.276 Pedersen

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.276 Pedersen
En-bloc clip loaded with 10 rounds of .276 Pedersen. Image from John Pedersen patent.
TypeRifle
Place of originUnited States
Service history
In service1923–1932 (experimental)
Used byUnited States
Production history
DesignerJohn Pedersen
Designed1923
Specifications
Case typeRimless, bottleneck
Bullet diameter.2842 in (7.22 mm)
Neck diameter.313 in (8.0 mm)
Shoulder diameter.385 in (9.8 mm)
Base diameter.450 in (11.4 mm)
Rim diameter.450 in (11.4 mm)
Case length2.023 in (51.4 mm)
Overall length2.855 in (72.5 mm)
Primer typeLarge rifle
Ballistic performance
Bullet mass/type Velocity Energy
125 gr (8 g) 2,740 ft/s (840 m/s) 2,058 ft⋅lbf (2,790 J)

The .276 Pedersen (7×51mm) round was an experimental 7 mm cartridge developed for the United States Army. It was used in the Pedersen rifle and early versions of what would become the M1 Garand.

Summary[edit]

Developed in 1923 in the United States, it was intended to replace the .30-06 Springfield in new semi-automatic rifles and machine guns. When first recommended for adoption, M1 Garand rifles were chambered for the .276 Pedersen, which held ten rounds in its unique en-bloc clips.[1] The .276 Pedersen was a shorter, lighter and lower pressure round than the .30-06, which made the design of an autoloading rifle easier than the long, powerful .30-06. The U.S. Army Chief of Staff Gen. Douglas MacArthur rejected the .276 Pedersen Garand in 1932 after verifying that a .30-06 version was feasible.[2]

History and technical notes[edit]

Pedersen's round fired a 0.284-inch (7mm) bullet. Comparable to the contemporary Italian 6.5×52mm (0.268 in) Carcano or the Japanese 6.5mm (0.264 in) Arisaka, it produced velocities of around 2,400 feet per second (730 m/s) with 140 or 150 grain (9.1 or 9.7 g) projectiles. The case was two inches (51 mm) long with significant taper. Tapered cases simplify the extraction, but require the use of highly curved magazines similar to the Kalashnikov, although for the short magazines of the Pedersen and Garand rifles, this was immaterial.[3] Both waxed and bare cartridges were made for the Pedersen and Garand rifle respectively. An armor-piercing T1 cartridge was developed and presumably a tracer.

At the time of its introduction, the .276 Pedersen was a solution to a significant problem. The U.S. Army wanted a general issue autoloading rifle that would fire the .30-06 cartridge, but such a rifle was prohibitively large with existing designs such as the Browning Automatic Rifle and French Chauchat.[4] A weapon of the same weight as the M1903 needed to fire a smaller cartridge. Pedersen's cartridge was viewed as a compromise as it was underpowered compared to most military rifle cartridges. This decreased recoil energy made possible a reliable, lightweight semi-automatic rifle with existing technology. Despite overcoming these early semi-automatic problems, the Garand was chosen because it did not require the use of lubricated cartridge cases for reliable function.[3] The Garand was originally going to be chambered in the .276 Pedersen, but the logistics of changing all of the infantry's guns (including machine guns) to a new round was judged cost-prohibitive, so the Garand was chambered in .30-06, removing the need for the new cartridge.[1]

Visual comparison of:
  • 6.5×52mm Mannlicher–Carcano
  • .276 Pedersen
  • 6.5mm Grendel
  • 7.62×39mm (Yugoslavian M67 load)
  • Czech vz. 52 7.62×45mm
All developed over a 100+ year period. Note the similar base and rim diameters between all of these cartridges, and the much more pointed nose of the .276 Petersen round.

Immediately after World War II, British designers introduced a series of intermediate-power 7mm cartridges for a different reason than Pedersen. They sought an answer to the Germans' highly successful 7.92mm Kurz and various studies on the matter. The U.S. stuck with the .30 caliber mostly out of a desire to have a common cartridge between rifle and machine gun combined with the perceived necessity for effectiveness out to 2,000 yards and perforation of intermediate barriers. Development of a shorter .30 round specifically for use in an autoloading rifle began after the war, and resulted in the 7.62×51mm NATO, a shorter and slightly lighter round that gave slightly superior ballistics to the .30-06. The British studies on various cartridges culminated in the .280 British cartridge, which shared logistic similarities to the .276 Pedersen in caliber, bullet weight and velocity, but not in range, Ballistic Coefficient or wounding power.

