7.5×55mm Swiss full metal jacket, armor piercing, and tracer, spitzer projectiles. The three bullets on the right show cannelure evolution
Schlieren image sequence of a bullet traveling in free-flight, demonstrating the air pressure dynamics surrounding the bullet

A bullet is a kinetic projectile, a component of firearm ammunition that is shot from a gun barrel. They are made of a variety of materials, such as copper, lead, steel, polymer, rubber and even wax; and are made in various shapes and constructions (depending on the intended applications), including specialized functions such as hunting, target shooting, training, and combat. Bullets are often tapered, making them more aerodynamic. Bullet size is expressed by weight and diameter (referred to as "caliber") in both imperial and metric measurement systems.[1] Bullets do not normally contain explosives[2] but strike or damage the intended target by transferring kinetic energy upon impact and penetration.

Description

The term bullet is from Early French, originating as the diminutive of the word boulle (boullet), which means "small ball".[3] Bullets are available singly (as in muzzle-loading and cap and ball firearms)[4] but are more often packaged with propellant as a cartridge ("round" of ammunition) consisting of the bullet (i.e., the projectile),[5] the case (which holds everything together), the propellant (which provides the majority of the energy to launch the projectile), and the primer (which ignites the propellant). Cartridges, in turn, may be held in a magazine or a belt (for rapid-fire automatic firearms). Although the word bullet is often used in colloquial language to refer to a cartridge round, a bullet is not a cartridge but rather a component of one.[6] This use of the term bullet (when intending to describe a cartridge) often leads to confusion when a cartridge and all its components are specifically being referenced.

The sound of gunfire (i.e. the "muzzle report") is often accompanied with a loud bullwhip-like crack as the supersonic bullet pierces through the air, creating a sonic boom. Bullet speeds at various stages of flight depend on intrinsic factors such as sectional density, aerodynamic profile and ballistic coefficient, as well as extrinsic factors such as barometric pressure, humidity, air temperature and wind speed.[7][8] Subsonic cartridges fire bullets slower than the speed of sound, so there are no sonic booms. This means that a subsonic cartridge, such as .45 ACP, can be substantially quieter than a supersonic cartridge, such as the .223 Remington, even without the use of a suppressor.[9]

Bullets shot by firearms can be used for target practice or to injure or kill animals or people. Death can be by blood loss or damage to vital organs, or even asphyxiation if blood enters the lungs. Bullets are not the only projectiles shot from firearm-like equipment: BBs are shot from BB guns, airsoft pellets are shot by airsoft guns, paintballs are shot by paintball markers, and small rocks can be hurtled from slingshots. There are also flare guns, potato guns (and spud guns), tasers, bean bag rounds, grenade launchers, flash bangs, tear gas, RPGs, and missile launchers.

Speed

Bullets used in many cartridges are fired at muzzle velocities faster than the speed of sound[10][11]—about 343 metres per second (1,130 ft/s) in dry air at 20 °C (68 °F)—and thus can travel substantial distances to their targets before any nearby observers hear the sound of the shots.

Rifle bullets, such as that of a Remington 223 firing lightweight varmint projectiles from a 24 inch barrel, leave the muzzle at speeds of up to 4,390 kilometres per hour (2,730 mph). A bullet from a 9 mm Luger handgun, reaches speeds of only 2,200 kilometres per hour (1,370 mph). Similarly, an AK-47, has a muzzle velocity of about 2,580 kilometres per hour (1,600 mph).[12]

History

Round shot from the 16th century Mary Rose English warship, showing both stone and iron ball shot

The first true gun evolved in China from the fire lance (a bamboo tube that fired porcelain shrapnel) with the invention of the metal hand cannon sometime around 1288, which the Yuan dynasty used to win a decisive victory against Mongolian rebels. The artillery cannon appeared in 1326 and the European hand cannon in 1364. Early projectiles were made of stone. Eventually it was discovered that stone would not penetrate stone fortifications, which led to the use of denser materials as projectiles. Hand cannon projectiles developed in a similar manner. The first recorded instance of a metal ball from a hand cannon penetrating armor was in 1425.[13] Shot retrieved from the wreck of the Mary Rose (sunk in 1545, raised in 1982) are of different sizes, and some are stone while others are cast iron.[14]

The development of the hand culverin and matchlock arquebus brought about the use of cast lead balls as projectiles. The original round musket ball was smaller than the bore of the barrel. At first it was loaded into the barrel just resting upon the powder. Later, some sort of material was used as a wadding between the ball and the powder as well as over the ball to keep it in place,[15] it held the bullet firmly in the barrel and against the powder. (Bullets not firmly set on the powder risked exploding the barrel, with the condition known as a "short start".)[16]

The loading of muskets was therefore easy with the old smooth-bore Brown Bess and similar military muskets. The original muzzle-loading rifle, however, was loaded with a piece of leather or cloth wrapped around the ball, to allow the ball to engage the grooves in the barrel. Loading was a bit more difficult, particularly when the bore of the barrel was fouled from previous firings. For this reason, and because rifles were not often fitted for bayonets, early rifles were rarely used for military purposes, compared to muskets.

