The M1 Garand or M1 rifle [nb 1] is a semi-automatic rifle that was the service rifle of the U.S. Army during World War II and the Korean War.
The rifle is chambered for the .30-06 Springfield cartridge and is named after its Canadian-American designer, John Garand. It was the first standard-issue autoloading rifle for the United States. [14] By most accounts, the M1 rifle performed well. General George S. Patton called it "the greatest battle implement ever devised". [15] [16] The M1 replaced the bolt-action M1903 Springfield as the U.S. service rifle in 1936, [17] and was itself replaced by the selective-fire M14 rifle on 26 March 1958. [18]
Sources differ on the pronunciation of the M1 Garand. Some, such as General Julian Hatcher's The Book of the Garand (1948), give /ˈɡærənd/ GARR-ənd, identical to the pronunciation of John Garand's surname. [19] However, a 1952 issue of Armed Forces Talk, a periodical published by the U.S. Department of Defense, gives the pronunciation as /ɡəˈrænd/ gə-RAND, saying "popular usage has placed the accent on the second syllable, so that the rifle has become the 'guh-RAND'". [20] American Rifleman magazine, while acknowledging /ɡəˈrænd/ gə-RAND as the pronunciation favored by U.S. servicemen, deemed either pronunciation valid. [21]
French Canadian-born Garand [22] went to work at the United States Army's Springfield Armory and began working on a .30 caliber primer actuated blowback Model 1919 prototype. In 1924, twenty-four rifles, identified as "M1922s", were built at Springfield. At Fort Benning during 1925, they were tested against models by Berthier, Hatcher-Bang, Thompson, and Pedersen, the latter two being delayed blowback types. [23] This led to a further trial of an improved "M1924" Garand against the Thompson, ultimately producing an inconclusive report. [23] As a result, the Ordnance Board ordered a .30-06 Garand variant. In March 1927, the cavalry board reported trials among the Thompson, Garand, and '03 Springfield had not led to a clear winner. This led to a gas-operated .276 (7 mm) model (patented by Garand on 12 April 1930). [23]
In early 1928, both the infantry and cavalry boards ran trials with the .276 Pedersen T1 rifle, calling it "highly promising" [23] (despite its use of waxed ammunition, [24] shared by the Thompson). [25] On 13 August 1928, a semiautomatic rifle board (SRB) carried out joint Army, Navy, and Marine Corps trials among the .30 Thompson, both cavalry and infantry versions of the T1 Pedersen, "M1924" Garand, and .256 Bang, and on 21 September, the board reported no clear winner. The .30 Garand, however, was dropped in favor of the .276. [26]
Further tests by the SRB in July 1929, which included rifle designs by Colt–Browning, Garand, Holek, Pedersen, Rheinmetall, Thompson, and an incomplete one by White, [nb 2] led to a recommendation that work on the (dropped) .30 gas-operated Garand be resumed, and a T1E1 was ordered 14 November 1929.
Twenty gas-operated .276 T3E2 Garands were made and competed with T1 Pedersen rifles in early 1931. The .276 Garand was the clear winner of these trials. The .30 caliber Garand was also tested, in the form of a single T1E1, but was withdrawn with a cracked bolt on 9 October 1931. A 4 January 1932 meeting recommended adoption of the .276 caliber and production of approximately 125 T3E2s. Meanwhile, Garand redesigned his bolt and his improved T1E2 rifle was retested. The day after the successful conclusion of this test, Army Chief of Staff General Douglas MacArthur personally disapproved any caliber change, in part because there were extensive existing stocks of .30 M1 ball ammunition. [27] On 25 February 1932, Adjutant General John B. Shuman, speaking for the Secretary of War, ordered work on the rifles and ammunition in .276 caliber cease immediately and completely, and all resources be directed toward identification and correction of deficiencies in the Garand .30 caliber. [25] : 111
On 3 August 1933, the T1E2 became the "semi-automatic rifle, caliber 30, M1". [23] In May 1934, 75 M1s went to field trials; 50 went to infantry, 25 to cavalry units. [25] : 113 Numerous problems were reported, forcing the rifle to be modified, yet again, before it could be recommended for service and cleared for procurement on 7 November 1935, then standardized 9 January 1936. [23] The first production model was successfully proof-fired, function-fired, and fired for accuracy on 21 July 1937. [28]
Production difficulties delayed deliveries to the Army until September 1937. Machine production began at Springfield Armory that month at a rate of ten rifles per day, [29] and reached an output of 100 per day within two years. Despite going into production status, design issues were not at an end. The barrel, gas cylinder, and front sight assembly were redesigned and entered production in early 1940. Existing "gas-trap" rifles were recalled and retrofitted, mirroring problems with the earlier M1903 Springfield rifle that also had to be recalled and reworked approximately three years into production and foreshadowing rework of the M16 rifle at a similar point in its development. Production of the Garand increased in 1940 despite these difficulties, [30] reaching 600 a day by 10 January 1941, [23] and the Army was fully equipped by the end of 1941. [27] Following the outbreak of World War II in Europe, Winchester was awarded an "educational" production contract for 65,000 rifles, [23] with deliveries beginning in 1943. [23]
The M1 Garand was made in large numbers during World War II; approximately 5.4 million were made. [31] They were used by every branch of the United States military. The rifle generally performed well. General George S. Patton called it "the greatest battle implement ever devised." [16] The typical opponent of a US soldier during World War II was usually armed with a slower-firing bolt-action rifle (e.g. the Karabiner 98k for Germany, the Carcano M1891 for Italy, and the Type 38 or Type 99 Arisaka rifle for Japan). The effect of faster-firing infantry small arms in general soon stimulated both Allied and Axis forces to greatly increase their issue of semi- and fully automatic firearms then in production, as well as to develop new types of infantry firearms. [32]
Many M1s were repaired or rebuilt after World War II. While U.S. forces were still engaged in the Korean War, the Department of Defense decided more were needed. Springfield Armory ramped up production, but two new contracts were awarded. During 1953–56, M1s were produced by International Harvester and Harrington & Richardson in which International Harvester alone produced a total of 337,623 M1 Garands. [33] [34] A final, very small, lot of M1s was produced by Springfield Armory in early 1957, using finished components already on hand. Beretta also produced Garands using Winchester tooling.
