Carbine, Caliber .30, M1 | |
---|---|
Type | Semi-automatic rifle (M1) Selective-fire assault rifle (M2/M3) |
Place of origin | United States |
Service history | |
In service |
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Used by | See Users |
Wars |
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Production history | |
Designer |
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Designed | 1941 |
Manufacturer | |
Unit cost | About $45 (WWII) (equivalent to $790in 2023) |
Produced |
|
No. built | 6,121,309 (WWII) [9] |
Variants | See Variants |
Specifications | |
Mass | 5.2 lb (2.4 kg) empty 5.8 lb (2.6 kg) loaded w/sling |
Length | 35.6 in (900 mm) |
Barrel length | 17.75 in (451 mm) |
Cartridge | .30 Carbine |
Action | Gas-operated (short-stroke piston), rotating bolt |
Rate of fire |
|
Muzzle velocity | 1,990 ft/s (607 m/s) |
Effective firing range | 219–328 yd (200–300 m) [10] |
Feed system | 15- or 30-round detachable box magazine |
Sights |
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The M1 carbine (formally the United States carbine, caliber .30, M1) 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. [11] 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 M2 carbine is the selective-fire version of the M1 carbine, capable of firing in both semi-automatic and full-automatic. The M3 carbine was an M2 carbine with an active infrared scope system. [12]
Despite having a similar name and physical outward appearance, the M1 carbine is not a carbine version of the M1 Garand rifle. On 1 July 1925, the U.S. Army began using the current naming convention where the "M" is the designation for "Model" and the number represents the sequential development of equipment and weapons. [13] Therefore, the "M1 carbine" was the first carbine developed under this system. The "M2 carbine" was the second carbine developed under the system, etc.
Prior to World War II, the U.S. Army Ordnance Department received reports that the full-size M1 rifle was too heavy and cumbersome for most support troops (staff, artillerymen, radiomen, etc.) to carry. During pre-war and early war field exercises, it was found that the M1 Garand impeded these soldiers' mobility, as a slung rifle would frequently catch on brush or hit the back of the helmet and tilt it over the eyes. Many soldiers found the rifle slid off the shoulder unless slung diagonally across the back, where it prevented the wearing of standard field packs and haversacks. [14]
Additionally, Germany's use of glider-borne and paratrooper forces to launch surprise blitzkrieg attacks behind the front lines generated a request for a new compact infantry weapon to equip support troops. [15] [16] This request called for a compact, lightweight defensive weapon with greater range, accuracy and firepower than a handgun, while weighing half as much as the Thompson submachine gun or the M1 rifle. [15] The U.S. Army decided that a carbine-type weapon would adequately fulfill all of these requirements, and specified that the new arm should weigh no more than 5 pounds (2.3 kg) and have an effective range of 300 yards (270 m). [17] [18] Paratroopers were also added to the list of intended users and a folding-stock version would also be developed. [19]
In 1938, the chief of infantry requested that the ordnance department develop a "light rifle" or carbine, though the formal requirement for the weapon type was not approved until 1940.
Winchester developed the .30 Carbine cartridge for the ordnance department. Winchester at first did not submit a carbine design, as it was occupied in developing the Winchester G30 rifle. The G30 rifle originated as a design by Jonathan "Ed" Browning, half-brother of the famous firearm designer John Moses Browning. A couple of months after Ed Browning's death in May 1939, Winchester hired David Marshall "Carbine" Williams who had begun work on a short-stroke gas piston design while serving a prison sentence at a North Carolina minimum-security work farm. Winchester, after Williams' release, had hired Williams on the strength of recommendations of firearms industry leaders and hoped Williams would be able to complete various designs left unfinished by Ed Browning, including the Winchester G30 rifle. Williams incorporated his short-stroke piston in the existing design as the G30M. After the Marine Corps' semi-automatic rifle trials in 1940, Browning's rear-locking tilting bolt design proved unreliable in sandy conditions. As a result, Williams redesigned the G30M to incorporate a Garand-style rotating bolt and operating slide, retaining the short-stroke piston as the .30 M2 Winchester Military Rifle. By May 1941, Williams had shaved the M2 rifle prototype from about 9.5 lb (4.3 kg) to a 7.5 lb (3.4 kg).
Ordnance found unsatisfactory the first series of prototype carbines submitted by several firearms companies and some independent designers. [18] Winchester had contacted the ordnance department to examine their rifle M2 design. Major René Studler of ordnance believed the rifle design could be scaled down to a carbine which would weigh 4.5 to 4.75 lb (2.04 to 2.15 kg) and demanded a prototype as soon as possible. The first model was developed at Winchester in 13 days by William C. Roemer, Fred Humeston and three other Winchester engineers under the supervision of Edwin Pugsley and was essentially Williams' last version of the .30-06 M2 scaled down to the .30 SL cartridge. [20] This patchwork prototype was cobbled together using the trigger housing and lockwork of a Winchester M1905 rifle and a modified Garand operating rod. The prototype was an immediate hit with army observers. [21]
After the initial Army testing in August 1941, the Winchester design team set out to develop a more refined version. Williams participated in the finishing of this prototype. The second prototype competed successfully against all remaining carbine candidates in September 1941, and Winchester was notified of their success the next month. Standardization as the M1 carbine was approved on 22 October 1941. This story was the loose basis for the 1952 movie Carbine Williams starring James Stewart. Contrary to the movie, Williams had little to do with the carbine's development, with the exception of his short-stroke gas piston design. Williams worked on his own design apart from the other Winchester staff, but it was not ready for testing until December 1941, two months after the Winchester M1 carbine had been adopted and type-classified. Winchester supervisor Edwin Pugsley conceded that Williams' final design was "an advance on the one that was accepted" but noted that Williams' decision to go it alone was a distinct impediment to the project, [20] and Williams' additional design features were not incorporated into M1 production. In a 1951 memo written in fear of a patent infringement lawsuit by Williams, Winchester noted his patent for the short-stroke piston may have been improperly granted as a previous patent covering the same principle of operation was overlooked by the patent office. [20]
In 1973, the senior technical editor at the NRA contacted Edwin Pugsley for "a technical last testament" on M1 carbine history shortly before his death on 19 November 1975. According to Pugsley, "The carbine was invented by no single man," but was the result of a team effort including: William C. Roemer, David Marshall Williams, Fred Humeston, Cliff Warner, at least three other Winchester engineers, and Pugsley himself. Ideas were taken and modified from the Winchester M2 Browning rifle (Williams' gas system), the Winchester Model 1905 rifle (fire control group and magazine), M1 Garand (buttstock dimensions, and bolt and operating slide principles), and a percussion shotgun in Pugsley's collection (hook breech and barrel band assembly/disassembly). [22]
The .30 Carbine cartridge is essentially a rimless version of the obsolete .32 Winchester Self-Loading cartridge introduced for the Winchester Model 1905 rifle. [23] The propellant was much newer, though, taking advantage of chemistry advances. As a result, the .30 Carbine cartridge is approximately 27% more powerful than its parent cartridge. A standard .30 Carbine ball bullet weighs 110 grains (7.1 g), a complete loaded round weighs 195 grains (12.6 g) and has a muzzle velocity of 1,990 ft/s (610 m/s) giving it 967 ft·lbf (1,311 joules) of energy, when fired from the M1 carbine's 17.75 in (451 mm) barrel.
