Heckler And Koch G11
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The Heckler & Koch G11 is a non-production prototype assault rifle developed from the late 1960s–1980s by ''Gesellschaft für Hülsenlose Gewehrsysteme'' (GSHG) (German for "Association for Caseless Rifle Systems"), a conglomeration of companies headed by firearm manufacturer Heckler & Koch (mechanical engineering and weapon design),
Dynamit Nobel Dynamit Nobel AG is a German chemical and weapons company whose headquarters is in Troisdorf, Germany. It was founded in 1865 by Alfred Nobel. Creation After the death of his younger brother Emil in an 1864 nitroglycerin explosion at the famil ...
(propellant composition and projectile design), and Hensoldt Wetzlar (target identification and optic systems). The rifle is noted for its use of
caseless ammunition Caseless ammunition (CL), or rather caseless cartridge, is a configuration of weapon-cartridge that eliminates the cartridge case that typically holds the primer, propellant and projectile together as a unit. Instead, the propellant and primer ar ...
. It was primarily a project of West Germany, though it was of significance to the other NATO countries as well. In particular, versions of the G11 were included in the U.S. Advanced Combat Rifle program. In 1990, H&K finished the development of the G11, intended for the '' Bundeswehr'' and other NATO partners. Although the weapon was a technical success, it never entered full production due to the political changes of
German reunification German reunification (german: link=no, Deutsche Wiedervereinigung) was the process of re-establishing Germany as a united and fully sovereign state, which took place between 2 May 1989 and 15 March 1991. The day of 3 October 1990 when the Ge ...
and lack of procurement contract. Only 1000 units were ever produced, some of which made their way into the hands of the ''Bundeswehr''. Ultimately, the German armed forces replaced the G3 with the G36.Woźniak, Ryszard. Encyklopedia najnowszej broni palnej - tom 2 G-Ł. Bellona. 2001. pp. 17–21.


History and development

Development began around 1967 when NATO launched the idea of adopting a second standard small-caliber ammunition. Three competitors were then nominated: one American, another Belgian, and finally the German Heckler & Koch. NATO quickly lost interest in caseless ammunition but the West German Government held on.''Le Fusil d'Assaut Allemand G-11 a Munitions sans Étui''
Yves-Louis Cadiou, Gazette des Armes n°106, pp. 12–15, June 1982
During 1968–1969, the government of what was then West Germany started a feasibility study into a future assault rifle and three contracts were awarded respectively to Diehl, IWKA Mauser and Heckler & Koch. The terms of reference (specifications) were very general, calling for an improved infantry weapon with a better hit probability than any then in existence, yet fulfilling the
FINABEL Finabel is a European organisation for the promotion of cooperation and interoperability between the national armies of the member states of the European Union (EU). Founded in 1953, Finabel is controlled by the chiefs of staff of its member st ...
(named after France, Italy, Netherlands, ''Allemagne'', Belgium and Luxembourg) range and rate of fire characteristics. The designers were given a free hand for the methods used, but Heckler & Koch realized that the only way to obtain any significant improvement was to radically change the approach.''Jane's Infantry Weapons'', Jane's Information Group, 2002''Die G11 Story. Die Entwicklungsgeschichte einer High-Tech-Waffe'', Wolfgang Seel, Journal Verlag Schwend GmbH, 1993, ASIN: B0027WQJAE From the very beginning, it was obvious the required hit probability could not be achieved with common
iron sights Iron sights are a system of physical alignment markers (usually made of metallic material) used as a sighting device to assist the accurate aiming of ranged weapons (such as a firearm, airgun, crossbow or even compound bow), or less commonly ...