In 1939, the British Army looked at the M1 as a possible replacement for its bolt-action Lee–Enfield No.1 Mk. III, but decided against it as by January 1940 the Birmingham Small Arms Company was already preparing production of the Lee-Enfield No. 4 Mk 1. [35] However, surplus M1 rifles were provided as foreign aid to American allies, including South Korea, West Germany, Italy, Japan, Denmark, Greece, Turkey, Iran, South Vietnam, the Philippines, etc. Most Garands shipped to allied nations were predominantly manufactured by International Harvester Corporation during the period of 1953–1956, and second from Springfield Armory from all periods. [34]
Some Garands were still being used by the United States into the Vietnam War in 1963; despite the M14's official adoption in 1958, it was not until 1965 that the changeover from the M1 Garand was fully completed in the active-duty component of the Army (with the exception of the sniper variants, which were introduced in World War II and saw action in Korea and Vietnam). The Garand remained in service with the Army Reserve, Army National Guard, and the Navy into the early 1970s. The South Korean Army was using M1 Garands in the Vietnam War as late as 1966. [36]
Due to widespread United States military assistance as well as their durability, M1 Garands have also been found in use in recent conflicts such as with the insurgencies in Iraq and Afghanistan.
Some military drill teams still use the M1 rifle, including the U.S. Marine Corps Silent Drill Team, the United States Air Force Academy Cadet Honor Guard, the U.S. Air Force Auxiliary, almost all Reserve Officer Training Corps (ROTC) and some Junior Reserve Officer Training Corps (JROTC) teams of all branches of the U.S. military.[ citation needed ] It is also used by the drill team of His Majesty the King's Guard of Norway. [37]
The M1 rifle is a .30 caliber, gas-operated, eight-shot clip-fed, semi-automatic rifle. [38] It is 43.6 inches (1,107 mm) long and it weighs about 9.5 pounds (4.31 kg). [39]
The M1's safety catch is located at the front of the trigger guard, easily operated by the trigger finger. It is engaged when it is pressed rearward into the trigger guard, and disengaged when it is pushed forward and is protruding outside of the trigger guard. [40]
The M1 Garand was designed for simple assembly and disassembly to facilitate field maintenance. It can be field stripped (broken down) without tools in just a few seconds. [41]
The rifle has an iron sight line consisting of rear receiver aperture sight protected by sturdy "ears" calibrated for 100–1,200 yd (91–1,097 m) in 100 yd (91 m) increments. The bullet drop compensation is set by turning the range knob to the appropriate range setting. The bullet drop compensation/range knob can be fine adjusted by setting the rear sight elevation pinion. The elevation pinion can be fine adjusted in approximately one MOA increments. The aperture sight is also able to correct for wind drift operated by turning a windage knob that moves the sight in approximately one MOA increments. The windage lines on the receiver to indicate the windage setting are four MOA apart. The front sighting element consists of a wing-guard-protected front post.
During World War II the M1 rifle's semiautomatic operation gave United States infantrymen a significant advantage in firepower and shot-to-shot recovery time over enemy infantrymen armed primarily with bolt-action rifles. The semi-automatic operation and reduced recoil allowed soldiers to fire eight rounds as quickly as they could pull the trigger, without having to move their hands on the rifle and therefore disrupt their firing position and point of aim. [42] The Garand's fire rate, in the hands of a trained soldier, averaged 40–50 accurate shots per minute at a range of 300 yards (270 m). "At ranges over 500 yards (460 m), a battlefield target is hard for the average rifleman to hit. Therefore, 500 yards (460 m) is considered the maximum effective range, even though the rifle is accurate at much greater ranges." [39]
The M1 rifle is fed by a reversible en bloc clip which holds eight rounds of .30-06 Springfield ammunition. When the last cartridge is fired, the rifle ejects the clip and locks the bolt open. [43] The M1 is then ready to reload. Once the clip is inserted, the bolt snaps forward on its own as soon as thumb pressure is released from the top round of the clip, chambering a round and leaving it ready to fire. [44] [45]
Contrary to widespread misconception, partially expended or full clips can be easily ejected from the rifle by means of the clip latch button. [40] It is also possible to load single cartridges into a partially loaded clip while the clip is still in the magazine, but this requires both hands and a bit of practice. In reality, this procedure was rarely performed in combat, as the danger of getting debris inside the action along with the cartridges increased the chances of malfunction. Instead, it was much easier and quicker to simply manually eject the clip, and insert a fresh one, [46] which is how the rifle was originally designed to be operated. [45] [47] [48] Later, special clips holding two (8+2=10 for target shooting) or five rounds (to meet hunting regulations) became available on the civilian market, as well as a single-loading device which stays in the rifle when the bolt locks back.