In comparison, the .30-06 Springfield ball round used by the M1 Garand is almost three times as powerful as the .30 Carbine, while the carbine round is twice as powerful as the .45 ACP-caliber Thompson submachine gun in common use at the time. As a result, the carbine offers much better range, accuracy and penetration than those submachine guns. The M1 is also half the weight of the Thompson and fires a lighter cartridge. Therefore, soldiers armed with the carbine can carry much more ammunition than those armed with a Thompson. [15]
Categorizing the M1 carbine series has been the subject of much debate. Although commonly compared to the later German StG 44 and Russian AK-47, the M1 and M2 carbines are under-powered and outclassed. [24] Instead, the carbine falls somewhere between the submachine gun and assault rifle and could be called a precursor of the personal defense weapon since it fulfilled a similar role. [15]
One characteristic of .30 caliber Carbine ammunition is that from the beginning of production, non-corrosive primers were specified. This was the first major use of this type of primer in a military firearm. Because the rifle had a closed gas system, not normally disassembled in the field, corrosive primers would have led to a rapid deterioration of the function of the gas system. [25] The use of non-corrosive primers was a novelty in service ammunition at this time. [26] Some failures to fire were reported in early lots of .30 caliber Carbine ammunition, attributed to moisture ingress of the non-corrosive primer compound. [27]
The M1 carbine entered service with a simple flip sight, which had two settings: 150 and 300 yd (140 and 270 m). [28] However, field reports indicated that this sight was inadequate, and in 1944, it was replaced by a sliding ramp-type adjustable sight with four settings: 100 yd (91 m), 200 yd (180 m), 250 yd (230 m), and 300 yd (270 m). This new rear sight was also adjustable for windage. [9]
At 100 yards (91 m), the M1 carbine can deliver groups between 3 and 5 in (76 and 127 mm), sufficient for its intended purpose as a close-range defensive weapon. The M1 carbine has a maximum effective range of 300 yards (270 m). However, bullet drop is significant past 200 yards (180 m). [23] Therefore, the M1 has a practical effective range of about 200 yd (180 m). [29]
The M1 carbine entered service with a standard straight 15-round box magazine. The introduction of the select-fire M2 carbine in October 1944 [30] also brought into service the curved 30-round box magazine or "Banana Clip". [31] After WWII, the 30-round magazine quickly became the standard magazine for both the M1 and M2 carbines, although the 15-round magazine remained in service until the end of the Vietnam War. [24]
Perhaps the most common accessory used on the M1 carbine was a standard magazine belt pouch that was slid over the stock and held two extra 15-round magazines. This field adaptation was never officially approved but proved an efficient method to supply extra ammunition in combat. After the introduction of the 30-round magazine, it was common for troops to tape two 30-round magazines together, a practice that became known as "jungle style". This led the military to introduce the "Holder, Magazine T3-A1" also called the "jungle clip", a metal clamp that held two magazines together without the need for tape. [32]
The 30-round magazines introduced for use with the selective-fire M2 carbine would not be reliably retained by the magazine catch made for the original M1 carbine which was designed to retain a 15-round magazine, so the much heavier 30-round magazine would not be properly seated in the M1 carbine magazine well. The loaded 30-round magazine would typically slant (impairing feed reliability) or even fall out, which contributed to the poor reliability record of the 30-round magazines. Because of their thin steel construction, they were also more prone to damage due to their added length and weight when loaded. In response to these issues, early production M1 carbines had to be fitted with the type IV magazine catch used on the M2 carbine (and late production M1 carbines) if they were to be used with 30-round magazines in order to ensure reliable loading and feeding. The type IV magazine catch has a leg on the left side to correspond with the additional nub on the 30-round magazines. [33]
Initial combat reports noted that the M1 carbine's magazine release button was often mistaken for the safety button while under fire. [9] When this occurred, pressing the magazine release caused the loaded magazine to drop, while the safety remained in the off position. As a result, the push-button safety was redesigned using a rotating lever. [9] [34]
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Originally the M1 carbine did not have a bayonet lug, but personnel equipped with it were often issued with an M3 fighting knife. Due to requests from the field, the carbine was modified to incorporate a bayonet lug attached to the barrel band starting in 1945. [35] However, very few carbines with bayonet lugs reached the front lines before the end of World War II. After the war, the bayonet lug was added to many M1 carbines during the arsenal refurbishing process. By the start of the Korean War, the bayonet lug-equipped M1 was standard issue. It is now rare to find an original M1 carbine without the bayonet lug. The M1 carbine mounts the M4 bayonet, which was based on the earlier M3 fighting knife and formed the basis for the later M5, M6 and M7 bayonet-knives.