Matchlock musket balls, alleged to have been discovered on the battlefield of Naseby (1645)

There was a distinct change in the shape and function of the bullet during the first half of the 19th century, although experiments with various types of elongated projectiles had been made in Britain, America and France from the first half of the 18th century onwards.[17][18] In 1816, Capt. George Reichenbach of the Bavarian army invented a rifled-wall musket using cylindro-conical ammunition.[19] In 1826, Henri-Gustave Delvigne, a French infantry officer, invented a breech with abrupt shoulders on which a spherical bullet was rammed down until it caught the rifling grooves. Delvigne's method, however, deformed the bullet and was inaccurate. In 1855, a detachment of 1st U.S. Dragoons, while on patrol, traded lead for gold bullets with Pima Indians along the California–Arizona border.[20][21]

Square bullets have origins that almost pre-date civilization and were used in slings. They were typically made out of copper or lead. The most notable use of square bullet designs was by James Puckle and Kyle Tunis who patented them, where they were briefly used in one version of the Puckle gun. The early use of these in the black-powder era was soon discontinued because of the irregular and unpredictable flight patterns.

Pointed bullets

Delvigne further developed cylindro-spherical (left) and cylindro-conical bullets (middle), which received the bullet grooves developed by Tamisier for stability

Delvigne continued to develop bullet design and by 1830 had started to develop cylindro-conical bullets. His bullet designs were improved by Francois Tamisier with the addition of "ball grooves" which are known as "cannelures", which moved the resistance of air behind the center of gravity of the bullet.[22] Tamisier also developed progressive rifling: the rifle grooves were deeper toward the breech, becoming shallower as they progressed toward the muzzle. This causes the bullet to be progressively molded into the grooves which increases range and accuracy.[23][24]

Before Tamisier's invention, the orientation of a cylindro-conical bullet tended to remain along its inertial axis, progressively setting it against its trajectory and increasingly meeting air resistance, which rendered the bullet's movement erratic.

Among the first pointed or "conical" bullets were those designed by Captain John Norton of the British Army in 1832. Norton's bullet had a hollow base made of lotus pith that on firing expanded under pressure to engage with a barrel's rifling.[25] The British Board of Ordnance rejected it because spherical bullets had been in use for the previous 300 years.[26] Renowned English gunsmith William Greener invented the Greener bullet in 1836. Greener fitted the hollow base of an oval bullet with a wooden plug that more reliably forced the base of the bullet to expand and catch the rifling. Tests proved that Greener's bullet was effective, but the military rejected it because, being two parts, they judged it as too complicated to produce.[27]

Minié ball ammunition

The carabine à tige, developed by Louis-Étienne de Thouvenin in 1844, was an improvement of Delvigne's design. The rifle barrel has a forcing plug in the breech of the barrel to mold the bullet into the rifling with the use of a special ramrod. While successful in increasing accuracy, it was difficult to clean.

1855 Minié ball design from the U.S. Arsenal, Harper's Ferry, West Virginia

The soft lead Minié ball was first introduced in 1847 by Claude-Étienne Minié, a captain in the French Army. It was another improvement of the work done by Delvigne. The bullet was conical in shape with a hollow cavity in the rear, which was fitted with a small iron cap instead of a wooden plug. When fired, the iron cap forced itself into the hollow cavity at the rear of the bullet, thus expanding the sides of the bullet to grip and engage the rifling. In 1851, the British adopted the Minié ball for their 702-inch Pattern 1851 Minié rifle. In 1855, James Burton, a machinist at the U.S. Armory at Harper's Ferry, West Virginia, improved the Minié ball further by eliminating the metal cup in the bottom of the bullet.[28][29] The Minié ball first saw widespread use in the Crimean War (1853–1856). Roughly 90% of the battlefield casualties in the American Civil War (1861–1865) were caused by Minié balls fired from rifled muskets.[30] A similar bullet called the Nessler ball was also developed for smoothbore muskets.[31]