In battle, the manual of arms called for the rifle to be fired until empty, and then recharged quickly. Due to the well-developed logistical system of the U.S. military at the time, this consumption of ammunition was generally not critical, though this could change in the case of units that came under intense fire or were flanked or surrounded by enemy forces. [47] When using the rifle to launch grenades, it requires the removal of a partially loaded clip of ball ammunition and replacement with a clip of M3 blank cartridges. [45]
Officials in Army Ordnance circles demanded a fixed, non-protruding magazine for the new service rifle. At the time, it was believed that a detachable magazine on a general-issue service rifle would be easily lost by U.S. soldiers (a criticism made of British soldiers and the Lee–Enfield dozens of years previously), would render the weapon too susceptible to clogging from dirt and debris and that a protruding magazine would complicate existing manual-of-arms drills. As a result, inventor John Garand developed an en bloc clip system that allowed ammunition to be inserted from above, clip included, into the fixed magazine. While this design provided the requisite flush-mount magazine, the clip system increased the rifle's weight and complexity, and made only single loading ammunition possible without a clip.
Ejection of an empty clip created a distinctive metallic "clanging" sound. [49] In World War II, it was rumored that German and Japanese infantry were making use of this noise in combat to alert them to an empty M1 rifle in order to catch their American enemies with an unloaded rifle. It was reported that the U.S. Army's Aberdeen Proving Ground began experiments with clips made of various plastics in order to soften the sound, though no improved clips were ever adopted. [48] Conversely, former German soldiers have said that the sound was inaudible during engagements and not particularly useful when heard, as other squad members might have been nearby ready to fire. [50] Due to the often intense deafening noise of combat and gunfire it is highly unlikely any U.S. servicemen were killed as a result of being given away by the clang noise; however some soldiers still took the issue very seriously. [51] Some U.S. veterans recalling combat in Europe are convinced that German soldiers did respond to the ejection clang, and would throw an empty clip down to simulate the sound so the enemy would expose themselves. [52]
Garand's original design for the M1 used a complicated gas system involving a special muzzle extension gas trap, later dropped in mid-1940 in favor of a simpler drilled gas port. Because most of the older rifles were retrofitted, pre-1940 gas-trap M1s are very rare today and are prized collector's items. [38] In both systems, expanding gases from a fired cartridge are diverted into the gas cylinder. Here, the gases meet a long-stroke piston attached to the operating rod, which is pushed rearward by the force of this high-pressure gas. Then, the operating rod engages a rotating bolt inside the receiver. The bolt is locked into the receiver via two locking lugs, which rotate, unlock, and initiate the ejection of the spent cartridge and the reloading cycle when the rifle is discharged. The operating rod (and subsequently the bolt) then returns to its original position.
The M1 Garand was one of the first self-loading rifles to use stainless steel for its gas tube, in an effort to prevent corrosion.[ citation needed ] As the stainless metal could not be parkerized, the gas tubes were given a stove-blackening that frequently wore off in use. Unless the gas tube could be quickly repainted, the resultant gleaming muzzle could make the M1 Garand and its user more visible to the enemy in combat. [47]
Several accessories were used with the Garand rifle. Several different styles of bayonets fit the rifle: the M1905, with a 16-inch (406 mm) blade; the M1 with a 10-inch (254 mm) blade (either made standard or shortened from existing M1905 bayonets); and the M5 bayonet with a 6.75-inch (171 mm) blade.
Also available was the M7 grenade launcher that could easily be attached to the end of the barrel. [53] [54] It could be sighted using the M15 sight, which was attached with screws to the left side of the stock, just forward of the trigger.
A cleaning tool, oiler and grease containers could be stored in two cylindrical compartments in the buttstock for use in the field.
The M1907 two-piece leather rifle sling was the most common type of sling used with the weapon through World War II. In 1942, a cheaper and more adjustable olive drab canvas sling was introduced and gradually replaced the M1907 after the war. [55]
Another accessory was the winter trigger, developed during the Korean War. [56] It consisted of a small mechanism installed on the trigger guard, allowing the soldier to remotely pull the trigger by depressing a lever just behind the guard. [56] This enabled the shooter to fire his weapon while using winter gloves, which could get "stuck" on the trigger guard or not allow for proper movement of the finger. [56]
This section may contain an excessive amount of intricate detail that may interest only a particular audience.(February 2022) |
Most variants of the Garand, save the sniper variants, never saw active duty. [49] The sniper versions were modified to accept scope mounts, and two versions (the M1C, formerly M1E7, and the M1D, formerly M1E8) were produced, although not in significant quantities during World War II. [57] The only difference between the two versions is the mounting system for the telescopic sight. In June 1944, the M1C was adopted as a standard sniper rifle by the U.S. Army to supplement the venerable M1903A4, but few saw combat; wartime production was 7,971 M1Cs. [58]
The procedure required to install the M1C-type mounts through drilling/tapping the hardened receiver reduced accuracy by warping the receiver. Improved methods to avoid reduction of accuracy were inefficient in terms of tooling and time. This resulted in the development of the M1D, which utilized a simpler, single-ring Springfield Armory mount attached to the barrel rather than the receiver. The M1C was first widely used during the Korean War. Korean War production was 4,796 M1Cs and 21,380 M1Ds; although few M1Ds were completed in time to see combat. [58]
The U.S. Marine Corps adopted the M1C as their official sniper rifle in 1951. This USMC 1952 sniper's rifle, or MC52, was an M1C with the commercial Stith Bear Cub scope manufactured by the Kollmorgen Optical Company under the military designation: telescopic sight - Model 4XD-USMC. The Kollmorgen scope with a slightly modified Griffin & Howe mount was designated MC-1. The MC52 was also too late to see extensive combat in Korea, but it remained in Marine Corps inventories until replaced by bolt-action rifles during the Vietnam War. [58] The U.S. Navy has also used the Garand, rechambered for the 7.62×51mm NATO round.
