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Canister shot (or case-shot) is a kind of anti-personnel ammunition used in cannons. It was similar to the naval grapeshot, but fired smaller and more numerous balls, which did not have to punch through the wooden hull of a ship. Canister shot has been used since the advent of gunpowder-firing artillery in Western armies; however, canister (or case) shot saw particularly frequent use on land and at sea in the various wars of the 18th and 19th century.
Canister shot consists of a closed metal cylinder typically filled with round lead or iron balls, normally packed with sawdust to add more solidity and cohesion to the mass and to prevent the balls from crowding each other when the round was fired. At times when the supply of balls was limited, nails, scrap iron or lead, wire, and other similar metal objects were included. The canister itself was usually made of tin, often dipped in a lacquer of beeswax diluted with turpentine to prevent corrosion of the metal. Iron was substituted for tin for larger-calibre guns. The ends of the canister were closed with wooden or metal disks. Attached to the back of the metal canister was a cloth cartridge bag, which contained the round's gunpowder charge which was used to fire the canister from the gun barrel. A sabot of wood, metal, or similar material was used to help guide the round during firing from the cannon.
The projectile had been known since at least the 16th century and was known by various nicknames in the 17th century such as hailshot or partridge shot. Rounds recovered from Henry VIII's warship Mary Rose (sunk 1545) were wooden cylinders filled with broken flint flakes. When filled with rubbish or scrap (rather than round bullets) the round could be known as scrapshot or langrage. The defenders of The Alamo (1836) used old horseshoe nails and chopped up iron horseshoes to make their scrapshot. Various types of canister were devised for specific models of artillery field pieces. In 1753, the "secret howitzer", a special gun with an oval bore—intended to spread shot even wider—was briefly introduced into Russian service, but ultimately proved unsuccessful. The Royal Artillery Museum at Woolwich, London, holds examples of two early 18th century experimental French wide bore cannon - flattened tubes intended to scatter canister wide but in one horizontal plane.
When fired, the canister disintegrates and its shards and projectiles spread out in a conical formation, causing a wide swath of destruction. It was particularly effective during the Napoleonic Wars and the American Civil War, where massed troops at close range (usually less than 400 yards) could be broken up by artillery batteries firing canister. At times, particularly at very close range, artillery crews would fire extremely lethal "double canister," where two rounds were loaded into the gun tube and fired simultaneously using a single charge. At the Battle of Waterloo, in 1815, Mercer's Troop, Royal Horse Artillery, fired a roundshot and a canister from each gun as a double-shot. The roundshot was loaded first with the canister on top. Canister played a key role for Union forces during their defeat of Confederate troops assigned to support Pickett's Charge during the Battle of Gettysburg in July 1863 (see Field Artillery in the American Civil War for more information).
At times, trained artillerists would fire the canister shot towards the ground in front of advancing enemy troops, causing the conical pattern to flatten out as the balls ricocheted and skipped off the terrain. This in effect widened the killing zone. An example of this tactic was at the first day of Gettysburg, where Lt. James Stewart's Battery B, 2nd U.S. Artillery on Seminary Ridge skipped canister shot at Alfred M. Scales's approaching Confederate infantry, breaking up their attack and forcing them to take cover in a depression.
Canister shot was also used to good effect by U.S. Marine 37mm anti-tank guns in World War II to break up Japanese Banzai charges. During the Korean War United Nations tanks experienced close-range massed infantry attacks from Communist forces. As a consequence a canister-type tank round was introduced to 'sweep' enemy infantry off of friendly tanks without harming friendly tank crews, who were behind canister-proof armour. UK weapons known to have fielded a canister round are the 76mm and 105mm tank guns and the 120mm MOBAT and WOMBAT recoilless anti-tank guns.
The canister round is also known as a case (hence the alternative name of case shot sometimes used for canister shot) and is still used today in modern artillery, particularly in the main armament of tanks with smoothbore cannons. The effect is to turn a large-calibre gun on an armoured fighting vehicle into a giant shotgun. This can be used against enemy infantry even when in proximity to friendly armoured vehicles, as the projectiles do not penetrate armour. In addition it can be used to create entry points to buildings, reduce wire obstacles and clear heavy vegetation, as well as strike low flying aircraft and helicopters.
Shrapnel shell was developed from canister during the Napoleonic Wars and was intended to deliver the same canister effect, but at much longer-ranges. As a result its early designation was 'Spherical Case Shot'.
- Robert A. Simonsen, Marines Dodging Death: Sixty-Two Accounts of Close Calls in World War II McFarland and Company (2009), 15
- Rafael Steinberg and the Editors of Time Life Books, Island Fighting World War II, Time Life Books (Alexandria, Va., 1978), 29
- "The Abrams files". Army News (Australia). 15 June 2006. Retrieved 10 April 2011.
- Cole, Philip M., Civil War Artillery at Gettysburg, Da Capo Press, 2002, ISBN 0-306-81145-6.
|Wikimedia Commons has media related to Canister shot.|
- Tin Canister or Case Shot in the 18th Century
- Civilwarartillery.com; several detailed pages on specific types of canister
- American Revolution artillery webpage
- Mac Millan and Hylton, Hugh and Neal (2005). "Development of the M1028, 120mm Anti-Personnel Tank Round". US Army Armaments Research, Development & Engineering Center, slideshow presentation. General Dynamics – Ordnance and Tactical Systems. Retrieved 6 May 2012.