Wednesday, August 06, 2008

SS 109 - 5.56x45mm NATO & MORE

5.56x45mm NATO


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5.56x45mm NATO

5.56x45mm NATO (left) next to .30-30 (center) and 7.62x51mm NATO (right)
Type Rifle
Place of origin Flag of the United States United States
Service history
Used by NATO
Production history
Designer Remington Arms
Specifications
Parent case .223 Remington
Case type Rimless, bottleneck
Bullet diameter 5.69 mm (0.224 in)
Neck diameter 6.43 mm (0.253 in)
Shoulder diameter 8.99 mm (0.354 in)
Base diameter 9.55 mm (0.376 in)
Rim diameter 9.6 mm (0.38 in)
Rim thickness 1.14 mm (0.045 in)
Case length 44.7 mm (1.76 in)
Overall length 57.4 mm (2.26 in)
Rifling twist 1:178 mm or 1:229 mm (7" or 9")
Primer type Small rifle
Ballistic performance
Bullet weight/type Velocity Energy
62 gr (4.0 g) FMJBT 940 m/s (3,100 ft/s) 1,775 J (1,309 ft·lbf)

5.56x45mm NATO, standardized under STANAG 4172, is a rifle cartridge. It is a standard cartridge for NATO forces, and for several nations not part of NATO. It is derived from, but not entirely interchangeable with, the .223 Remington cartridge. This is due to, among other things, the greater gas pressure of the 5.56 mm military round.

Contents


History

The previous standard NATO rifle round was the 7.62x51mm NATO, derived from the .308 Winchester rifle cartridge and designed to replace the U.S. military's .30-06 Springfield rifle cartridge. At the time of selection, there had been criticism that the 7.62 mm round was too powerful for modern service rifles, causing excessive recoil, and that the weight of the ammunition did not allow for enough "firepower" in modern combat. A soldier can carry nearly twice as much 5.56 mm ammunition as 7.62 mm for the same weight.

During the late 1950s, ArmaLite and other U.S. firearm designers started their individual Small Caliber/High Velocity (SCHV) assault rifle experiments using the commercial .222 Remington cartridge. When it became clear that there was not enough powder capacity to meet U.S. Continental Army Command's (CONARC) velocity and penetration requirements, ArmaLite contacted Remington to create a similar cartridge with a longer case body and shorter neck. This became the .222 Remington Special. At the same time, Springfield Armory's Earle Harvey had Remington create an even longer cartridge case then known as the .224 Springfield. Springfield was forced to drop out of the CONARC competition, and thus the .224 Springfield was later released as a commercial sporting cartridge known as the .222 Remington Magnum. To prevent confusion with all of the competing .222 cartridge designations, the .222 Remington Special was renamed the .223 Remington. After playing with their own proprietary cartridge case design, the .224E1 Winchester, Winchester eventually standardized their case dimensions, but not overall loaded length, with the .222 Remington Special to create a cartridge known as the .224E2 Winchester. With the U.S. military adoption of the ArmaLite AR-15 as the M16 rifle in 1963, the .223 Remington was standardized as the 5.56x45mm. However, the .223 Remington was not introduced as a commercial sporting cartridge until 1964.

The British had extensive evidence with their own experiments into an "intermediate" round since 1945 and were on the point of introducing a .280 inch (7 mm) round when the selection of the 7.62 mm round was made. The FN company had also been involved. The concerns about recoil and effectiveness were effectively overruled by the US within NATO, and the other NATO nations accepted that standardization was more important at the time than selection of the ideal round. However the concerns would prove to be valid and led to the development of the 5.56 cartridge.

During the 1970s, NATO members signed an agreement to select a second, smaller caliber cartridge to replace the 7.62 mm NATO. Of the cartridges tendered, the 5.56 mm was successful, but not the 5.56 mm loading (M193 Ball) as used by the U.S. at that time. Instead, the Belgian FN SS109 loading was chosen for standardization. The SS109 used a heavier bullet at a lower muzzle velocity for better long-range performance, specifically to meet a requirement that the bullet be able to penetrate through one side of a steel helmet at 600 m. Some believe that this requirement has made the M855 less capable of fragmentation than the M193 as discussed below.[citation needed]

Performance

From left to right: 9x19mm Parabellum, .40 S&W, .45 ACP, 5.7x28mm, 5.56x45mm, .300 Winchester Magnum, and two shotgun shells; 2.75-inch and 3-inch 12 gauge.
From left to right: 9x19mm Parabellum, .40 S&W, .45 ACP, 5.7x28mm, 5.56x45mm, .300 Winchester Magnum, and two shotgun shells; 2.75-inch and 3-inch 12 gauge.
5.56x45mm NATO rounds in a STANAG magazine.
5.56x45mm NATO rounds in a STANAG magazine.