, hence, it was given equal importance. An optical sight was the only solution to improve accuracy to reach the desired range. The Hensoldt AG, having delivered 100,000 optical sights for the G3, cooperated with H&K on developing a small sight with low power magnification which would allow target acquisition with both eyes. However, it was dropped because of the cost. Because the weapon was to be short, only 37 cm would have been left for a sightline, too short for a common iron sight, so that was out of the question. In mid 1968, Hensoldt presented an affordable reflector sight. It was based on an old and nearly forgotten patent, and a modernized model had to be built by a master from the assembly department. On September 30, 1968, Hensoldt was commissioned for a study for further development. Numerous studies followed in the period between 1970 and 1971. Intensive tests were run by Heckler & Koch and Dynamit Nobel in search of a suitable ammunition. The early side way ignition design gave way to a tail ignition design. By 1970, studies progressed far enough to allow the construction of an automatic single- and 3-shot burst model but without full-automatic operation. Sometime in 1970, the box magazine was selected. To study the dispersion, a model firing 9×19mm and equipped with the reflexive sight was used. It had a cadence of 2400
rpm Revolutions per minute (abbreviated rpm, RPM, rev/min, r/min, or with the notation min−1) is a unit of rotational speed or rotational frequency for rotating machines. Standards ISO 80000-3:2019 defines a unit of rotation as the dimensionl ...
. The study supposedly was conducted by a research institute of the Fraunhofer Society (Fraunhofer-Gesellschaft). To determine the precision, a laser was used, fired onto a film during the 3-shot burst. The
free-floating barrel A free-floating barrel is a firearm design used in precision rifles, particularly match grade benchrest rifles, to accurize the weapon system. With conventional rifles, the gun barrel rests in contact with the fore-end of the gunstock, sometim ...
design was found to contribute significantly to the precision of the weapon. At the end of September/beginning October 1971, the weapon was fully completed with full automatic fire and chambered for 4.9 mm and fed from the side. In January 1973, the defense ministries of West Germany and Great Britain agreed on exchanging information on development of infantry weaponry and ammunition. The agreement was designed to benefit both partners equally. West Germany was to work on caseless ammunition while Great Britain would work on optimizing a firearm for 4.85x45 mm ammunition. Meanwhile, the German defence ministry targeted unveiling of the weapon to NATO in 1975 with a field test of the first weapon to begin in 1976. In the summer of 1973, the ministry took on stock to see that none of the competitors could present a war-ready weapon. Diehl's design used separate magazines for projectile and propellant. Mauser offered a three-barrel rifle design. H&K's design with a rotating breech was considered promising. Together with the Federal Office of Defense Technology and Procurement (FODTP)(Bundesamt für Wehrtechnik und Beschaffung),H&K's rotating breech was selected for further study and development. In early November 1973, at a NATO workshop conference in Brussels, West Germany was appointed to develop the second generation (rifleman) rifle. H&K's new weapon was to be presented in sufficient numbers to NATO in April 1977. NATO-wide testing began in 1977 with the goal of having a second smaller caliber weapon alongside the
7.62×51mm NATO The 7.62×51mm NATO (official NATO nomenclature 7.62 NATO) is a rimless, bottlenecked rifle cartridge. It is a standard for small arms among NATO countries. First developed in the 1950s, the cartridge had first been introduced in U.S. service fo ...
