In
aeronautics,
canard (
French for
duck) is a type of
fixed-wing aircraft in which the
tailplane is ahead of the main
lifting surfaces, rather than behind them as in conventional aircraft. The earliest models, such as the
Santos-Dumont 14-bis, were seen by observers to resemble a flying duck — hence the name.
The term
canard has also come to mean the tail surface itself, when mounted in that configuration.
In English,
canard also means
hoax (but, in contemporary French usage, it means
newspaper as in
Le Canard Enchaîné). In the field of
computing, it has also
acquired the meaning of "confused and mistaken belief".
Canard aircraft characteristics
Advantages
Canards (just behind the flight deck) on the [[XB-70 Valkyrie research aircraft]]
The canard surface normally produces positive (upwards)
lift which adds to the overall lift, whereas a conventional tailplane normally produces a downforce, partially cancelling the lift from the main wings.
Careful design of a canard aircraft can make it effectively "stall-proof" - the canard surface
stalls first which tends to pitch the nose down and prevent the main
wing from stalling.
Canard designs can sometimes have a more useful range of centre of gravity.
Disadvantages
The wing operates in the downwash from the canard surface, which reduces its
efficiency.
It is often difficult to apply flaps to the wing in a canard design. Deploying flaps causes a large nose-down pitching moment, but in a conventional aeroplane this effect is considerably reduced by the increased downwash on the tailplane which produces a restoring nose-up pitching moment. With a canard design there is no tailplane to alleviate this effect. The Beech Starship attempted to overcome this problem with a swing-wing canard surface which swept forwards to counteract the effect of deploying flaps, but many canard designs have no flaps at all.
In order to achieve longitudinal stability, most canard designs feature a small canard surface operating at a high
lift coefficient (C
L), while the main wing, although much larger, operates at a much smaller C
L and never achieves its full lift potential.
Examples of canard aircraft
Aircraft that have successfully employed this configuration include:
Category:Aircraft configurations
Category:French phrases
de:Canard
pl:Kaczka (lotnictwo)