Sponsons are projections extending from the sides of land vehicles, aircraft or watercraft to provide protection, stability, storage locations, mounting points for weapons or other devices, or equipment housing.
On watercraft, a sponson is a projection that extends outward (usually from the hull, but sometimes other parts of the vessel) to improve stability while floating, or to act as a securing point for other equipment. Vessels with unstable body shapes or unevenly distributed weight are likely to feature sponsons to help prevent capsizing or other instabilities. On many vessels, these projections from the main body of the vessel can be attached and removed quickly and fairly easily.
Canoes and kayaks sometimes feature sponson attachments as well, for stability in rough waters. These differ from outriggers, which extend a significant distance away from the body of the craft, and are employed on craft designed for open waters. A sponson's terminus is close to the craft, thereby allowing the boat to maneuver through more narrow spaces, and so is more likely to be used on smaller craft that still require maneuverability through narrow passages.
The block type is the simplest type. The leading end is usually rounded or pointed for reduced drag. "Its main function is to provide additional lift on the back of the hull, mostly during acceleration. It can also help provide better side-to-side stability at speed and reduce porpoising by providing a bit more hull surface at the rear of the craft."
Winged or hooked sponsons are the most common type. In addition to added lift during acceleration, better side-to-side stability, and reduced porpoising, they provide improved handling. "The outside edge provides grip in turns, allowing you to turn sharper and faster without fear of the back end sliding out. They can also provide a pivot point for the hull in turns." One of the most overlooked benefits of this type of sponson is that riders can lean into turns more, making watercraft easier to push to their limits.
Paddle or rudder-type sponsons, which use a flat paddle-shaped rudder attached vertically to a block-type sponson, do essentially the same thing, but the effect can be even more dramatic, because the flat paddle or rudder portion of the sponson provides a sharper and more pronounced edge to catch the water.
On flying boats—as first patented by Claudius Dornier and first used on the Kaiserliche Marine's German World War I flying boat, the Zeppelin-Lindau Rs.IV—a sponson can help extend the hull higher in the water, reducing drag and providing additional lift when the plane is taking off. Helicopters may also feature one or more sponsons, and though most helicopters are not designed to land in or take off from water, these safety features are important should the aircraft crash land in water. Sponsons on a helicopter can also store fuel or landing gear, e.g., Sikorsky S-92 and Bell 222. When mounted on aircraft, they must be adjusted properly for aerodynamics when the aircraft is in flight; if they are not adjusted properly, the aircraft might become unstable or damage to the aircraft might occur.
On land vessels, such as tanks or other military vehicles, and on naval warships, a sponson may refer to a mounting or enclosure projecting from the side or top of the structure/hull that is not used for buoyancy, but for armaments such as machine guns, or for purposes of visibility. It can be used for storage as well as a transport platform for people entering or leaving the vehicle. It may also provide layers of bulletproof protection and storage space, as found over the tracks of the Bradley Fighting Vehicle.
- "What is a Sponson?". wiseGeek. Retrieved October 6, 2016.
- Johnson, Joel (August 25, 2000). "Wing and a Prayer". boats.com. Dominion Marine Media. Retrieved October 6, 2016.
- "The (German) Dornier "Giant Flying-Boat"". flightglobal.com. Flight Global. September 18, 1919. Retrieved March 28, 2017.
- "Some Dornier 'Milestones'—The Do. Rs. IV, 1917–18". flightglobal.com. Flight Global. December 23, 1920. Retrieved March 28, 2017.