A detachable M2 conical flash hider, adopted 25 January 1945 slipped over the muzzle and was secured in place by the bayonet lug. A T37 flash hider was developed later. Flash hiders were of limited utility during low-light conditions around dawn and dusk, but were often removed as potentially detrimental to accuracy. [58]
The Tanker name was invented after the war as a marketing gimmick for commercial Garands built on welded demilled receivers. There are three 18-inch M1 Garand variants, the M1E5 and T26, which never saw service, and the Pacific Warfare Board rifle, which saw very limited service in the Pacific. [59] The M1E5 is equipped with a shorter 18-inch (457 mm) barrel and a folding buttstock. The T26 also uses an 18-inch (457 mm) barrel but retains the standard buttstock. The PWB rifle uses an 18-inch (457 mm) barrel, retains the standard buttstock, and has a foregrip secured by M1903 barrel band.
A weapon with those features was potentially valuable for paratroopers, as it was more powerful than the carbines and submachine guns currently in use. Preliminary testing revealed it had excessive recoil and muzzle blast, but it was recommended that it be developed further. The Infantry Board directed Col. Rene Studler to proceed with the project.
The task was assigned to Springfield Armory, and John Garand began work in January 1944. The resultant experimental arm, designated as the "U.S. Carbine, Cal. 30, M1E5", was fitted with a specially made 18-inch barrel (not a shortened standard M1 rifle barrel) marked "1 SA 2-44" and a pantograph metal stock that folded underneath the rifle. The receiver was marked "U.S. Carbine/Cal. .30 M1E5/Springfield/Armory/1". It was designated as a carbine and not a rifle.
Other than the folding stock, the basic M1 rifle was essentially unchanged with the exception of the short barrel, a correspondingly shortened operating rod (and spring) and the lack of a front handguard. The overall length was 37½ inches and it weighed approximately 8 lbs., 6 ozs.
The M1E5 "Garand carbine" was tested at Aberdeen Proving Ground in May 1944. It was determined that while accuracy at 300 yards was on par with the standard M1 rifle, recoil, muzzle blast and flash were excessive. It was recommended that a pistol grip be installed, which was done for subsequent testing.
While the M1E5 was more compact than the standard Garand rifle, the short barrel made it an unpleasant gun to fire—and the advantages were not judged to be sufficient to offset the disadvantages. Further development of the M1E5 was suspended as other projects at Springfield, such as the selective-fire T20 series, were deemed to have a higher priority. Only one example of the M1E5 was fabricated for testing, and the gun resides today in the Springfield Armory National Historic Site Museum.
Despite the concept being shelved at Springfield Armory, the idea of a shortened M1 rifle was still viewed as potentially valuable for airborne and jungle combat use. Particularly in the Pacific Theater, there was widespread dissatisfaction with the M1 carbine's range, power and foliage-penetration ("brush-cutting") capability. The Ordnance Department was not responsive to these complaints coming in from the Pacific and maintained that the M1 rifle and M1 carbine each filled a specific niche.[ citation needed ]
Nonetheless, by late 1944, the Pacific Warfare Board (PWB) decided to move forward with the development of a shortened M1 rifle. Colonel William Alexander, chief of the PWB, directed an Army ordnance unit of the 6th Army in the Philippines to fabricate 150 rifles in this configuration for testing. Since the previous M1E5 project was not widely disseminated, it is entirely possible that the PWB may not have been aware of Springfield Armory's development of a similar rifle, and conceived the idea independently.[ citation needed ]
Some of the shortened M1 rifles were field-tested in October 1944 on Noemfoor Island, New Guinea, by an ad hoc test committee,[ clarification needed ] which included three platoon leaders of the 503rd Parachute Infantry Regiment (PIR) combat team. While the members of the test committee liked the concept of the short M1 rifle, it was determined that the muzzle blast was excessive and was compared to a flash bulb going off in the darkened jungle. The conclusion of the test report stated that the shortened rifle was "totally unsuitable for a combat weapon".[ citation needed ]
Even while the shortened M1 rifles were being evaluated by the 503rd PIR, two of them were sent to the Ordnance Dept. in Washington, D.C., by special courier for evaluation. One of these rifles was then forwarded to Springfield Armory.