round rifle. West Germany wanted to have it ready by then, but the caliber was changed to 4.3 mm, delaying prototype development by months. In mid 1974, several fully operational ''Prototype 1'' G11s were presented to the Bundeswehr. On June 14, 1974, the German defense ministry charged the FODTP with initiating the development of the weapon. The proof of performance was held on December 18 and 19, 1974. The achieved firing rates were given as 1800 rpm for burst and 400 rpm for full-automatic. H&K was awarded the development contract (worth 20 million DM) on December 23, 1974. The contract required the completion of development by autumn of 1977, including following field tests. Subsequently, H&K contracted Hensoldt with a continuing development contract. Around 1975, the design was disclosed as a German small arm Laid-Open Patent application No. 23 26 525.0 and No. 24 13 615.0.''Automatic or semi-automatic small arm''
patent US4078327, March 14, 1978
In early 1976, doubt about the viability of the reflex sight rose. The contrast requirements in adverse condition and added features like variable brightness and distance settings drove cost up, exceeding that of a proper scope of similar size. On June 11, 1976, it was decided to switch to a scope. On June 15, 1976, the specification for a scope was finalized and the first model presented on August 5/6, 1976. In November 1977, the FODTP changed the specification accordingly. At the end of the contract in the summer of 1978, it was found to satisfy the requirement. Meanwhile, the caliber was changed to 4.75 mm with ''Prototype 3''. ''Prototype 4'' and ''Prototype 5'' equipped with the scope took part in the preliminary NATO field test in 1977 in Meppen. After the contract with the FODTP ended H&K, Dynamit Nobel and Hensoldt were forced to continue development on their own with their private funds. In 1978, Mauser competed with their own weapon chambered for caliber 4.7 mm in a conventional case design but ultimately lost to the H&K G11. The caseless round was not yet telescoped and appeared "conventional".''Gedämpftes Pressen''
Der Spiegel 19/1982, 1982 Nr. 19, pp. 223–227, May 10, 1982
On 28 October 1980, NATO approved the standardization ( STANAG 4172) of
5.56×45mm NATO The 5.56×45mm NATO (official NATO nomenclature 5.56 NATO, but often pronounced "five-five-six") is a rimless bottlenecked intermediate cartridge family developed in the late 1970s in Belgium by FN Herstal. It consists of the SS109, L110, and ...
as second small caliber cartridge for use within the alliance.Smith, W.H.B.; Ezell, E. C. (1983), Small Arms of the World, 12th Edition, Stackpole Company, Harrisburg PA Up to 1982, changes were made following the test. The caliber changed to 4.7x21 mm for ''Prototype 6''. The conventional nitro-cellulose propellant was replaced by High Ignition Temperatures Propellant (HITP) based on
Octogen HMX, also called octogen, is a powerful and relatively insensitive nitroamine high explosive, chemically related to RDX. Like RDX, the compound's name is the subject of much speculation, having been variously listed as High Melting Explosive, Her ...
.''Caseless ammunition, especially for assault rifles, machine guns and sniper rifles of the same calibre''
Siegfried Trost, Patent publication DE3834925 A1, April 19, 1990
The barrel received
polygonal rifling Polygonal rifling ( ) is a type of gun barrel rifling where the traditional sharp-edged "lands and grooves" are replaced by less pronounced "hills and valleys", so the barrel bore has a polygonal (usually hexagonal or octagonal) cross-sectional p ...
. The rifle case received a design by a dedicated designer. This ''Prototype 13'' became the attention of the numerous media and press. It's supposed to be the first version entering the Advanced Combat Rifle (ACR) program. Meanwhile, development shifted yet again to the new caliber 4.73x33mm (DM11) in a telescoped form. In 1984, the ''Gesellschaft für hülsenlose Gewehrsysteme'' (GHGS), founded by H&K GmbH and Dynamit Nobel AG, completed a license agreement for a custom version (worth US$3.8 million)''Pulver im Turm''
Der Spiegel 31/1987, 1987 Nr. 31, pp. 151–152, July 27, 1987
with the U.S. Department of Defense and for the adoption of caseless ammunition with the Bundeswehr and NATO.''Versteck dich, wenn sie schießen: Die wahre Geschichte von Samiira, Hayrettin und einem deutschen Gewehr''
Jürgen Grässlin, Droemersche Verlagsanstalt, p. 399, 2003,
On December 8, 1986, Hensoldt was ready to deliver the final "Zieloptik ZO 1". The G11 K1 (K for Konfiguration) production model was completed in March 1987. Field test and troop trials began in June with the ''Bundeswehr'' in Hammelburg and lasted until January 1989. It achieved a 100% higher ''Ph'' than the G3. The final development of the ammunition was completed toward the end of 1988 with the same dimensions as 4 years earlier. In March 1989, the first ''Operator´s Manual'' was made for the G11 K1 for the ACR evaluation. By then, work had already started on the G11 K2. On March 3, 1989, the first five ACR units were shipped to the Aberdeen Proving Ground. In May, H&K began to instruct the testers on how to operate the weapon. In April 1990, the FODTP certified the G11 for use with the ''Bundeswehr''. In May 1990, Tilo Möller, then H&K chief of R&D, presented the G11 to military dignitaries. At the same time, the
Cabinet of Germany The Federal Cabinet or Federal Government (german: link=no, Bundeskabinett or ') is the chief Executive (government), executive body of the Germany, Federal Republic of Germany. It consists of the Chancellor of Germany, Federal Chancellor and m ...