A folding-stock version of the carbine, the M1A1, was also developed after a request for a compact and light infantry arm for airborne troops. The Inland Division of General Motors manufactured 140,000 of them in two product runs in late 1942. [30] They were originally issued to the 82nd and 101st airborne divisions but were later issued to all U.S. Army Airborne units and the U.S. Marine Corps. [30] The folding-stock M1A1 is an unusual design in that the stock is not locked in the open or closed position, but is instead held in place by a spring-loaded cam.
As carbines were reconditioned, parts such as the magazine catch, rear sight, barrel band without bayonet lug, and stock were upgraded with current standard-issue parts. Also, both during and after World War II, many semi-automatic M1 carbines were converted to select-fire M2 carbines by using the T17 and T18 conversion kits. [36] The conversion included a modified sear, slide, and trigger housing, and added a disconnector, disconnector lever, and selector switch that could be set for semi-auto or full-automatic fire.
During World War II, the T23 (M3) flash hider was designed to reduce the muzzle flash from the carbine, but was not introduced into service until the advent of the M3 carbine. [37] With the exception of T23 hiders mounted on M3 carbines, few if any T23 flash-hider attachments saw service during the war, though unit armorers occasionally hand-built improvised compensator-flash-hiders of their own design. [37] [26]
Combat tests of the M2 carbine resulted in an Army Ground Forces request that led to development of the T13 recoil check adopted September 1945. [38]
The M1 carbine was used with the M8 grenade launcher (see M7 grenade launcher), which was developed in early 1944. It was fired with the .30 caliber Carbine M6 grenade blank cartridge to launch 22 mm rifle grenades. However, the stress from firing rifle grenades could eventually crack the carbine's stock, and it also could not use the launcher with the M7 auxiliary "booster" charge to extend its range without breaking the stock. This made the M1 carbine with M8 grenade launcher a type of emergency-use weapon.
A total of over 6.1 million M1 carbines of various models were manufactured, making it the most produced small arm for the American military during World War II (compared with about 5.4 million M1 rifles and about 1.3 million Thompson submachine guns). Despite being designed by Winchester, the great majority of these were made by other companies (see § Military contractors below). The largest producer was the Inland division of General Motors, but many others were made by contractors as diverse as IBM, the Underwood Typewriter Company, and Rock-Ola Manufacturing Corporation. Few contractors made all the parts for carbines bearing their names: some makers bought parts from other major contractors or sub-contracted minor parts to companies like Marlin Firearms or Auto-Ordnance. Parts by all makers were required to be interchangeable. Often one company would get ahead or behind in production and parts would be shipped from one company to the other to help them catch up on their quota. When receivers were shipped for this purpose, the manufacturers would often mark them for both companies. Some of the strangest combinations were the M1s made by the combined efforts of Underwood and Quality Hardware, resulting in the manufacturer mark "Un-quality". [39] The receiver was subcontracted from Union Switch and Signal, not Underwood. Many carbines were refurbished at several arsenals after the war, with many parts interchanged from original maker carbines. True untouched war production carbines, therefore, are the most desirable for collectors. [40]
The M1 carbine was also one of the most cost-effective weapons used by the United States military during World War II. At the beginning of World War II, the average production cost for an M1 carbine was approximately $45, about half the cost of an M1 rifle at approximately $85 and about a fifth of the cost of a Thompson submachine gun at approximately $225. The .30 caliber Carbine ammunition was also far cheaper to produce than the standard .30-06 ammunition; used fewer resources, was smaller, lighter and easier to make. These were major factors in the United States military decision to adopt the M1 carbine, especially when considering the vast numbers of weapons and ammunition manufactured and transported by the United States during World War II.[ citation needed ]
The M1 carbine with its reduced-power .30 cartridge was not originally intended to serve as a primary weapon for combat infantrymen, nor was it comparable to more powerful assault rifles developed late in the war. However, it was markedly superior to the .45 caliber submachine guns in use at the time in both accuracy and penetration, [15] and its lighter .30 caliber cartridge allowed soldiers to carry more ammunition. As a result, the carbine was soon widely issued to infantry officers, American paratroopers, non-commissioned officers, ammunition bearers, forward artillery observers, and other frontline troops. [41] The first M1 carbines were delivered in mid-1942, with initial priority given to troops in the European Theater of Operations (ETO). [15]
During World War II a standard U.S. Army infantry company was issued a total of 28 M1 carbines. [42] The company headquarters was issued nine carbines (for the company commander, executive officer, first sergeant, mess sergeant, supply sergeant, bugler, and three messengers), the weapons platoon was issued sixteen carbines (for the platoon leader, platoon sergeant, two platoon messengers in the platoon headquarters, one messenger in each of the two mortar and machine gun section headquarters, and ten for the mortar and machine gun ammunition bearers), and the three rifle platoons were issued one each (for the platoon leader). [42]
The M1 carbine gained generally high praise for its small size, light weight and firepower, especially by those troops who were unable to use a full-size rifle as their primary weapon. [27] [43] However, its reputation in front-line combat was mixed and negative reports began to surface with airborne operations in Sicily in 1943, [44] and increased during the fall and winter of 1944. [45]
In the Asiatic-Pacific Theater, soldiers and guerrilla forces operating in heavy jungle with only occasional enemy contact praised the carbine for its small size, light weight, and firepower. [46] However, soldiers and marines engaged in frequent daily firefights (particularly those serving in the Philippines) found the weapon to have insufficient penetration and stopping power. [26] [47] While carbine bullets would easily penetrate the front and back of steel helmets, as well as the body armor used by Japanese forces of the era, [48] [49] reports of the carbine's failure to stop enemy soldiers, sometimes after multiple hits, appeared in individual after-action reports, postwar evaluations, and service histories of both the U.S. Army and the U.S. Marine Corps. [26] [47]