The M1s shortened in the Philippines under the auspices of the PWB had been well-used prior to modification, and the conversion exhibited rather crude craftsmanship, including hand-cut splines on the barrel.
Upon receipt of the PWB rifle, Springfield Armory's model shop fabricated a very similar shortened M1 that was designated as the "T26". One of the more noticeable differences was that the shortened PWB rifle had a cut-down front handguard (secured by an M1903 rifle barrel band), while the T26 rifle was not fitted with a front handguard. It had been determined that the full-length stock was superior to the M1E5's folding stock, so the T26 used a standard M1 rifle stock.
The PWB rifle, serial No. 2437139, and Springfield Armory's T26 were sent to Aberdeen Proving Ground (APG) on 26 July 1945, for testing. The APG report related that a standard M1 rifle, serial No. 1,032,921, was the "control" rifle to which the shorter rifle was compared during the testing. The results mirrored those of the M1E5's previous testing. The test report found that the modified rifle's muzzle flash, blast, and recoil were all significantly higher than that of the standard rifle. Additionally, it was less reliable, leading to it being declared "totally unsuitable as a combat weapon". Nonetheless, in July 1945, 15,000 short M1 rifles were requested for use by airborne troops. The rifles were supposed to be produced within the next five months, but the procurement was canceled due to the Surrender of Japan in August 1945. [59]
Springfield Armory made 637,420 more M1 rifles from 1952 to 1957 and contracts were met with two private firms. Harrington & Richardson made 428,600 from 1953 to 1956 and International Harvester made 337,623 from 1953 to 1957. In total 5,468,772 M1 rifles were made from 1937 to 1957. [60]
Another variant that never saw duty was the T20E2. It was an experimental, gas-operated, selective fire rifle with a slightly longer receiver than the M1 and modified to accept 20-round Browning Automatic Rifle (BAR) magazines. The rifle was machined and tapped on the left side of the receiver for a scope mount, and included the same hardware for mounting a grenade launcher as the M1. The bolt had a hold-open device on the rear receiver bridge, as well as a fire selector similar to the M14. Full automatic fire was achieved by a connector assembly which was actuated by the operating rod handle. This, in turn, actuated a sear release or trip which, with the trigger held to the rear, disengaged the sear from the hammer lugs immediately after the bolt was locked. In automatic firing, the cyclic rate of fire was 700 rpm. When the connector assembly was disengaged, the rifle could only be fired semi-automatically and functioned in a manner similar to the M1 rifle. The T20 had an overall length of 48+1⁄4 inches, a barrel length of 24 inches, and weighed 9.61 lb without accessories and 12.5 lb with bipod and empty magazine. It was designated as limited procurement in May 1945. Due to the cessation of hostilities with Japan, the number for manufacture was reduced to 100. The project was terminated in March 1948.
U.S. Army designation | U.S. Navy designation | Description |
---|---|---|
T1 | — | Prototype |
T1E1 | — | A single trial rifle that broke its bolt in the 1931 trial |
T1E2 | — | Trial designation for gas-trap Garand. Basically a T1E1 with a new bolt. |
M1 | — | Basic model. Identical to T1E2. Later change to gas port did not change designation |
M1E1 | — | M1 Garand variant; modified cam angle in op-rod |
M1E2 | — | M1 Garand variant; prismatic scope and mount |
M1E3 | — | M1 Garand variant; roller added to bolt's cam lug (later adapted for use in the M14) |
M1E4 | — | M1 Garand variant; gas cut-off and expansion system with piston integral to op-rod |
M1E5 | — | M1 Garand variant; 18-inch (457 mm) barrel, pistol grip and folding stock, for Airborne use |
M1E6 | — | M1 Garand variant; sniper variant |
M1E7/M1C | — | M1E6 Garand variant; M1C sniper variant with 2.2× magnification M73 scope (later modified as the M81, though the M82 or M84 scope could be used) in a Griffin & Howe mount affixed to the left side of the receiver requiring a leather cheek pad to properly position the shooter's face behind the offset scope [58] |
M1E8/M1D | — | M1E7 Garand variant; M1D sniper variant with M82 scope (though the M84 scope could be used) in a Springfield Armory mount attached to the rear of the barrel allowing quick removal of the scope but similarly requiring the leather cheek pad [58] |
M1E9 | — | M1 Garand variant; similar to M1E4, with piston separate from op-rod |
M1E10 | — | M1 Garand variant; variant with the Ljungman direct gas system |
M1E11 | — | M1 Garand variant; short-stroke Tappet gas system |
M1E12 | — | M1 Garand variant; gas port moved back approx. 6 inches |
M1E13 | — | M1 Garand variant; "White" gas cut-off and expansion system |
M1E14 | Mk 2 Mod 0 | M1 Garand variant; rechambered in 7.62×51mm NATO with press-in chamber insert, enlarged gas port, and 7.62mm barrel bushing. [61] |
T20 | — | M1 Garand variant; select-fire conversion by John Garand, capable of using BAR magazines |
T20E1 | — | T20 variant; uses its own type of magazines |
T20E2 | — | T20 variant; E2 magazines will work in BAR, but not the reverse |
T20E2HB | — | T20E2 variant; HBAR (heavy barrel) variant |
T22 | — | M1 Garand variant; fully automatic select-fire conversion by Remington, magazine-fed |
T22E1 | — | T22 variant; improved magazine release and bolt hold-open device |