confirmed questions by the Bundestag about the signing of a contract in early 1990 for the adoption of the G11 and that it is part the budget (Haushalt 1990 EPL 14). If it is adopted, the front line troops would receive it first. Adoption numbers would be guided by yearly planned G3 replacement numbers up to the year 2002.''Antwort der Bundesregierung auf die Kleine Anfrage der Abgeordneten Frau Vennegerts und der Fraktion DIE GRÜNEN: Entwicklung und Einsatz neuartiger Gewehrsysteme und hülsenloser Munition(G 11)''
Deutscher Bundestag, Drucksache 11/7055, May 3, 1990
The volume of a contract for the Bundeswehr alone was to cover 300,000 units worth 2.7 billion DM. The Cabinet of Germany confirmed that 30 million DM were reserved in the 1989 budget and another planned for the 1990 budget. In April 1990, the ACR program ended with the decision not to adopt any of the ACR rifles because none met the requirement of doubling hit probability. It was not until mid September 1990 that H&K found out about the cancelation of the preproduction contract. In November 1990, the Treaty on Conventional Armed Forces in Europe (CFE) was signed, which puts limits on the numbers of conventional military equipment in Europe and mandates the destruction of excess weaponry. In January 1992, the Federal Audit Office (''Bundesrechnungshof'') recommended not to procure the G11 just yet and Defense Minister
Gerhard Stoltenberg Gerhard Stoltenberg (29 September 1928 – 23 November 2001) was a German politician of the Christian Democratic Union (CDU) and minister in the cabinets of Ludwig Erhard, Kurt Georg Kiesinger and Helmut Kohl. He served as Minister-President o ...
struck the G11 from the procurement list.''Weg is weg''
Der Spiegel 3/1992, 1992 Nr. 3, pp. 68–70, January 14, 1992
On April 1, 1990, the Warsaw Pact dissolved, leaving West Germany with a surplus of hundreds of thousands of Kalashnikovs. The development of the G11 from 1974 to 1989 had cost the tax payer 84.1 million DM, while leaving H&K with a debt of 180 million DM. H&K was permitted by the Federal Office of Economics and Export Control (''Bundesamt für Wirtschaft und Ausfuhrkontrolle'') to export the rifle to 80 countries, and give licenses to 15 countries. On March 8, 1992, the G11 (K2) was approved for full scale replacement production. On July 17, 1992, the CFE treaty went into effect. In June 1993, the situation became clear when it was announced that the G11 could not be adopted due to "lack of possibility for NATO standardization". In 2004, the
Lightweight Small Arms Technologies The Lightweight Small Arms Technologies (LSAT) program is funded by the U.S. Joint Service Small Arms Program, with the goal of significantly reducing the weight of small arms and their ammunition. Following a series of military programs to investi ...