Between 1854 and 1857, Sir Joseph Whitworth conducted a long series of rifle experiments and proved, among other points, the advantages of a smaller bore and, in particular, of an elongated bullet. The Whitworth bullet was made to fit the grooves of the rifle mechanically. The Whitworth rifle was never adopted by the government, although it was used extensively for match purposes and target practice between 1857 and 1866. In 1861, W. B. Chace approached President Abraham Lincoln with an improved ball design for muskets. In firing over the Potomac River, where the Chace ball and the round ball were alternated, Lincoln observed that the Chace design carried a third or more farther fired at the same elevation. Although Lincoln recommended testing, it never took place.[32]

Around 1862, W. E. Metford carried out an exhaustive series of experiments on bullets and rifling, and he invented the important system of light rifling with increasing spiral and a hardened bullet. The combined result was that, in December 1888, the Lee–Metford small-bore (.303", 7.70 mm) rifle, Mark I, was adopted for the British army. The Lee–Metford was the predecessor of the Lee–Enfield.[33]

Modern bullets

.270 Winchester ammunition:
  1. 100-grain (6.5 g) – hollow point
  2. 115-grain (7.5 g) – FMJBT
  3. 130-grain (8.4 g) – soft point
  4. 150-grain (9.7 g) – round nose

The next important change in the history of the rifle bullet occurred in 1882, when Lieutenant Colonel Eduard Rubin, director of the Swiss Army Laboratory at Thun, invented the copper-jacketed bullet — an elongated bullet with a lead core in a copper jacket. It was also small bore (7.5 and 8 mm) and it is the precursor of the 8 mm Lebel bullet adopted for the smokeless powder ammunition of the Lebel Model 1886 rifle. The surface of lead bullets fired at high velocity may melt from the hot gases behind and friction within the bore. Because copper has a higher melting point, and greater specific heat capacity, and higher hardness, copper-jacketed bullets allow greater muzzle velocities.

.303 inch (7.7 mm) centrefire, FMJ rimmed ammunition

European advances in aerodynamics led to the pointed spitzer bullet. By the beginning of the 20th century, most world armies had begun the transition to spitzer bullets. These bullets flew for greater distances more accurately and transferred more kinetic energy. Spitzer bullets combined with machine guns greatly increased lethality on the battlefield.

Spitzer bullets were streamlined at the base with the boat tail. In the trajectory of a bullet, as air passes over a bullet at high speed, a vacuum is created at the end of the bullet, slowing the projectile. The streamlined boat tail design reduces this form drag by allowing the air to flow along the surface of the tapering end. The resulting aerodynamic advantage is currently seen as the optimum shape for rifle technology. The first combination spitzer and boat-tail bullet, named balle D by its inventor Captain Georges Desaleux, was introduced as standard military ammunition in 1901, for the French Lebel Model 1886 rifle.

A ballistic tip bullet is a hollow-point rifle bullet that has a plastic tip on the end of the bullet. This improves external ballistics by streamlining the bullet, allowing it to cut through the air more easily, and improves terminal ballistics by allowing the bullet to act as a jacketed hollow point. As a side effect, it also feeds better in weapons that have trouble feeding rounds that are not full metal jacket rounds.

Design

This section does not cite any sources. Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed. (May 2023) (Learn how and when to remove this message)
A bullet in mid flight

Bullet designs have to solve two primary problems. In the barrel, they must first form a seal with the gun's bore. If a strong seal is not achieved, gas from the propellant charge leaks past the bullet, thus reducing efficiency and possibly accuracy. The bullet must also engage the rifling without damaging or excessively fouling the gun's bore and without distorting the bullet, which will also reduce accuracy. Bullets must have a surface that forms this seal without excessive friction. These interactions between bullet and bore are termed internal ballistics. Bullets must be produced to a high standard, as surface imperfections can affect firing accuracy.

The physics affecting the bullet once it leaves the barrel is termed external ballistics. The primary factors affecting the aerodynamics of a bullet in flight are the bullet's shape and the rotation imparted by the rifling of the gun barrel. Rotational forces stabilize the bullet gyroscopically as well as aerodynamically. Any asymmetry in the bullet is largely canceled as it spins. However, a spin rate greater than the optimum value adds more trouble than good, by magnifying the smaller asymmetries or sometimes resulting in the bullet breaking apart in flight. With smooth-bore firearms, a spherical shape is optimal because no matter how the bullet is oriented, its aerodynamics are similar. These unstable bullets tumble erratically and provide only moderate accuracy; however, the aerodynamic shape changed little for centuries. Generally, bullet shapes are a compromise between aerodynamics, interior ballistic necessities, and terminal ballistics requirements.