T22E2 | — | T22 variant; improved trigger group, gas cylinder, muzzle brake, and bipod |
T22E3HB | — | T22 variant; stock angled upwards to reduce muzzle climb; heavy barrel; uses T27 fire control |
T23 | — | M1 Garand variant; upward angled stock like T22E3HB; standard clip fed. |
T25 | — | T25 variant had a pistol grip: the stock angled upwards to reduce muzzle climb; and chambered for the new T65 .30 Light Rifle cartridge (7.62×49mm). [62] |
T26 | — | M1 Garand variant; 18-inch (457 mm) barrel and standard stock, 1 prototype made by Springfield Armory used for testing, proposed use was for airborne and jungle operations. |
PWB rifle | — | M1 Garand variant; 18-inch (457 mm) barrel and standard stock and shortened foregrip secured with M1903 barrel band. 150 made in the Pacific theater of operations upon request by the Pacific War Board for airborne and jungle use. [59] |
T27 | — | Remington select-fire field conversion for M1 Garand; ability to convert issue M1 Garands to select-fire rifles; fire control setup used in T22E3 |
T31 | — | Experimental bullpup variant |
T35 | Mk 2 Mod 1 | M1 Garand variant; rechambered for 7.62×51mm NATO; While the majority used the standard en bloc clip, a small number were experimentally fitted with a 10-round internal magazine loaded by 5-round stripper clips. [63] |
T36 | — | T20E2 variant; rechambered for 7.62×51mm NATO using T35 barrel and T25 magazine |
T37 | — | T36 variant; same as T36, except in gas port location |
T44 | — | T44 variant; was a conventional design developed on a shoestring budget as an alternative to the T47. [62] With only minimal funds available, the earliest T44 prototypes simply used T20E2 receivers fitted with magazine filler blocks and re-barreled for 7.62×51mm NATO, with the long operating rod/piston of the M1 replaced by the T47's gas cut-off system. [62] |
T47 | — | T47 variant; same as the T25, except for a conventional stock and chambered for 7.62×51mm NATO. [62] |
Demilitarized models are rendered permanently inoperable, unless proper techniques, tools, and replacement parts are used to restore the rifle to safe operation. Their barrels have been drilled out to destroy the rifling. A steel rod is then inserted into the barrel and welded at both ends. Sometimes, their barrels are also filled with molten lead or solder. Their gas ports or operating system are also welded closed. Their barrels are then welded to their receivers to prevent replacement. Their firing pin holes are welded closed on the bolt face. As a result, they cannot be loaded with, much less fire live ammunition. However, they may still be used for demonstration or instructional purposes.
Nomenclature | National Stock Number | Description |
---|---|---|
Rifle, Inert, Caliber .30, M1 | 1005-00-599-3289 | Demilitarized and barrel plugged. US Air Force instructional use. |
Rifle, Training Aid, Caliber .30, M1 | 1005-01-061-2456 | Demilitarized and barrel plugged. Instructional use. |
Rifle, Dummy Drill, Caliber .30, M1 | 1005-01-113-3767 | Demilitarized. Barrel is unplugged but is welded to the receiver. ROTC instructional use. |
Rifle, Ceremonial, Caliber .30, M1 | 1005-01-095-0085 | Gas cylinder lock valve is removed and the gas system has welds permanently joining the lock and gas cylinder to prevent reversion. Barrel is unplugged but is welded to the receiver. The weapon has been converted from semi-automatic to a repeater and can only fire blanks. The bolt must be cycled to eject the spent cartridge case and reload a fresh round from the internal clip. Used by American Legion and Veterans of Foreign Wars honor guards for parading and firing ceremonial salutes. |
M1 Garands in Pakistan were found to be chambered in 7.92×57 mm due to a lack of .30-06 ammo in the country. [64]
Modern Garands can be gunsmith built in several novel cartridges, with examples known up to .458 Winchester Magnum. While not common, 6.5×55mm Swedish barrels are occasionally available to convert with nothing more than a barrel change, though the en bloc clips are more difficult to load and often require a tool.
The Type 4 Rifle, often referred to as the Type 5 Rifle (Japanese: 四式自動小銃 Yon-shiki jidousyoujyuu), was a Japanese prototype semi-automatic rifle. [65] It was a copy of the American M1 Garand but with an integral 10-round magazine and chambered for the Japanese 7.7×58mm Arisaka cartridge. [66] Where the Garand used an en bloc clip, the Type 4's integral magazine was charged with two 5-round stripper clips and the rifle also used Japanese style tangent sights. The Type 4 had been developed alongside several other prototypical semi-automatic rifles. However, none of the rifles entered into service before the end of World War II, with only 250 being made and many others were never assembled. There were several problems with jamming and feed systems, which also delayed its testing.
During the 1950s, Beretta produced Garands in Italy at the behest of NATO, by having the tooling used by Winchester during World War II shipped to them by the U.S. government. These rifles were designated "Model 1952" in Italy. Using this tooling, Beretta developed the BM59 series of rifles. The BM59 was essentially a rechambered 7.62×51mm NATO caliber M1 fitted with a removable 20-round magazine, folding bipod and a combined flash suppressor-rifle grenade launcher. The BM59 is capable of selective fire. These rifles were produced under license in Indonesia as the "SP-1" series.