The 5.56x45mm NATO cartridge with the standard military ball bullet (NATO: SS109; U.S.: M855) will penetrate approximately 15 to 20 inches (38 to 50 cm) into soft tissue in ideal circumstances. As with all spitzer shaped projectiles it is prone to yaw in soft tissue. However, at impact velocities above roughly 2,700 ft/s (820 m/s), it may yaw and then fragment at the cannelure (the groove around the cylinder of the bullet). These fragments can disperse through flesh and bone, inflicting additional internal injuries.[1]barrelmuzzle velocity and therefore rounds lose effectiveness at much shorter ranges than longer-barreled rifles. Fragmentation, if and when it occurs, seems to impart much greater damage to tissue than bullet dimensions and velocities would suggest. This fragmentation effect is highly dependent on velocity, and therefore length: short-barreled rifles generate less

There has been much criticism of the poor performance of the round, especially the first-round kill rate when using firearms that don't achieve the velocity to cause fragmentation. This typically becomes an issue at longer ranges (over 100 m) or when penetrating heavy clothing, but this problem is compounded in shorter-barreled weapons. The 14.5-inch (37 cm) barrel of the U.S. military's M4 Carbine can be particularly prone to this problem. At short ranges, the round is reported to be mostly effective, and its tendency to fragment reduces the risk of "overpenetration" when used at close range. However, if the round is moving too slowly to reliably fragment on impact, the wound size and potential to incapacitate a person is greatly reduced. Several alternate cartridges have been developed in an attempt to address the perceived shortcomings of 5.56 mm ammunition including the 6.5 Grendel and the 6.8 SPC.

Recently, advances have been made in 5.56 mm ammunition. The US military has adopted for limited issue a 77-grain (5.0 g) "Match" bullet, type classified as the Mk 262. The heavy, lightly constructed bullet fragments more violently at short range and also has a longer fragmentation range.[citation needed] Originally designed for use in the Mk 12 SPR, the ammunition has found favor with special forces[citation needed] units who were seeking a more effective round to fire from their M4A1 carbines.

5.56 mm NATO versus .223 Remington

While the 5.56 mm and .223 cartridges are very similar, they are not identical. Military cases are generally made from thicker brass than commercial cases; this reduces the powder capacity (an important consideration for handloaders[1]), and the NATO specification allows a higher chamber pressure. Test barrels made for 5.56 mm NATO measure chamber pressure at a the case mouth, as opposed to the SAAMI location. This difference accounts for upwards of 20,000 psi (140 MPa) difference in pressure measurements. That means that advertised pressure of 58,000 psi (400 MPa) for 5.56 mm NATO, is around 78,000 psi (540 MPa) tested in .223 Rem test barrels. The 5.56 mm chambering, known as a NATO or mil-spec chambers, have a longer leade, which is the distance between the mouth of the cartridge and the point at which the rifling engages the bullet. The .223 chambering, known as SAAMI chamber, is allowed to have a shorter leade, and is only required to be proof tested to the lower SAAMI chamber pressure. To address these issues, various proprietary chambers exist, such as the Wylde chamber (Rock River Arms)[2]Armalite chamber, which are designed to handle both 5.56 mm and .223 equally well. or the

Using commercial .223 cartridges in a 5.56-chambered rifle should work reliably, but generally will not be as accurate as when fired from a .223-chambered gun due to the longer leade.[3] Using 5.56 mil-spec cartridges (such as the M855) in a .223-chambered rifle can lead to excessive wear and stress on the rifle and even be unsafe, and the SAAMI recommends against the practice.[4] Some commercial rifles marked as ".223 Remington" are in fact suited for 5.56 mm, such as many commercial AR-15 variants and the Ruger Mini-14, but the manufacturer should always be consulted to verify that this is acceptable before attempting it, and signs of excessive pressure (such as flattening or gas staining of the primers) should be looked for in the initial testing with 5.56 mm ammunition.[5]

