Chamber (firearms)

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A cartridge being pushed into the chamber of a Springfield M1903.

In firearms, the chamber, or breech, is the cavity at the back end of a breechloader's barrel or cylinder in which the cartridge is inserted before being fired.[1][2]

Function[edit]

Rifles and pistols generally have a single chamber integral to their barrels, but revolvers have multiple chambers in their cylinder, and no chamber in their barrel. Thus, rifles and pistols can usually still be fired with the magazine removed as long as a cartridge is inserted into the chamber, while a revolver cannot be fired at all with its cylinder swung out.[citation needed]

Chambers of a revolver's cylinder

The act of chambering a cartridge means the insertion of a round into the chamber, either manually or through the action of the weapon, e.g., pump-action, lever-action, bolt action, or automatic action generally in anticipation of firing the weapon, without need to "load" the weapon upon decision to use it (reducing the number of actions needed to discharge).[3]

In firearms design or modification, "chambering" is fitting a weapon's chamber for a particular caliber or round,[4] so a Colt Model 1911 is chambered for .45 ACP or .38 Super, or re-chambered for .38/.45 Clerke. While the majority of firearms are chambered for one caliber, some are chambered for multiple calibers; however firing an oversized or undersized cartridge can be hazardous.[2]

Forensics[edit]

The chamber is a key component to the practice of Forensic firearm examination. The chamber is known to imprint its surface striations irregularities on the cartridge case, in what are called chamber marks, due to the pressure produced when shooting.[5][6][7] Such imperfections in chamber may be produced in the manufacturing process or through extensive use.[8] Such chamber marks are even more pronounced on substandard firearms or when firing a from an undersized chamber.[5]

In recent years there has been a push to automate this process via the use of automated firearms databases.[9] Ballistics identification has also seen the development of microstamping technology which purposefully creates chamber marks through engravings on the firing pin and breech face.[10]

Sources[edit]

  1. ^ Brown, Edmund G. (2009). Handgun Safety Certificate. West Sacramento, California: California Department of Justice. p. 52.
  2. ^ a b Walker, Robert E. (2013-03-21). Cartridges and Firearm Identification. CRC Press. ISBN 978-1-4665-8881-3.
  3. ^ Henshaw, Thomas (1993). The History of Winchester Firearms 1866-1992. Winchester Press. ISBN 978-0-8329-0503-2.
  4. ^ Ramientas, Mike (2020-08-18). ".25-06 Remington vs. .243 Winchester: The Better Overbore -". Gun News Daily. Retrieved 2020-09-01.
  5. ^ a b Sinha, J. K. (2014-11-07). Forensic Investigation of Unusual Firearms: Ballistic and Medico-Legal Evidence. Taylor & Francis. ISBN 978-1-4665-7137-2.
  6. ^ Monturo, Chris (2019-06-15). Forensic Firearm Examination. Elsevier Science. ISBN 978-0-12-814540-1.
  7. ^ Siegel, Jay A.; Mirakovits, Kathy (2015-12-01). Forensic Science: The Basics, Third Edition. Taylor & Francis. ISBN 978-1-4822-5337-5.
  8. ^ Wheeler, Barbara; Wilson, Lori J. (2011-08-10). Practical Forensic Microscopy: A Laboratory Manual. John Wiley & Sons. ISBN 978-1-119-96557-2.
  9. ^ "Mission". www.geneva-academy.ch. Retrieved 2020-09-01.
  10. ^ Page, Douglas (January 1, 2008). "Microstamping calls the shots: a revolutionary gun identification technology finds favor and foes". web.archive.org. Vol 35, Issue 1. Law Enforcement Technology. Retrieved 2020-09-02.

See also[edit]

External links[edit]