The carbine's exclusive use of non-corrosive-primer ammunition was found to be ideal by troops and ordnance personnel serving in the Pacific, where barrel corrosion was a significant issue with the corrosive primers used in .30-06 caliber weapons. [26] However, in the European theatre, some soldiers reported misfires attributed to moisture ingress of the non-corrosive primer compound. [27]
Initially, the M1 carbine was intended to have a select-fire capability, but the requirement for rapid production of the new carbine resulted in the omission of this feature from the Light Rifle Program. On 26 October 1944, in response to the Germans' widespread use of automatic weapons, especially the Sturmgewehr 44 assault rifle, the select-fire M2 carbine was introduced, along with a new 30-round magazine. The M2 had a fully automatic rate-of-fire of 750-775 rounds-per-minute. Although actual M2 production began late in the war (April 1945), U.S. Ordnance issued conversion-part kits to allow field conversion of semi-auto M1 carbines to the selective-fire M2 configuration. These converted M1/M2 select-fire carbines saw limited combat service in Europe, primarily during the final Allied advance into Germany. In the Pacific, both converted and original M2 carbines saw limited use in the last days of the fighting in the Philippines. [26]
The M3 carbine was an M2 carbine with the M2 infrared night sight or sniperscope . [12] The M3 did not have iron sights. [12] It was first used in combat by Army units during the invasion of Okinawa, where about 150 M3 carbines were used. For the first time, U.S. soldiers had a weapon that allowed them to visually detect Japanese infiltrating into American lines at night, even during complete darkness. A team of two or three soldiers was used to operate the weapon and provide support. [41] At night, the scope would be used to detect Japanese patrols and assault units moving forward. At that point, the operator would fire a burst of automatic fire at the greenish images of enemy soldiers. [41] The M3 carbine had an effective range of about 70 yards (64 meters), limited by the visual capabilities of the sight. [50] Fog and rain further reduced the weapon's effective range. [41] [50] However, it is estimated that 30% of Japanese casualties inflicted by rifle and carbine fire during the Okinawan campaign were caused by the M3 carbine. [41]
The system was refined over time, and by the Korean War the improved M3 infrared night sight was in service. The M3 sight has a longer effective range than its predecessor, about 125 yards (114 meters). However, it still required the user to carry a heavy backpack-mounted battery pack to power the scope and infrared light. They were used primarily in static defensive positions in Korea to locate troops attempting to infiltrate in darkness. M3 operators would not only use their carbines to dispatch individual targets, but also used tracer ammo to identify troop concentrations for machine gunners to decimate. [9] In total, about 20,000 sets were made before they became obsolete, and were given to the public as surplus.[ citation needed ]
By the Korean War, the select fire M2 carbine had largely replaced the submachine-gun in U.S. service [51] and was the most widely used carbine variant. [9] [52] However, the semi-auto M1 carbine was also widely used- especially by support troops. However, in Korea, all versions of the carbine soon acquired a widespread reputation for jamming in extremely cold weather, [53] [52] [54] this being eventually traced to weak return springs, freezing of parts due to overly viscous lubricants and inadequate cartridge recoil impulse as the result of subzero temperatures. [55] [56]
There were also many complaints from individual soldiers that the carbine bullets failed to stop heavily clothed [57] [56] [58] [59] or gear-laden [60] [59] [61] North Korean and Chinese (PVA) troops even at close range and after multiple hits. [52] [55] [62] Marines of the 1st Marine Division also reported instances of carbine bullets failing to stop enemy soldiers, and some units issued standing orders for carbine users to aim for the head. [56] [57] PVA infantry forces who had been issued captured U.S. small arms disliked the carbine for the same reason. [63]
A 1951 official U.S. Army evaluation reported that ..."There are practically no data bearing on the accuracy of the carbine at ranges in excess of 50 yd (46 m). The record contains a few examples of carbine-aimed fire felling an enemy soldier at this distance or perhaps a little more. But they are so few in number that no general conclusion can be drawn from them. Where carbine fire had proved killing effect, approximately 95 percent of the time the target was dropped at less than 50 yd (46 m)." [55] The evaluation also reported that ..."Commanders noted that it took two to three engagements at least to settle their men to the automatic feature of the carbine so that they would not greatly waste ammunition under the first impulse of engagement. By experience, they would come to handle it semi-automatically, but it took prolonged battle hardening to bring about this adjustment in the human equation." [55]
Despite its mixed reputation, the M2 carbine's firepower often made it the weapon of choice, when it came to night patrols in Korea. [55] The M3 carbine with its infrared sniper scope was also used against night infiltrators, especially during the static stages of the conflict.[ citation needed ]
The M1 and M2 carbines issued to U.S. forces were first given to American military advisors in Vietnam beginning in 1956, [64] and later, the United States Air Force Security Police and United States Army Special Forces. These weapons began to be replaced by the M16 in 1964, and they were generally out of service by the 1970s. By the war's end, it was estimated that a total of 1.5 million M1 and M2 carbines were left in Vietnam. [64]
At least 793,994 M1 and M2 carbines were given to the South Vietnamese and were widely used throughout the Vietnam War. [65] A number were captured during the war by Viet Cong, [66] with some made compact by shortening the barrel and/or stock. [9] "While the carbine's lighter weight and high rate of fire made it an excellent weapon for small-statured Asians, these guns lacked sufficient hitting power and penetration, and they were eventually outclassed by the AK-47 assault rifle." [24] The M1/M2/M3 carbines were the most heavily produced family of U.S. military weapons for several decades. They were used by every branch of the U.S. Armed Forces.[ citation needed ]
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After World War II, the M1 and M2 carbines were widely exported to U.S. allies and client states (1,015,568 to South Korea, 793,994 to South Vietnam, 269,644 to France, etc.), [65] they were used as a frontline weapon well into the Vietnam War era, and they continue to be used by military, police, and security forces around the world to this day.