Despite the failure to adopt either the .276 Pedersen or later .280 British, the concept of an intermediate power military cartridge of a 6.5 to 7mm diameter was far from dead. Shortly after the 7.62mm NATO cartridge was adopted, Armalite submitted their AR-10 for evaluation, the U.S. Army suggested they redesign the gun to fire a .256 caliber projectile. Although this suggestion was fruitless, the Army later engaged in many studies of a 6mm SAW cartridge.[5] They, once again, sought to replace autoloading rifle and machine gun cartridges with one round.

Nearly 100 years after the .276 Pederson introduced the concept of a 7mm infantry round for semi-automatic rifles, on April 19, 2022, the United States Army adopted the .277 Fury (6.8 x 51 Common) as the United States Army's general-purpose cartridge, this cartridge features a 7.04 mm bullet in a two-part version of a necked down 7.62 x 51 NATO case. It has a Stainless Steel head and a brass body to withstand the huge increase in pressure required to attain the perforation, wounding and flatness of trajectory to the required ranges.[6][7] The adoption of this round repudiates the Army's 1923 conclusion about concerning the adoption th 30 caliber standard (then signified by the rejection of the .276 Pedersen) compared to a .276 caliber round (7mm caliber), and finally returns ballistic performance in front of General Douglas MacArthur's cost-saving decision to scrap a 7mm bullet in favor of military surplus 30-06 ammunition left over from World War One as the primary cartridge to be used in the M-1 Garand during World War Two. The new 7-mm .277 Fury round will be deployed both in an infantry battle rifle as well as in a dedicated machine gun and exemplifies the requirement of the much higher chamber pressure, 80-90,000 PSI Vs 55-60,000 PSI in the older ammunition required to attain the demanded ballistic performance with a 7-mm bullet in both weapon systems.[6]

See also[edit]

References[edit]

  1. ^ a b Jake Swearingen (July 13, 2015). "The Rifle That Almost Became the M1 Garand". popularmechanics.com. Archived from the original on November 5, 2015.
  2. ^ Thompson, Jim (August 29, 2014). "The Ever Popular and Collectable M1 Garand". Gun Digest. Archived from the original on June 2, 2023. Retrieved July 6, 2023. About 1932, Army Chief of Staff Douglas MacArthur determined that the new cartridge was uneconomical and ordered that the new rifle had to be redesigned to utilize the millions of rounds of .30/06 ammunition still extant, produced for World War I. This was the second major change, as the original design had been primer actuated. Garand was resourceful, and by 1936, the rifle was adopted and in production.
  3. ^ a b Hatcher's Notebook: A Standard Reference Book for Shooters, Gunsmiths, Ballisticians, Historians, Hunters, and Collectors. 1962. pp. 41–44. ISBN 9780811706148. OCLC 1442438.
  4. ^ Bruce N. Canfield (July 17, 2020). "The Pedersen Device: A Secret Weapon Of WWI". American Rifleman. National Rifle Association of America. Archived from the original on June 1, 2023.
  5. ^ Howe, Walter; Harrison, E.H. (May 1962). "The Armalite AR-15 Rifle" (PDF). American Rifleman. National Rifle Association of America. Archived from the original (PDF) on March 28, 2023. Retrieved July 6, 2023.
  6. ^ a b South, Todd (20 April 2022). "Army expects Next Generation Squad Weapon to get its first unit by next year". ArmyTimes. Sightline Media Group. Archived from the original on May 18, 2023.
  7. ^ "277 Sig Fury [277 Sig Fury]" (PDF). Sporting Arms and Ammunition Manufacturers' Institute. 23 September 2020. Archived from the original (PDF) on June 11, 2023.
  • Cartridges of the World. Frank C. Barnes.
  • Handloader's Manual of Cartridge Conversions. Donnelly + Townsend
  • Guns. Chris McNab
  • Book of Combat Arms 2005. Guns and Ammo Magazine

External links[edit]