airplane designer. He was the chief developer of Junkers (JFM AG) during World War II. One of Wocke's major work was the development of the Junkers Ju 287 wing design since autumn 1942. Wocke ...
was studying the problems of swept wings at the near-sonic speeds of which the new jet engines were capable. He recognised many of the advantages that forward sweep offered over the backwards-swept designs then being developed, and also understood the implications of aeroelastic bending and yaw instability. His first such design to fly was the Junkers Ju 287, on 16 August 1944. Flight tests on this and later variants confirmed the low-speed advantages but also soon revealed the expected problems, preventing high-speed trials. Wocke and the incomplete Ju 287 V3 prototype were captured and, in 1946, taken to Moscow where the aircraft was completed and flown the next year as the OKB-1 EF 131. The later
OKB-1 EF 140 The OKB-1 '140', (sometimes known as '001') was a jet bomber produced in the USSR from 1947. Development The '140' was a reconnaissance/bomber aircraft, derived from the OKB-1 EF 131 with Soviet turbojet engines. The initial version, a tactica ...
was essentially the same airframe re-engined with a pair of Mikulin-design Soviet jet engines of greater thrust. In 1948 the Soviet Union created the Tsybin LL-3. The prototype would subsequently have a great impact on the Sukhoi SYB-A, which was completed in 1982. When the German research reached the United States after the war, a number of proposals were put forward. These included the
Convair XB-53 The Convair XB-53 was a proposed jet-powered medium bomber aircraft, designed by Convair for the United States Army Air Forces. With a radical tailless, forward-swept wing design, the aircraft appeared futuristic; however, the project was can ...
supersonic bomber and forward-swept variants of the North American P-51 Mustang,
Bell X-1 The Bell X-1 (Bell Model 44) is a rocket engine–powered aircraft, designated originally as the XS-1, and was a joint National Advisory Committee for Aeronautics– U.S. Army Air Forces–U.S. Air Force supersonic research project built by Be ...
rocket plane and
Douglas D-558-I The Douglas Skystreak (D-558-1 or D-558-I) was an American single-engine jet research aircraft of the 1940s. It was designed in 1945 by the Douglas Aircraft Company for the U.S. Navy Bureau of Aeronautics, in conjunction with the National Advis ...
. The Bell proposal reached the wind tunnel testing stage, where the problems of aeroelasticity were confirmed. The structural problems confirmed by the Ju 287 series and the Bell X-1 studies proved so severe that the materials available at the time could not make a wing strong and stiff enough without also making it too heavy to be practical. As a result, forward sweep for high-speed designs was abandoned, until many years later when new structural materials would become available. Throughout World War II, numerous fighter, bomber, and other military aircraft can be described as having forward-swept wings, due to the average chord of their wings being forward-sweeping. However, these designs almost always utilized a rearward-swept leading edge, which would technically render them as high aspect ratio
trapezoidal wing In aeronautics, a trapezoidal wing is a straight-edged and tapered wing planform. It may have any aspect ratio and may or may not be swept.G. Dimitriadis; ''Aircraft Design'Lecture 2: Aerodynamics Université de Liège. (retrieved 30 November ...
s. The Nakajima Ki-43 is notable for being the only successful fighter aircraft with a truly forward-swept wing, although the forward sweep of its leading edge is nearly unnoticeable.