(LSAT) program was initiated, which licensed the G11 caseless ammunition. In Phase 1 lasting until January 2005, the HITP formula was reverse engineered and evaluated.''LIGHTWEIGHT SMALL ARMS TECHNOLOGIES''
AAI Corporation, May 11, 2006
In the 28-month-long Phase II, the G11 caseless ammunition was replicated and customized to U.S. Army preferences (higher burn rate). In May 2007, the caseless ammunition was scaled and adapted to the 5.56 mm projectile in a telescoped and round form. An alternative polymer cased version was created in parallel.''Lightweight Small Arms Technologies''
Kori Spiegel, US Army ARDEC, May, 2008


Design details

The weapon uses 4.73×33mm caseless ammunition, with the propellant shaped into cuboid blocks. The ammunition has also been designated as 4.92mm for the HK G11 ACR, a variant developed for US Military trials, the US convention of groove to groove measurements of the bore was employed, rather than land-land.
The projectile is 4.93 mm in diameter with a case length of 33 mm, the US case length measurement is 34 mm since for the ACR trials the chamber length, not the actual case length was used. The 4.73 mm round is half the weight and 40% the size by volume of the
5.56×45mm NATO The 5.56×45mm NATO (official NATO nomenclature 5.56 NATO, but often pronounced "five-five-six") is a rimless bottlenecked intermediate cartridge family developed in the late 1970s in Belgium by FN Herstal. It consists of the SS109, L110, and ...
round. The round was designed to the same
ballistics Ballistics is the field of mechanics concerned with the launching, flight behaviour and impact effects of projectiles, especially ranged weapon munitions such as bullets, unguided bombs, rockets or the like; the science or art of designing and a ...
requirement as the 5.56×45mm NATO round as outlined in ''Evaluation Procedures for Future NATO Weapons Systems'' (Document 14). However, the 4.73mm is much less likely to tumble when hitting or penetrating a soft target, and thus not as lethal. The effect on soft targets is in accordance with international conventions. Even at short range, the round does not fragment in the soft target medium.''Weapon Ammunition System: G11 rifle with caseless ammunition''
G11 brochure, Heckler & Koch Dynamit Nobel, 1990
This was confirmed in tests with gelatine.(See terminal ballistics) The design principle was to increase target hit probability by firing high rate multi-round bursts (salvos). Tests have been run using a prototype shotgun test-bed called CAWS to see whether a single-shot, multi-projectile system could achieve the range and hit probability requirements. The results indicated that the use of serially fired projectiles at a high rate of fire would achieve a tight shotgun-like pattern with rifle-like accuracy up to the required range. The rifle was designed to have a dispersion such that a man-target running at a speed of 6 km/h at a distance of 250 m would be hit even if the lead angle error (2 mil) was off by 51 cm. The weapon itself has three firing modes: semi-auto, full-auto at 460 rounds per minute, and three-round burst at over 2100 cyclic rounds per minute, or approximately 36 rounds per second. The loading and feed mechanism is physically very complicated but exceptionally fast and reliable. Rounds are fed into the weapon from a magazine that lies above and parallel with the barrel. The rounds are oriented vertically (at 90 degrees to the bore) and are fed downwards into the rotary chamber so that they can be rotated 90 degrees for firing. The firing cycle process is roughly: # As the cocking handle on the side is rotated clockwise by the weapon operator: # A round is dropped into the revolving chamber vertically (a loading piston assists). # The chamber rotates 90° so it is lined up with the barrel. This completes the chambering of the round and cocking of the firing pin. # When the trigger is pulled, a firing pin ignites the primer, which then ignites a powder booster charge that pushes the bullet into the barrel. The solid block of propellant is broken up to increase the ignition surface area and ignites, accelerating the bullet out of the barrel. # As the projectile is accelerating up the barrel, recoil forces drive the barrel, magazine, chamber and operating mechanism rearwards within the weapon, dissipating energy for single shot and fully automatic modes but allowing burst mode to deliver three projectiles downrange before buffering occurs. # Gas tapped off from the barrel rotates the chamber and actuates the loading mechanism, then rotating the chamber back to the initial vertical position until it is lined up with the feed mechanism and the process repeats. A conventional assault rifle has approximately eight steps in its cycle: # Battery: bolt group pushes round from magazine into chamber. # Lockup: bolt or bolt carrier locks with the barrel extension or receiver. # Firing: firing pin or striker impacts primer igniting the main propellant charge. # Unlocking: either through gas, recoil or blow-back operation, the working parts unlock from the barrel