The M14 rifle, officially the United States Rifle, 7.62 mm, M14, [67] is an American selective fire automatic rifle that fires 7.62×51mm NATO (.308 Winchester) ammunition. The M14 rifle is basically an improved select-fire M1 Garand with a 20-round magazine. [68] [69]
Designed by L. James Sullivan [70] and William B. Ruger, and produced by Sturm, Ruger & Co. the Mini-14 rifle employs an investment cast, heat-treated receiver and a version of the M1/M14 rifle locking mechanism. [71]
In 1982, years after the closure of the U.S. Springfield Armory, a commercial firm – Springfield Armory, Inc. – began production of the M1 Rifle using a cast, heat-treated receiver with serial numbers in the 7,000,000+ range, along with commercially produced barrels (marked Geneseo, IL) and G.I. military surplus parts. [72]
United States citizens meeting certain qualifications may purchase U.S. military surplus M1 rifles through the Civilian Marksmanship Program (CMP). The CMP is run by the Corporation for the Promotion of Rifle Practice and Firearms Safety (CPRPFS), a not-for-profit corporation chartered by the United States Congress in 1996 to instruct citizens in marksmanship and promote practice and safety in the use of firearms. [73] The group holds a congressional charter under Title 36 of the United States Code. From 1903 to 1996, the CMP was sponsored by the Office of the Director of Civilian Marksmanship (DCM), a position first within the Department of War and later in the Department of the Army. The DCM was normally an active-duty Army colonel.
In 2009, an effort by the South Korean government to export about 850,000 firearms to the United States, including 87,000 M1 rifles, for eventual sale to civilians, was initially approved by the Obama administration, but it later blocked the sale in March 2010. [74] A State Department spokesman said the administration's decision was based on concerns that the guns could fall into the wrong hands and be used for criminal activity. [74] However, in January 2012, the U.S. and South Korea agreed on the sale of 87,000 M1 Garand rifles, and the South Korean government entered into discussion with U.S. civilian arms dealers. [75] Korea has sold tens of thousands of M1 Garand rifles to the U.S. civilian market between 1986 and 1994. [75] In 2018, the CMP reported they had received a shipment of more than 90,000 M1 Garand rifles from the Philippines and also stated plans to restore many of those rifles for civilian sale. [76]
In August 2013, the Obama administration banned future private importation of all U.S. made weapons, including the M1 Garand. [77] [ better source needed ] This action did not preclude the return of surplus U.S. weapons, including M1 Garands, previously loaned by the U.S. to friendly nations, to the custody of the U.S. Government; in recent years, the CMP has received most of its surplus weapons through such returns from foreign countries. However, all civilian and military firearms imported into the U.S. after 30 January 2002, are required by federal law to have the name of the importer conspicuously stamped on the barrel, slide, or receiver of each weapon. [78] This requirement significantly lowers a military weapon's value relative to those without the importation markings as they distract from its original state. [79]
Military surplus Garands and post-war copies made for the civilian market are popular among enthusiasts. In 2015, John F. Kennedy's personal M1 Garand was auctioned by Rock Island Auction Company and sold for $149,500. [80] This rifle was acquired by Kennedy in 1959 from the Director of Civilian Marksmanship and has the serial number 6086970.[ citation needed ]
A carbine is a long gun that has a barrel shortened from its original length. Most modern carbines are rifles that are compact versions of a longer rifle or are rifles chambered for less powerful cartridges.
A semi-automatic rifle is an auto-loading rifle that fires a single cartridge with each pull of the trigger. It uses part of the fired cartridge's energy to eject the case and automatically loads another cartridge into its chamber. This is in contrast to bolt-action or lever-action rifles, which will require the user to manually chamber a new round before they can fire again, and fully automatic rifles, which fire continuously while the trigger is held down.
The M1 carbine is a lightweight semi-automatic carbine that was issued to the U.S. military during World War II, the Korean War, and the Vietnam War. The M1 carbine was produced in several variants and was widely used by paramilitary and police forces around the world after World War II.
The M14 rifle, officially the United States Rifle, Caliber 7.62 mm, M14, is an American battle rifle chambered for the 7.62×51mm NATO cartridge. It became the standard-issue rifle for the U.S. military in 1957, replacing the M1 Garand rifle in service with the U.S. Army by 1958 and the U.S. Marine Corps by 1965; deliveries of service rifles to the U.S. Army began in 1959. The M14 was used by the U.S. Army, Navy, and Marine Corps for Basic and Advanced Individual Training from the mid-1960s to the early 1970s.
An automatic rifle is a type of autoloading rifle that is capable of fully automatic fire. Automatic rifles are generally select-fire weapons capable of firing in semi-automatic and automatic firing modes. Automatic rifles are distinguished from semi-automatic rifles in their ability to fire more than one shot in succession once the trigger is pulled. Most automatic rifles are further subcategorized as battle rifles or assault rifles.
The M1903 Springfield, officially the U.S. Rifle, Caliber .30, M1903, is an American five-round magazine-fed, bolt-action service repeating rifle, used primarily during the first half of the 20th century.