Postwar general aviation

Small amounts of sweep do not cause serious problems and even moderate forward sweep allows a significant aft movement of the main spar attachment point and carry-through structure. In 1954 Wocke returned to the German Democratic Republic, moving to West Germany shortly afterwards and joining Hamburger Flugzeugbau (HFB) as their chief designer. In Hamburg, Wocke completed work on the HFB 320 Hansa Jet business jet which flew in 1964. The forward sweep enabled the main spar to be moved aft behind the cabin so that the spar did not need to project into the cabin. Moderate forward sweep has been used for similar reasons in many designs, mainly sailplanes and light aircraft. Many high-wing training gliders with two seats in tandem have slightly forward-swept wings in order to enable the wing root to be located further aft to prevent the wing from obscuring the rear occupant's lateral visibility. Typical examples are the Schleicher ASK 13 and the Let Kunovice LET L-13 Blaník. Other examples include: * Cessna NGP, a prototype single-engine aircraft intended to eventually replace the Cessna 172 and Cessna 182. *
CZAW Parrot The CZAW Parrot, also called the CSA Parrot, is a Czech Republic, Czech light-sport aircraft that was designed and produced by Czech Aircraft Works, now Czech Sport Aircraft of Prague. The aircraft first flew on 15 June 2005 and, while it was a ...
*
Saab Safari Saab MFI-15 Safari, also known as the Saab MFI-17 Supporter, is a propeller-powered basic trainer aircraft used by several air forces. Development and design On 11 July 1969 Saab flew the prototype (SE-301) of a two/three-seat civil/military tra ...
, Bölkow Junior & ARV Super2 all have shoulder wings for increased visibility, necessitating forward-swept wings to maintain correct CofG. *
Scaled Composites Boomerang __NOTOC__ The Rutan Model 202 Boomerang is an aircraft designed and built by Burt Rutan. The design was intended to be a multi-engine aircraft that in the event of failure of a single engine would not become dangerously difficult to control due ...
, a prototype piston twin design which would allow for safe handling in the event of a single engine failure. *
SZD-9 Bocian The SZD-9 ''Bocian'' (Polish: "Stork") is a multi-purpose two-seat sailplane that was designed and built in Poland at ''Szybowcowy Zakład Doświadczalny'' (Glider Experimental Works) in Bielsko-Biała, beginning in 1952. It was designed to be ...
and PZL Bielsko SZD-50 Puchacz, multi-purpose two-seat sailplanes designed and built in Poland.


Fast jet

The large angles of sweep necessary for high-speed flight remained impractical for many years. In the late 1970s, DARPA began investigating the use of newer composite materials to avoid the problem of reduced divergence speed through aeroelastic tailoring. Fly-by-wire technology allowed for the design to be dynamically unstable and improved maneuverability. Grumman built two
X-29 The Grumman X-29 was an American experimental aircraft that tested a forward-swept wing, canard (aeronautics), canard control surfaces, and other novel aircraft technologies. The X-29 was developed by Grumman, and the two built were flown by N ...
technology demonstrators, first flying in 1984, with forward swept wings and canards. Maneuverable at high angles of attack, the X-29 remained controllable at a 67° angle of attack.NASA
"Dryden Fact Sheet - X-29"
Retrieved 22 August 2005.
Advances in thrust vectoring technology and a shift in air combat tactics toward medium range missile engagements decreased the relevance of a highly agile fighter aircraft. In 1997, Sukhoi introduced the
Su-47 The Sukhoi Su-47 ''Berkut'' (russian: Сухой Су-47 Беркут, translation=Golden Eagle) (NATO reporting name Firkin), also designated S-32 and S-37 (not to be confused with the twin-engined delta canard designButtler, Tony and Gordon, ...
fighter prototype at the Paris Air Show. It did not enter production, although it underwent a series of flight tests and performed at several
air show An air show (or airshow, air fair, air tattoo) is a public event where aircraft are exhibited. They often include aerobatics demonstrations, without they are called "static air shows" with aircraft parked on the ground. The largest air show m ...
s. The
KB SAT SR-10 The KB SAT SR-10 is a prototype Russian single-engine jet trainer aircraft, fitted with forward-swept wings. It first flew in 2015 and is being offered to the Russian Air Force and for export. Design and development The Russian design bureau K ...
is a prototype Russian single-engine jet trainer aircraft, fitted with forward-swept wings. It first flew in 2015.


In biology

Large-headed pterosaurs had forward swept wings in order to better balance in flight.https://qmro.qmul.ac.uk/xmlui/bitstream/handle/123456789/10947/Hone%20The%20wingtips%20of%20the%20pterosaurs%202015%20Accepted.pdf?sequence=1&isAllowed=y


See also

*
Sweep theory A swept wing is a wing that angles either backward or occasionally forward from its root rather than in a straight sideways direction. Swept wings have been flown since the pioneer days of aviation. Wing sweep at high speeds was first investigate ...
* Variable-sweep wing


References


Inline citations

{{Reflist


General references

* Miller, J.; ''The X-planes, X-1 to X-29'' (UK Edition), MCP, 1983, pp. 175–179. Wing configurations de:Pfeilung#Negative Pfeilung