During World War II, the British SAS used the M1 and M1A1 carbines after 1943. The weapon was taken into use simply because a decision had been taken by Allied authorities to supply .30 caliber weapons from U.S. stocks in the weapons containers dropped to Resistance groups sponsored by an SOE, or later also Office of Strategic Services (OSS), organizer, on the assumption the groups so supplied would be operating in areas within the operational boundaries of U.S. forces committed to Operation Overlord.[ citation needed ] They were found to be suited to the kind of operation the two British, two French, and one Belgian Regiment carried out. It was handy enough to parachute with, and, in addition, could be easily stowed in an operational Jeep. Other specialist intelligence collection units, such as 30 Assault Unit sponsored by the Naval Intelligence Division of the British Admiralty, which operated across the entire Allied area of operations, also made use of this weapon.[ citation needed ]. The carbine continued to be utilized as late as the Malayan Emergency, by the Police Field Force of the Royal Malaysian Police, along with other units of the British Army, were issued the M2 carbine for both jungle patrols and outpost defense. [67] [68] [69] The Royal Ulster Constabulary also used the M1 carbine. [70]
Small numbers of captured M1 carbines were used by German forces in World War II, particularly after D-Day. [71] The German designation for captured carbines was Selbstladekarabiner 455(a). The "a" came from the country name in German; in this case, Amerika. It was also used by German police and border guards in Bavaria after World War II and into the 1950s. The carbines were stamped according to the branch they were in service with; for instance, those used by the border guard were stamped " Bundesgrenzschutz ". Some of these weapons were modified with different sights, finishes, and sometimes new barrels.
A variant was produced shortly after World War II by Japanese manufacturer Howa Machinery, under U.S. supervision. These were issued to all branches of the Japan Self-Defense Forces, and large numbers of them found their way to Southeast Asia during the Vietnam War. Howa also made replacement parts for US-made M1 carbines issued to Japanese police and military.[ citation needed ]
The M1 carbine was also used by the Israeli Palmach-based special forces in the 1948 Arab–Israeli War. And, because of their compact size and semi-automatic capabilities, they continued to be used by Israeli Defence Forces after the creation of Israel. The Israeli police still use the M1 carbine as a standard long gun for non-combat elements and Mash'az volunteers.
The U.S. provided France with 269,644 M1 and M2 carbines from World War II to 1963. [65] The carbines were used by the French Paratroopers and Legionnaires, as well as specialists (e.g., drivers, radio operators, engineers), during the First Indochina War, [72] the Algerian War [73] and the Suez Crisis.
The U.S. provided the Army of the Republic of Vietnam with 793,994 M1 and M2 carbines from 1963 to 1973. [65] Along with tens of thousands of carbines left behind by the French after the First Indochina War, the M1 and M2 carbines were the most widely issued small arm during the early stages in the Vietnam War and remained in service in large numbers until the fall of Saigon. The South Vietnamese would also receive 220,300 M1 Garands and 520 M1C/M1D rifles, [74] and 640,000 M16 rifles.
The Viet Minh and the Viet Cong also used large numbers of M1 and M2 carbines, captured from the French, ARVN and local militia forces of South Vietnam, as well as receiving many thousands of carbines from the North Vietnamese Army (NVA), China and North Korea. Over time, the SKS and eventually the AK-47 would replace the carbine to become the dominant weapons used by the Viet Cong.
The Republic of Korea Armed Forces received 1,015,568 M1 and M2 carbines from 1963 to 1972. [65] Along with hundreds of thousands of Carbines and M1 Garands provided by the United States Army before, during and shortly after the Korean War, South Korea would become the largest single recipient of American M1 and M2 carbines.
The Republic of Korea Armed Forces in Vietnam used M1 and M2 carbines in the early years of participation of the Vietnam War until the forces received the M16 rifle from the United States. [75]
The government of the Philippines still issues M1 carbines to the infantrymen of the Philippine Army's 2nd Infantry Division [ citation needed ] assigned in Luzon Island (some units are issued just M14 automatic rifles and M1 carbines) and the Civilian Auxiliary Forces Geographical Unit (CAFGU) and Civilian Volunteer Organizations (CVO) spread throughout the Philippines. Certain provincial police units of the Philippine National Police (PNP) still use government-issued M1 carbines as well as some operating units of the National Bureau of Investigation (NBI). In many provinces in the Philippines, M1 carbines are still a highly valued light small arm. Elements of the New People's Army and Islamic secessionist movements value the carbine as a lightweight weapon and preferred choice for mountain and ambush operations.
The M1 carbine has become one of the most recognized firearms in Philippine society, with the Marikina-based company ARMSCOR Philippines still continues to manufacture .30 caliber ammunition for the Philippine market.
The M1 and M2 carbines were widely used by military, police, and security forces and their opponents during the many guerrilla and civil wars throughout Latin America until the 1990s, when they were mostly replaced by more modern designs. A notable user was Che Guevara who used them during the Cuban Revolution and in Bolivia where he was executed by a Bolivian soldier armed with an M2 carbine. [76] Guevara's fellow revolutionary Camilo Cienfuegos also used an M2 carbine that he modified with the pistol grip and foregrip from a Thompson submachine gun. Cienfuegos' carbine is on display in the Museum of the Revolution (Cuba).
In Rio de Janeiro, Brazil, a police battalion named Batalhão de Operações Policiais Especiais (BOPE, or "Special Police Operations Battalion") still uses the M1 carbine.[ citation needed ]
The unit data provided below refers to original U.S. Ordnance contract carbines the United States provided these countries. Many countries sold, traded, destroyed, and/or donated these carbines to other countries and/or private gun brokers. [65]
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The standard-issue versions of the carbine officially listed and supported were the M1, M1A1, M2 and M3. [115]
The M1A1 was designed in May 1942 for paratrooper units, and came with a folding stock, but was otherwise identical to a standard M1. [116] M1A1 carbines were made by Inland, a division of General Motors and originally came with the early "L" nonadjustable sight and barrel band without bayonet lug. Inland production of M1A1 carbines was interspersed with Inland production of M1 carbines with the standard stock. Stocks were often swapped out as carbines were refurbished at arsenals.