The Springfield Armory, more formally known as the United States Armory and Arsenal at Springfield located in the city of Springfield, Massachusetts, was the primary center for the manufacture of United States military firearms from 1777 until its closing in 1968. It was the first federal armory and one of the first factories in the United States dedicated to the manufacture of weapons. The site is preserved as the Springfield Armory National Historic Site, Western Massachusetts' only unit of the national park system. It features the world's largest collection of historic American firearms.
The Springfield Armory M1A is a semi-automatic rifle made by Springfield Armory, Inc., beginning in 1971, based on the M14 rifle, for the civilian and law enforcement markets in the United States. "M1A" is a proprietary name for Springfield Armory's M14-pattern rifle. Early M1A rifles were built with surplus G.I. parts until Springfield Armory, Inc. began manufacturing their own. Robert Reese bought Springfield Armory from Elmer Ballance and moved the manufacturing from Devine, Texas to Geneseo, Illinois in 1974.
A magazine, often simply called a mag, is an ammunition storage and feeding device for a repeating firearm, either integral within the gun or externally attached. The magazine functions by holding several cartridges within itself and sequentially pushing each one into a position where it may be readily loaded into the barrel chamber by the firearm's moving action. The detachable magazine is sometimes colloquially referred to as a "clip", although this is technically inaccurate since a clip is actually an accessory device used to help load ammunition into a magazine or cylinder.
The ArmaLite AR-15 is a gas-operated assault rifle manufactured in the United States between 1959 and 1964. Designed by American gun manufacturer ArmaLite in 1956, it was based on its AR-10 rifle. The ArmaLite AR-15 was designed to be a lightweight rifle and to fire a new high-velocity, lightweight, small-caliber cartridge to allow infantrymen to carry more ammunition.
A battle rifle is a service rifle chambered to fire a fully powered cartridge.
A clip is a device that is used to store multiple rounds of ammunition together as a unit for insertion into the magazine or cylinder of a firearm. This speeds up the process by loading the firearm with multiple rounds simultaneously, rather than individually, as with loose rounds of ammunition. There are several types, most made of inexpensive stamped sheet metal, generally they are intended to be disposable, but they are more often retained and reused.
Gas-operation is a system of operation used to provide energy to operate locked breech, autoloading firearms. In gas-operation, a portion of high-pressure gas from the cartridge being fired is used to power a mechanism to dispose of the spent case and insert a new cartridge into the chamber. Energy from the gas is harnessed through either a port in the barrel or a trap at the muzzle. This high-pressure gas impinges on a surface such as a piston head to provide motion for unlocking of the action, extraction of the spent case, ejection, cocking of the hammer or striker, chambering of a fresh cartridge, and locking of the action.
The M1917 Enfield, the "American Enfield", formally named "United States Rifle, cal .30, Model of 1917" is an American modification and production of the .303-inch Pattern 1914 Enfield (P14) rifle, which was developed and manufactured during the period 1917–1918. Numerically, it was the main rifle used by the American Expeditionary Forces in Europe during World War I. The Danish Sirius Dog Sled Patrol in Greenland still use the M1917, which performs reliably in Arctic conditions, as their service weapon.
The Pedersen Rifle, officially known in final form as the T1E3 rifle, was a United States semi-automatic rifle designed by John Pedersen that was made in small numbers for testing by the United States Army during the 1920s as part of a program to standardize and adopt a replacement for the M1903 Springfield.
The M1941 Johnson Rifle is an American short-recoil operated semi-automatic rifle designed by Melvin Johnson prior to World War II. The M1941 unsuccessfully competed with the contemporary M1 Garand rifle but was used in limited numbers by the US Marines during the Second World War.
An intermediate cartridge is a rifle/carbine cartridge that has significantly greater power than a pistol cartridge but still has a reduced muzzle energy compared to fully powered cartridges, and therefore is regarded as being "intermediate" between traditional rifle and handgun cartridges.
An assault rifle is a select fire rifle that uses an intermediate-rifle cartridge and a detachable magazine. Assault rifles were first put into mass production and accepted into widespread service during World War II. The first assault rifle to see major usage was the German StG 44, a development of the earlier Mkb 42. While immediately after World War II, NATO countries were equipped with battle rifles, the development of the M16 rifle during the Vietnam War prompted the adoption of assault rifles by the rest of NATO. By the end of the 20th century, assault rifles had become the standard weapon in most of the world's armies, replacing full-powered rifles and submachine guns in most roles. The two most successful modern assault rifles are the AK-47 and the M16 designs and their derivatives.
The M7 grenade launcher, formally rifle grenade launcher, M7, was a 22 mm rifle grenade launcher attachment for the M1 Garand rifle that saw widespread use throughout World War II and the Korean War. The M7 was a tube-shaped device, with one end slotting over the muzzle of the rifle and attaching to the bayonet mount, and the other end holding the grenade in place. Blank cartridges were loaded into the rifle prior to firing. When fired, the expanding gases generated by the cartridges propelled the grenade forward with considerable force. The M7 could fire grenades up to 200 metres, compared with the maximum of 30 metres achieved by a hand-thrown grenade.
The T48 was a battle rifle tested by the U.S. military in the mid 1950s during trials to find a replacement for the M1 Garand. It was a license-produced copy of the Belgian FN FAL rifle. The rifle did not enter service, as the U.S. military decided to adopt the M14 rifle instead.
Pronounced with the G hard as in go, and the stress on the first syllable, to rhyme with parent (except that the final sound is d instead of t).
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