extension or receiver. # Extraction: spent case is extracted and withdrawn from the chamber. # Ejection: the spent case is thrown clear of the weapon either via a bolt face ejector or from a fixed or semi-fixed ejector. # Firing mechanism reset: as part of the rearward reciprocation of the working parts, the firing mechanism is reset. # Buffering: working parts finally strike the buffer and halt. Recoil spring(s) are fully compressed and begin to drive the working parts forward into battery. Because the G11 uses caseless ammunition, there are no extraction and ejection steps. Even though the rotary chamber does not lock up in the true sense of the word, the fact that it has to rotate in and out of alignment with the barrel means that the G11 can be considered to have a lock/unlock phase. If a round fails to fire or the weapon is being used with training rounds, the rifle can be manually unloaded by twisting the cocking handle counterclockwise. This pushes the failed/training round out an emergency ejection port on the bottom of the rifle and loads the next round. The recoil in the three-round burst is not felt by the weapon's user until after the third round has left the chamber. This is accomplished by having the barrel and feeding mechanism "float" within the rifle casing. When the rounds are fired, the barrel, magazine, chamber and operating mechanism recoils back against recoil springs several inches. Only when it strikes the buffer at the back of the rifle does the user feel the recoil. During the rearward travel of the internal mechanism the rifle loads and fires 3 rounds. When the barrel and mechanism reaches the rearmost point in its travel, the recoil springs push it forward, back into its normal forward position. When firing in semi-auto and full-auto modes, the rifle loads and fires only one round per movement of the internal mechanism. Fully automatic fire is reduced to around 460 rounds per minute. The internal workings of the rifle were rather complex compared to those of some earlier designs, with the mechanism being compared to the inside of a compact clock. The number of hours of maintenance required for the G11 compared to other designs is not clear, especially since the effect of the powder used in the caseless ammo remains unknown. Designers claimed that, because there was no ejection cycle, the internal mechanisms would have little chance to get exposed to external dust, dirt and sand, which would supposedly reduce the need for cleaning. There were reports that the high tolerances required to seal off the front and rear chamber openings set the expected life of the contacting parts to 6000 rounds before maintenance was required.


Ammunition cook-off and shape

Premature ignition of ammunition from heat in the chamber, known as cook-off, was a major problem with early prototypes of the G11 where synthetically bound nitrocellulose, formed into blocks, was used. Normally, when a cartridge is fed into a
chamber Chamber or the chamber may refer to: In government and organizations *Chamber of commerce, an organization of business owners to promote commercial interests *Legislative chamber, in politics *Debate chamber, the space or room that houses deliber ...
, its
case Case or CASE may refer to: Containers * Case (goods), a package of related merchandise * Cartridge case or casing, a firearm cartridge component * Bookcase, a piece of furniture used to store books * Briefcase or attaché case, a narrow box to c ...
insulates the propellant from igniting until its impact-sensitive
primer Primer may refer to: Arts, entertainment, and media Films * ''Primer'' (film), a 2004 feature film written and directed by Shane Carruth * ''Primer'' (video), a documentary about the funk band Living Colour Literature * Primer (textbook), a t ...
is struck by a firing pin or striker. The case aids in insulating the propellant from the heat of the chamber and it takes time for the temperature to rise sufficiently inside a chambered round to ignite the propellant. In addition, in a traditional rifle, extracting a hot case removes heat from the system. As a result of doing away with traditional cases, the G11 was found to be unsafe and had to be withdrawn from the 1979 NATO trials. The high rate of fire and lack of cartridge cases made cooking off a significant problem; the heat buildup in the G11 chamber was immense because the chamber had no provision for cooling like a reciprocating bolt system, which allows hot air to leave the chamber when the bolt is retracted and the chamber is exposed to air. The vertically swiveling chamber also made gas sealing at each end at such high pressures impractical, as opposed to a cross-sectional round-inside-round bolt-to-chamber fit with proper gas sealing. To solve this, Heckler and Koch formed a partnership with
Dynamit Nobel Dynamit Nobel AG is a German chemical and weapons company whose headquarters is in Troisdorf, Germany. It was founded in 1865 by Alfred Nobel. Creation After the death of his younger brother Emil in an 1864 nitroglycerin explosion at the famil ...