Comparison of 5.56 mm versus 7.62 mm NATO

Round Cartridge size Bullet weight Velocity Energy
5.56 mm NATO 5.56x45mm 3.95–5.18 g 772–930 m/s (2526–3051 ft/s)[citation needed] 1,700–1,830 J[citation needed]
7.62 mm NATO 7.62x51mm 9.33 g 838 m/s (2749 ft/s)[citation needed] 3,275 J[citation needed]

The NATO Ball round (U.S.: M855) can penetrate up to 3 mm (about 1/8") of steel at 600 meters[2]. According to Nammo, a Norwegian ammunition producer, the M995 can penetrate up to 12 mm (nearly 1/2") of RHA steel at 100 meters. [3]

Military cartridge types

  • Cartridge, Ball, F1 (Australia): 5.56X45mm FN SS109 equivalent produced by Australian Defence Industries(ADI).
  • Cartridge, Ball, L2A1 (United Kingdom): 5.56x45mm FN SS109 equivalent produced by Radway Green.
  • Cartridge, Blank, C79 (Canada): 5.56x45mm blank round used in both C7 and C9 type weapons..
  • Cartridge, Tracer, L1A1 (United Kingdom): 5.56x45mm tracer compliment to L2A1, also produced by Radway Green.
M855 and M856 rounds in an ammunition belt using M27 disintegrating links.
M855 and M856 rounds in an ammunition belt using M27 disintegrating links.
  • Cartridge, Caliber 5.56 mm, Ball, M193 (United States): 5.56x45mm 55-grain ball cartridge.
  • Cartridge, Caliber 5.56 mm, Grenade, M195 (United States): 5.56x45mm grenade launching blank.
  • Cartridge, Caliber 5.56 mm, Tracer, M196 (United States): 5.56x45mm 54-grain tracer cartridge, red cartridge tip.
  • Cartridge, Caliber 5.56 mm, Ball, M202 (United States): 5.56x45mm 58-grain FN SSX822 cartridge
  • Cartridge, Caliber 5.56 mm, Ball, XM287 (United States): 5.56x45mm 68-grain ball cartridge produced by Industries Valcartier, Inc. An Improved version was also produced designated XM779.
  • Cartridge, Caliber 5.56 mm, Tracer, XM288 (United States): 5.56x45mm 68-grain tracer cartridge produced by Industries Valcartier, Inc. An Improved version was also produced designated XM780.
  • Cartridge, Caliber 5.56 mm, Grenade, M755 (United States): 5.56x45mm grenade launching blank specifically for the M234 launcher.
  • Cartridge, Caliber 5.56 mm, Ball, XM777 (United States): 5.56x45mm ball cartridge.
  • Cartridge, Caliber 5.56 mm, Tracer, XM778 (United States): 5.56x45mm tracer cartridge.
  • Cartridge, Caliber 5.56 mm, Ball, M855 (United States): 5.56x45mm 62-grain FN SS109 ball cartridge.
  • Cartridge, Caliber 5.56 mm, Tracer, M856 (United States): 5.56x45mm 64-grain FN L110 tracer cartridge
  • Cartridge, Caliber 5.56 mm, Armor Piercing, M995 (United States): 5.56x45mm 52-grain AP cartridge, black cartridge tip.
  • Cartridge, Caliber 5.56 mm, Tracer, XM996 (United States): 5.56x45mm so-called "Dim Tracer" with reduced effect primarily for use with night vision devices.
  • Cartridge, Caliber 5.56 mm, Special Ball, Long Range, Mk 262 Mod 0/1 (United States): 5.56x45mm 77-grain Open-Tipped Match/Hollow-Point Boat-Tail cartridge. Mod 0 features Sierra Matchking bullet, while Mod 1 features either Nosler or Sierra bullet.
  • Cartridge, 5.64 mm, Ball, MLU-26/P (United States): Early USAF designation for 5.56x45mm ball cartridge produced by Remington.

Use

See also

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Notes

Sources and external links