Introduction

Source: Department of the U.S. Army; © Encyclopædia Britannica, Inc.

In the broadest sense, ammunition includes any device used to carry a destructive force. Bullets, artillery shells, bombs, torpedoes, grenades, and explosive mines are all forms of ammunition. Rockets and guided missiles, particularly the small types, are sometimes considered ammunition.

The earliest ammunition probably consisted of thrown rocks. Prehistoric peoples later developed the bow and arrow and used slings to hurl rocks at prey or enemies. The first arrows were thin wooden shafts with stone arrowheads; later ones had metal arrowheads. The first slings used small, smooth stones. The ancient Phoenicians loaded their slings with molded lead pellets for greater range and deadlier force. The catapult and the ballista used huge rocks and large arrows or javelins as ammunition.

Development

Most forms of ammunition require a means of propelling the projectile to its target. Before the invention of gunpowder, propulsion came from the muscle energy of one or more people. A bow stored muscle energy until the string was released to shoot an arrow. Catapults and ballistas stored the muscle energy of several people to propel rocks. Gunpowder is a propellant that explodes, releasing chemical energy.

Early cannons fired projectiles made of stone, lead, iron, or bronze. The largest cannons shot stone projectiles because their barrels could not withstand the high internal pressure produced by firing heavy metal cannon balls. Through the years other kinds of projectiles were developed for artillery. These included canister and grapeshot, which were cases of small metal balls that could be loaded into a cannon as a single unit. The balls scattered after being fired, with lethal effect on enemy troops.

Crude explosive shells were developed by the 16th century. They consisted of hollow cannon balls filled with gunpowder plus a slow-burning fuze. A shell was fired after its fuze had been lit. During the 19th century, cast lead balls were replaced by bullet-shaped projectiles that provided greater range and accuracy.

In early firearms the gunpowder was ignited by fire. Gunsmiths later modified small arms and some cannons to use the sparks from flint or steel to ignite the powder. In the early 19th century, the development of primers in the form of percussion caps provided a more reliable method of igniting gunpowder. These caps consisted of a chemical, such as mercury fulminate or potassium chlorate, that exploded when struck by a gun hammer. The chemical was contained in capsules of metal, foil, or paper, similar to the paper caps used in modern toy pistols.

The next development was the self-contained cartridge, usually made of soft brass. The projectile of the cartridge was at one end, in front of the propellant, and the rear held the primer, where the firing pin could strike it. All small-arms ammunition soon used this design, which later was incorporated into shells for small and medium artillery. The self-contained cartridge made possible the invention of breech-loading, repeating firearms, and of rapid-firing weapons, such as the machine gun.

The final step in the development of modern ammunition was the invention of smokeless powder. The word smokeless can be misleading because modern gunpowder produces some smoke. However, it causes much less smoke than the old kind of powder, now often called black powder. It also creates a much greater explosive force and does not leave nearly as much solid residue in gun barrels.

Ammunition manufacturers have developed modern propellants from smokeless powder and have further reduced the amount of smoke and flash. Gunpowder has also been improved so that it keeps its explosive strength if unused and so that it does not explode unexpectedly.

Small-Arms Ammunition

Ammunition size for small arms—pistols, rifles, shotguns, and machine guns—is usually expressed in caliber, or the diameter of the projectile in millimeters or inches. The various types of small-arms ammunition are usually called bullets or cartridges. In much of this ammunition, the projectile is made of a lead alloy and encased in a thin jacket of a copper alloy or copper-coated steel. Some small-arms projectiles have cores made of a steel alloy.

Military forces use certain kinds of small-arms ammunition for special purposes. Armor-piercing bullets have cores of hardened steel or tungsten carbide to penetrate armor. Tracer bullets have a chemical in the base of the projectile that ignites when the shell is fired. The chemical leaves a visible trail by burning while the projectile is in flight. Incendiary bullets contain a chemical in the nose of the projectile that ignites inflammable materials.

Shotgun shells are made of plastic, and most contain more than one projectile, usually round lead pellets. Shells used to shoot birds and small game have tiny pellets measuring 2 to 4 millimeters (0.08 to 0.16 inch) wide. Shells for deer and other large game use buckshot up to 8.5 millimeters (0.34 inch) wide. Some shotgun shells contain solid slugs. (See also Firearms.)

Artillery Ammunition

Most modern artillery ammunition resembles small-arms ammunition, but many types contain a major additional component—the fuze, which is used to detonate explosive warheads. Small and medium artillery generally use fixed rounds, in which the projectile, propellant, and primer are in one container, as in the case of small-arms cartridges. In larger artillery, the projectile is loaded separately from the propellant and primer. A fixed round for large artillery would be too large and cumbersome for efficient loading. Loading the projectile separately has other advantages as well. The type of projectile can be chosen from a variety on hand, and the quantity of propellant can be varied according to the intended use.

Artillery shells with nuclear warheads were developed in 1953. The first projectiles had a caliber of 280 millimeters (11 inches) and weighed about 85 tons (77,000 kilograms). Smaller ones were subsequently developed for the United States Army, including one with a 155-millimeter (6-inch) caliber shell.

High-explosive artillery projectiles are designed for use against enemy troops. Their usefulness depends on the number, size, and velocity of the fragments produced when the shells explode. One type of projectile, developed by a 19th-century British officer named Henry Shrapnel, contains a number of small projectiles that are propelled by an explosive charge. The term shrapnel has come to be used for fragments of any kind from artillery shells or bombs.

A modern type of shrapnel shell uses thousands of small steel darts called flechettes. One form of flechette projectile includes an explosive charge that bursts, driving the flechettes in all directions. Another form of flechette projectile resembles a grapeshot or canister and releases the flechettes as the projectile leaves the cannon. (See also Artillery.)

The fuzes in modern ammunition are not armed, or activated, until the projectile, bomb, or missile has been launched. This feature makes fuzed ammunition safe to transport and use. Fuzes are armed in a variety of ways. Many types of artillery projectiles are armed by the force of acceleration when hurled from the cannon, or by the spinning created by the rifled barrel of the weapon. In many bombs, the fuzes are armed after they are dropped by the force of rushing air. The fuzes of explosive mines are usually armed manually. With many guided missiles, the fuzes are armed electronically after the missiles have traveled a safe distance from the launch site.

Various kinds of fuzes detonate in different ways. Impact fuzes, also called contact fuzes, detonate upon striking a solid object. Time fuzes detonate after a preset time has passed. Proximity fuzes detonate when an internal mechanism, such as a small radio transmitter, determines that the target is close enough to be damaged or destroyed. Such fuzes are most commonly used for antiaircraft shells because it is much more difficult for the projectile itself to hit an enemy plane than for exploding fragments to do so. Command fuzes detonate when they receive an electronic signal. More than one fuze may be used in a projectile or missile to assure detonation.

Rockets and Guided Missiles

Many rockets and guided missiles use explosive projectiles similar to those in artillery. Propellants for rockets and guided missiles may be liquid or solid. Solid propellants were first used by the ancient Chinese in fireworks. All rockets had solid propellants until the 20th-century invention of liquid types. Liquid propellants were developed for early guided missiles, and they provided much more propulsive force than any solid propellants known at that time.

New types of solid propellants have been introduced since World War II. They not only equal many liquid propellants in power but also are better for numerous purposes because their greater stability makes them easier to handle. Most kinds of guided missiles now have solid propellants, but some continue to use liquids. (See also Ballistics; Bomb; Guided Missile; Rocket.)

James R. McDonald