Terminal ballistics and stopping power are aspects of bullet design that affect what happens when a bullet impacts with an object. The outcome of the impact is determined by the composition and density of the target material, the angle of incidence, and the velocity and physical characteristics of the bullet. Bullets are generally designed to penetrate, deform, or break apart. For a given material and bullet, the strike velocity is the primary factor that determines which outcome is achieved.

Bullet shapes are many and varied. With a mold, bullets can be made at home for reloading ammunition, where local laws allow. Hand-casting, however, is only time- and cost-effective for solid lead bullets. Cast and jacketed bullets are also commercially available from numerous manufacturers for handloading and are most often more convenient than casting bullets from bulk or scrap lead.

Propulsion

Propulsion of the ball can happen via several methods:

Materials

Expanding bullet loaded in a 6.5×55mm before and after expanding. The long base and small expanded diameter show that this is a bullet designed for deep penetration on large game. The bullet in the photo traveled more than halfway through a moose before coming to rest, performing as designed.

Bullets for black powder, or muzzle-loading firearms, were classically molded from pure lead. This worked well for low-speed bullets, fired at velocities of less than 450 m/s (1,475 ft/s). For slightly higher-speed bullets fired in modern firearms, a harder alloy of lead and tin or typesetter's lead (used to mold linotype) works very well. For even higher-speed bullet use, jacketed lead bullets are used. The common element in all of these, lead, is widely used because it is very dense, thereby providing a high amount of mass—and thus, kinetic energy—for a given volume. Lead is also cheap, easy to obtain, easy to work, and melts at a low temperature, which results in comparatively easy fabrication of bullets.

Hard cast solid bullet (left), with gas check (center) and lubrication (right)
A modern centerfire cartridge consisting of the following: 1. bullet, as the projectile; 2. metallic case, which holds all parts together; 3. propellant, for example gunpowder or cordite;4. rim, which provides the extractor on the firearm a place to grip the case to remove it from the chamber once fired; 5. primer, which ignites the propellant.

Treaties and prohibitions

Poisonous bullets were a subject to an international agreement as early as the Strasbourg Agreement (1675). The Saint Petersburg Declaration of 1868 prohibited the use of explosive projectiles weighing less than 400 grams.[36] The Hague Conventions prohibits certain kinds of ammunition for use in war. These include poisoned[37][38] and expanding[39][40] bullets. Protocol III of the 1983 Convention on Certain Conventional Weapons, an annexed protocol to the Geneva Conventions, prohibits the use of incendiary ammunitions against civilians.[41]

Types of bullets

Some types of bullets include:

See also

References

  1. ^ "What is Caliber? Bullet Sizes Explained". thefirearms.guide. 2 March 2011. Retrieved 28 January 2017.
  2. ^ Swift, B; Rutty, GN (2004). "The exploding bullet". J Clin Pathol. 57 (1): 108. doi:10.1136/jcp.57.1.108. PMC 1770159. PMID 14693853.
  3. ^ Merriam-Webster Dictionary (5th ed.). Springfield, Massachusetts: Merriam-WebsterIncorporated. 1994. ISBN 0-87779-911-3.
  4. ^ "Hornady Lead Round Ball Black Powder Bullets". www.sportsmanswarehouse.com. Retrieved 28 January 2017.
  5. ^ Brown, Edmund G. (2009). Handgun Safety Certificate. West Sacramento, California: California Department of Justice. p. 52.
  6. ^ "Bullet Types: A Reference Guide". cheaperthandirt.com. Retrieved 28 January 2017.
  7. ^ Archived at Ghostarchive and the Wayback Machine: INSPIREME (2 January 2016). "HOW fast bullet travels" – via YouTube.
  8. ^ "Mythbusters Museum". Mythbusters Museum. Archived from the original on 2016-11-18. Retrieved 2016-11-26.
  9. ^ "Can You Suppress Supersonic Ammo?". silencershop.com. Archived from the original on 2 February 2017. Retrieved 1 February 2017.
  10. ^ "Handgun Ballistics" (PDF). hornady.com. Archived from the original (PDF) on 21 April 2015. Retrieved 28 January 2017.
  11. ^ "Ballistics – Rifle Ammunition Product Lines" (PDF). hornady.com. Archived from the original (PDF) on 2 February 2017. Retrieved 28 January 2017.
  12. ^ Heidt, Amanda (2023-09-09). "How fast is a bullet?". livescience.com. Retrieved 2023-09-27.
  13. ^ "Important Dates in Gun History". armscollectors.com. Archived from the original on 30 January 2017. Retrieved 29 January 2017.
  14. ^ "A Cannon from the Mary Rose". teachinghistory100.com. The British Museum.
  15. ^ "Precision Shooting Patches for round ball – Track of the Wolf". www.trackofthewolf.com.
  16. ^ "How to load a musket". tamu.edu. The Second Flying Company of Alamo de Parras. Archived from the original on 3 July 2017. Retrieved 29 January 2017.
  17. ^ The Principles and Practice of Modern Artillery; Including Artillery Material, Gunnery, and Organization and Use of Artillery in Warfare ... With ... Illustrations by Charles Henry OWEN (Major-General.) p.200 [1]
  18. ^ The Engineer, Volume 12 p.96
  19. ^ Rifled Field Pieces: A Short Compilation of what is Known of the New Field Artillery of Europe : with Some Account of Our Own by Franck Taylor p.29 [2]
  20. ^ Bennett, James A.; Editors Brooks, Clinton E., Reeve, Frank D. (1948) p, 72. Forts and Forays, James A. Bennett: A Dragoon In New Mexico1850-1856. The University of New Mexico Press, Albuquerque.
  21. ^ Bieber, Ralph P., Editor (1938). P. 370. "Diaries of Francois Xavier Aubry 1853–1854." "Exploring Southwestern Trails 1846–1854." The Arthur H. Clarke Company.
  22. ^ Gibbon, John (1860). The Artillerist's Manual. D.Van Nostrand. p. 125. Gibbon rifles.
  23. ^ Deanes' Manual of the History and Science of Fire-arms by John Deane p.237-238 [3]
  24. ^ Pollock, Arthur William Alsager (16 May 2017). "The United Service Magazine". H. Colburn – via Google Books.
  25. ^ "Rifling: Expanding Bullets and the Minié Rifle". firearmshistory.blogspot.com. Firearms History, Technology & Development. 16 May 2010. Retrieved 29 January 2017.
  26. ^ Howey, Allan W. "Facts, information and articles about the Minié Ball, a Civil War bullet". historynet.com. Civil War Times Magazine. Retrieved 29 January 2017.
  27. ^ "Rifling: Expanding Bullets and the Minié Rifle". firearmshistory.blogspot.com. 16 May 2010. Retrieved 29 January 2017.
  28. ^ "National Park Service Museum Collections". Retrieved 29 January 2017.
  29. ^ "Top 10 Rare and Endangered Artifacts". nps.gov. Retrieved 29 January 2017.
  30. ^ "Minié Ball". history.com. Retrieved 29 January 2017.
  31. ^ "Nessler Ball & Ribbed Slug". castboolits.gunloads.com. Retrieved 29 January 2017.
  32. ^ Bilby, Joe (1999). "Pedersoli musket, Nessler Balls and RCBS Dies". civilwarguns.com. Archived from the original on 23 September 2015. Retrieved 29 January 2017.
  33. ^ "Lee Metford (Magazine Lee Metford / MLM) Bolt-Action Service Rifle (1888)". militaryfactory.com. Retrieved 29 January 2017.
  34. ^ Hughes, David (1990). The History and Development of the M16 Rifle and Its Cartridge. Oceanside: Armory Pub. ISBN 978-0-9626096-0-2.
  35. ^ "Research—Eagles and Lead". SOAR Raptor Foundation.
  36. ^ Glover, William H. "Purposes and Basic Principles of the Law of War". Retrieved 2010-07-28.
  37. ^ "Regulations: Art. 23". ihl-databases.icrc.org. Retrieved 2023-08-22.
  38. ^ "Rule 72. Poison". ihl-databases.icrc.org. Retrieved 2023-08-22.
  39. ^ "1899 Hague Declaration concerning Expanding Bullets | Weapons Law Encyclopedia". www.weaponslaw.org. Retrieved 2023-08-22.
  40. ^ "Rule 77. Expanding Bullets". ihl-databases.icrc.org. Retrieved 2023-08-22.
  41. ^ "1980 CONVENTION ON CERTAIN CONVENTIONAL WEAPONS (CCW)" (PDF). International Committee of the Red Cross. April 2021.

External links

Look up bullet in Wiktionary, the free dictionary.
Wikimedia Commons has media related to Bullets.


Firearms (list, glossary, and topics)
Authority control databases: National
Categories