Initially, the M1 carbine was intended to have a selective-fire capability, but the decision was made to put the M1 into production without this feature. Fully automatic capability was incorporated into the design of the M2 (an improved, selective-fire version of the M1), introduced in 1944. The M2 featured the late M1 improvements to the rear sight, addition of a bayonet lug, and other minor changes.
Research into a conversion kit for selective fire began May 1944; the first kit was developed by Inland engineers, and known as the T4. Inland was awarded a contract for 500 T4 carbines in September 1944. Although the conversion was seen as satisfactory, the heavier 30-round magazine put greater strain on the magazine catch, necessitating the development of a sturdier catch. The slide, sear, and stock design also had to be modified. On fully automatic fire, the T4 model could fire about 750 rounds per minute, and generated a manageable recoil. [9]
Although some carbines were marked at the factory as M2, the only significant difference between an M1 and M2 carbine is in the fire control group. The military issued field conversion kits (T17 and T18) to convert an M1 to an M2. Legally a carbine marked M2 is always a machine gun for national firearms registry purposes. [119]
These M2 parts including the heavier M2 stock were standardized for arsenal rebuild of M1 and M1A1 carbines.
A modified round bolt replaced the original flat top bolt to save machining steps in manufacture. Many sources erroneously refer to this round bolt as an "M2 bolt" but it was developed as a standard part for new manufacture M1 and later M2 carbines and as a replacement part, with priority given to use on M1A1 and M2 carbines. [18] The slightly heavier round bolt did moderate the cyclic rate of the M2 on full automatic. [120]
Despite being in demand, very few M2 carbines saw use during World War II, and then mostly in the closing days against Japan. [9] The M2 carbine was logistically compatible with the millions of M1 carbines in U.S. service, and offered longer range, better accuracy and better penetration than (pistol caliber) submachine guns like the M1 Thompsons and M3 Grease Guns. [121] Therefore, after World War II, the M2 carbine largely replaced the submachine-guns in U.S. service, until it was itself replaced by the M16 rifle. [51]
The M2 model was the most widely used carbine variant during the Korean War. [9] A detailed study of the effectiveness of the M2 in the war was assembled by S. L. A. Marshall. He found that many troops complained on the lack of effective range of the gun, which allowed the enemy to get close enough to throw hand grenades. A more detailed analysis showed however that most troops who complained actually tended to run low on ammo, because they fired their M2 on fully automatic too soon. Troops who fired their guns on semi-automatic at distance generally complained less about the M2's effectiveness. Generally, the more seasoned troops used the latter approach. The carbine was usually given to second line troops (administrative, support, etc.), who had little combat experience and also did not have much training in small-unit tactics, but who usually had to engage the enemy at some critical moment, like a breakthrough or ambush. Marshall noted that almost all killing shots with carbines in Korea were at ranges of 50 yd (46 m) or less. The M2 was a preferred weapon for night patrols. The M2 was also used in the early stages of the Vietnam War by special forces, ARVN advisers, and air crews. [9]
Contemporary authors have struggled to categorize the M2 carbine. While it did introduce select-fire capability and an intermediate cartridge, its stopping power and weight was far below that of the StG 44. As such, it is considered by some to be an early predecessor to the assault rifle or personal defense weapon. [9]
The M3 carbine was an M2 carbine fitted with a mount designed to accept an infrared sight for use at night. It was initially used with the M1 sniperscope, and an active infrared sight, and saw action in 1945 with the Army during the invasion of Okinawa. Before the M3 carbine and M1 sniperscope were type-classified, they were known as the T3 and T120, respectively. The system continued to be developed, and by the time of the Korean War, the M3 carbine was used with the M3 sniperscope.
The M2 sniper scope extended the effective nighttime range of the M3 carbine to 100 yd (91 m). In the later stages of the Korean War, an improved version of the M3 carbine, with a revised mount, a forward pistol grip, and a new M3 sniperscope design was used in the latter stages of Korea and briefly in Vietnam. The M3 sniperscope had a large active infrared spotlight mounted on top of the scope body itself, allowing use in the prone position. The revised M3/M3 had an effective range of around 125 yd (114 m). [50] Eventually, the M3 carbine and its M3 sniperscope would be superseded by passive-design night vision scopes with extended visible ranges; the improved scopes in turn required the use of rifle-caliber weapons with flatter trajectories and increased hit probability.
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Several companies manufactured copies of the M1 carbine after World War II, which varied in quality. Some companies used a combination of original USGI and new commercial parts, while others manufactured entire firearms from new parts, which may or may not be of the same quality as the originals. These copies were marketed to the general public and police agencies but were not made for or used by the U.S. military. [124] [ page needed ]
In 1963, firearms designer Col. Melvin M. Johnson developer of the M1941 Johnson rifle offered the US Military a conversion of original US Military M1 carbines to his new 5.7mm MMJ cartridge, while also introducing a newly manufactured version of the M1 carbine called the "Spitfire" made by his Johnson Arms, Inc. business that was designed and built specifically for this new 5.7 mm (.22 in) wildcat cartridge (also known as the 5.7 mm MMJ or .22 Spitfire). [23] The Spitfire was advertised firing a 40-grain (2.6 g) bullet with a muzzle velocity of 3050 ft/s (930 m/s), though handloaders with careful selection of modern powders and appropriate bullets consistently safely exceed those numbers while remaining within the M1 carbine's maximum pressure rating of 38,500 psi (265 MPa). [23] In comparison, the "standard" load for the .30 Carbine has a .30 Carbine ball bullet weighing 110 grains (7.1 g); a complete loaded round weighs 195 grains (12.6 g) and has a muzzle velocity of 1,990 ft/s (610 m/s), giving it 967 ft⋅lbf (1,311 joules) of energy when fired from the M1 carbine's 17.75 in (451 mm) barrel. [23]
Johnson advertised the smaller caliber and the modified carbine as a survival rifle for use in jungles or other remote areas. It provided for light, easily carried ammunition in a light, fast handling carbine with negligible recoil. While the concept had some military application when used for this role in the selective-fire M2 carbine, it was not pursued, and few Spitfire carbines were made.
More recently, the Auto-Ordnance division of Kahr Arms began production of an M1 carbine replica in 2005 based on the typical M1 carbine as issued in 1944, without the later adjustable sight or barrel band with bayonet lug. The original Auto-Ordnance had produced various parts for IBM carbine production during World War II but did not manufacture complete carbines until the introduction of this replica. The AOM110 and AOM120 models (no longer produced) featured birch stocks and handguards, Parkerized receivers, flip-style rear sights and barrel bands without bayonet lugs. The current AOM130 and AOM140 models are identical except for American walnut stocks and handguards. [125] [126]
In 2014, Inland Manufacturing, LLC in Dayton, Ohio introduced the reproduction of the "Inland M1 carbine". Inland Manufacturing, LLC is a private entity that is producing reproductions of the M1 carbine and M1A1 paratrooper models that were built by the original Inland Division of General Motors from 1941 to 1945. The new Inland M1 carbines feature many of the same characteristics of the original Inland carbines and are manufactured in the US. The M1 carbine is modeled after the last production model that Inland manufactured in 1945 and features a Type 3 bayonet lug and barrel band, adjustable rear sights, push button safety, round bolt, and "low wood" walnut stock, and a 15-round magazine. A 30-round mag catch was utilized to allow high-capacity magazines. A "1944" M1 carbine is also available that has the same features as the 1945 only with a Type 2 barrel Band and 10-round magazine and is available for sale in most states with magazine capacity and bayonet lug restrictions. The M1A1 is modeled after a late production 1944 M1A1 paratrooper model with a folding "low wood" walnut stock, Type two barrel band, and includes the same adjustable sights which were actually introduced in 1944. [127]
An Israeli arms company (Advanced Combat Systems) offers a modernized bullpup variant called the Hezi SM-1. The company claims accuracy of 1.5 MOA at 100 yards (91 m). [128]
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The Ingram SAM rifles are M1 carbine derivatives in 5.56×45mm NATO (SAM-1), 7.62×39mm (SAM-2) and 7.62×51mm NATO (SAM-3). The 5.56×45mm versions accept M16 magazines, the 7.62×39mm accept AK magazines and the 7.62×51mm versions use FN FAL magazines. They did not catch on in competition against the Ruger Mini-14 in both the police and civilian markets. The Ingram SAM rifles are occasionally found on auction sites for collectors. [156] [157]
Iver Johnson's 9×19mm Parabellum carbine was introduced in 1985 until 1986 using modified Browning High Power 20-round magazines. [158]
Chiappa Firearms produces a 9mm M1 carbine derivative called the M1-9 which uses Beretta M9/92FS magazines. The Chiappa is not gas operated and instead relies on blowback operation. [159]
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Some U.S. states prohibit use of the .30 Carbine cartridge for hunting deer and larger animals due to a lessened chance of killing an animal in a single shot, even with expanding bullets. The M1 carbine is also prohibited for hunting in several states such as Pennsylvania [160] because of the semi-automatic function, and Illinois [161] which prohibits all non-muzzleloading rifles for big game hunting. Five-round magazines are commercially made for use in states that limit the capacity of semi-automatic hunting rifles. [162]
After World War II, the USA decommissioned surplus M1 carbines for sale to the general public. The last batch came from Blue Sky and Arlington Ordinance in 1963 and was sold to NRA members for $20 each. Inland Mfg continues to make new M1 carbine replicas. [163]
The M1 carbine was also used by various law enforcement agencies and prison guards and was prominently carried by riot police during the civil unrest of the late 1960s and early 1970s; until it was replaced in those roles by more modern .223 caliber semi-automatic rifles such as the Ruger Mini-14 and the Colt AR-15-type rifles in the late 1970s and early 1980s.
The ease of use and great adaptability of the weapon led to it being used by Malcolm X and Patty Hearst. Both were featured in famous news photographs carrying a version the carbine. One of these firearms was also the weapon used in the 1947 assassination of notorious American mobster Benjamin "Bugsy" Siegel.
At the busiest US port, Long Beach in California, an average of 8,400 cargo containers in the port area could be checked every day – but US Customs has fewer than 135 inspectors there. It was therefore almost by accident that, in March 1997, federal agents at the US–Mexico border opened two suspect sealed containers from Long Beach, and this led them to the largest illicit arms shipment ever intercepted en route from the USA to Mexico.2 The arms, including M-2 automatic rifles, had originally been left behind in Vietnam by the US armed forces.
contains many Ordnance documents related to the "Light Rifle" specification that led to the M1 carbine
Small-statured men such as Capt. Shore and Sgt. Audie Murphy liked the carbine, as its small stock dimensions fit them particularly well.
The M1 carbine (M1A1 shown) was one of America's most widely used arms in three major conflicts and a popular lend/lease item to Allied countries.
Officers were issued .45 M1911 pistols as individual weapons until 1943, when they were issued the M1 carbine in place of the pistol
Armored infantryman Herb Miller, of the U.S. 6th Armored Division, pointed out one of the M1's strong points, "I was very happy with the carbine... It's fast, it's easy to use in a hurry. For churches and houses and things like that, it was good".
Col. Gavin's love affair with his M1A1 carbine ended in Sicily, when his carbine and that of Maj. Vandervoort jammed repeatedly. Noticing that carbine fire rarely suppressed rifle fire from German infantry, he and Vandervoort traded with wounded soldiers for their M1 rifles and ammunition; Gavin carried an M1 rifle for the rest of the war.
Burgett, a machine-gunner in the 101st Airborne from Normandy to the Battle of the Bulge, witnessed several failures of the .30 carbine to stop German soldiers after being hit.
A soldier remembers the freezing, fearful retreat down the Korean Peninsula after the Chinese armies smashed across the border
In addition to their bulky cotton-padded telegroika coats, which could freeze solid with perspiration, Chicom infantry frequently wore vests or undercoats of thick goatskin.
Many Chinese troops carried either rice or shaoping, an unleavened bread flour mixture in a fabric tube slung over the shoulder
{{cite news}}
: CS1 maint: location (link)The failure of the .30 carbine round to stop enemy soldiers may not have been due to inadequate penetration. Marine Lt. James Stemple reported that he shot an enemy soldier with his M2 carbine four times in the chest and saw the padding fly out the back of the soldier's padded jacket as the bullets penetrated his body, yet the enemy soldier kept on coming.
Chinese frontline PLA troops disliked the M1/M2 carbine, as they believed its cartridge had inadequate stopping power. Captured U.S. carbines were instead issued to runners and mortar crews
{{cite book}}
: CS1 maint: multiple names: authors list (link)captured German film shows German officer armed with a M1 carbine in the Battle of the Bulge, Dec 1944
Carabina M-1
illustrates an M2 carbine in an M1A1 stock on p.642 and a parts breakdown of the M2 on p.646 is shown with a flat top bolt
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 submachine gun (SMG) is a magazine-fed automatic carbine designed to fire handgun cartridges. The term "submachine gun" was coined by John T. Thompson, the inventor of the Thompson submachine gun, to describe its design concept as an automatic firearm with notably less firepower than a machine gun. As a machine gun must fire rifle cartridges to be classified as such, submachine guns are not considered machine guns.
A semi-automatic rifle is an auto-loading rifle that fires a single cartridge with each pull of the trigger, the part that fires the bullet. 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 Thompson submachine gun is a blowback-operated, selective-fire submachine gun, invented and developed by Brigadier General John T. Thompson, a United States Army officer, in 1918. It was designed to break the stalemate of trench warfare of World War I, although early models did not arrive in time for actual combat.
The M1 Garand or M1 rifle is a semi-automatic rifle that was the service rifle of the U.S. Army during World War II and the Korean War.
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.
The Browning automatic rifle (BAR) is a family of American automatic rifles and machine guns used by the United States and numerous other countries during the 20th century. The primary variant of the BAR series was the M1918, chambered for the .30-06 Springfield rifle cartridge and designed by John Browning in 1917 for the American Expeditionary Forces in Europe as a replacement for the French-made Chauchat and M1909 Benét–Mercié machine guns that US forces had previously been issued.
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 .30-06 Springfield cartridge, 7.62×63mm in metric notation, and called the .30 Gov't '06 by Winchester, was introduced to the United States Army in 1906 and later standardized; it remained in military use until the late 1970s. In the cartridge's name, ".30" refers to the nominal caliber of the bullet in inches; "06" refers to the year the cartridge was adopted, 1906. It replaced the .30-03 Springfield, 6mm Lee Navy, and .30-40 Krag cartridges. The .30-06 remained the U.S. Army's primary rifle and machine gun cartridge for nearly 50 years before being replaced by the 7.62×51mm NATO and 5.56×45mm NATO, both of which remain in current U.S. and NATO service. The cartridge remains a very popular sporting round, with ammunition produced by all major manufacturers.
The .30 carbine is a rimless carbine/rifle cartridge used in the M1 carbine introduced in the 1940s. It is a light rifle round designed to be fired from the M1 carbine's 18-inch (458 mm) barrel.
The M1941 Johnson Light Machine Gun, also known as the Johnson and the Johnny gun, was an American recoil-operated light machine gun designed by Melvin Johnson in the late 1930s. It shared the same operating principle and many parts with Malvin's M1941 Johnson rifle and M1947 Johnson auto carbine.
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 origins of the modern British military rifle are within its predecessor the Brown Bess musket. While a musket was largely inaccurate over 100 yards (91 m), due to a lack of rifling and a generous tolerance to allow for muzzle-loading, it was cheap to produce and could be loaded quickly. The use of volley or mass firing by troops meant that the rate of fire took precedence over accuracy.
David Marshall Williams was an American firearms designer and convicted murderer who invented the floating chamber and the short-stroke gas piston. Both designs used the high-pressure gas generated in or near the breech of the firearm to operate the action of semi-automatic firearms like the M1 Carbine.
The Gepárd anti-materiel rifles are a family of Hungarian weapons manufactured by Sero International Kft. designed to destroy unarmored and lightly armored targets. These long-range large-caliber rifles have high accuracy and muzzle velocity. In 1987, the Hungarian People's Army sought to obtain a compact, mobile weapon that could damage lightly armored targets. The project, led by Ferenc Földi, culminated in the creation of the Gepárds.
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 M3 is an American .45-caliber submachine gun adopted by the U.S. Army on 12 December 1942, as the United States Submachine Gun, Cal. .45, M3. The M3 was chambered for the same .45 ACP round fired by the Thompson submachine gun, but was cheaper to mass produce and lighter, at the expense of accuracy. The M3 was commonly referred to as the "Grease Gun" or simply "the Greaser," owing to its visual similarity to the mechanic's tool.
Auto-Ordnance was a U.S. arms development firm founded by retired Colonel John T. Thompson of the United States Army Ordnance Department in 1916. Auto-Ordnance is best known for the Thompson submachine gun, used as a military weapon by the Allied forces in World War II, and also notorious as a gangster weapon used during the Roaring Twenties.