, which redesigned the cartridge to use a new high ignition temperature propellant (HITP). The cook-off problem was reduced by using a denatured
HMX HMX, also called octogen, is a powerful and relatively insensitive nitroamine high explosive, chemically related to RDX. Like RDX, the compound's name is the subject of much speculation, having been variously listed as High Melting Explosive, Her ...
propellant with a special binder and coating for the ammunition that increased the spontaneous ignition temperature by another 100 °C above that of standard, nitrocellulose (180 °C) propellant. A notable feature of the new round was its unconventional shape. Most cartridge casings are
cylindrical A cylinder (from ) has traditionally been a three-dimensional solid, one of the most basic of curvilinear geometric shapes. In elementary geometry, it is considered a prism with a circle as its base. A cylinder may also be defined as an infini ...
, but the redesigned cartridge was molded into a squared, box-like shape. This allowed the 50-cartridge magazine to carry more propellant in a smaller space; the wasted space between rounds with cylindrical casings was substantially reduced. The issue of heat removal from caseless-firing weapons as well as methods of igniting them continue to be researched by other companies. An alternative route was taken by the Austrian company
Voere Voere is an Austrian firearm manufacturing company best known for its VEC-91 bolt-action rifle using caseless ammunition. The origins of the company date back to the 1948 establishment of the metal-working company Koma in West Germany. Origin ...
, whose
Voere VEC-91 The Voere VEC-91 is a rifle made by Voere and was the first commercial sporting rifle to combine caseless ammunition and electronic firing. Depending upon its chambering, it fired a 5.56 (0.223"), 5.7 mm or 6 mm projectile at muzzle vel ...
uses a caseless, electrically-fired round developed by Austrian inventor Hubert Usel. This technique makes it possible to greatly increase the ignition temperature without hampering the ability to fire it. This would increase the maximum rate and duration a gun could fire before cooking off rounds, but the VEC-91 never took advantage of this, since it was a bolt-action rifle. The 4.73×33mm projectile was required to defeat NATO and Warsaw Pact armor at 300–400 m (Document 14) but was advertised to meet the requirement at 600 m. This fact was neither confirmed nor denied by the West German government, citing inability to disclose such information. In line with another NATO requirement for a personal defense weapon (PDW), a handgun concept, ''Nahbereichswaffe'' (NBW),was created. It was to use a shortened 4.73×25 mm cartridge and meet the same requirements now fulfilled by the
HK 4.6×30mm The 4.6×30mm (designated as the 4,6 × 30 by the C.I.P.) cartridge is a small- caliber, high-velocity, smokeless powder, rebated rim, bottlenecked centerfire cartridge designed for personal defense weapons (PDW) developed by German armament manu ...
: Armor piercing of NATO
CRISAT Collaborative Research Into Small Arms Technology (CRISAT) is the name of a series of studies conducted by the North Atlantic Treaty Organisation (NATO), identifying and defining threats with regard to the standardisation in the manufacturing of mil ...
Technology Area 1 (TA1) out to 300 m; Level II out to 25 m; lethal suppression fire against unarmored targets out to 450 m.
span> "''Heckler & Koch MP7 und das Kaliber 4,6 mm x 30'' ''Deutsches Waffen Journal'', August 1, 2010


Future development

By 2004, the technology developed for the G11 was licensed for the
Lightweight Small Arms Technologies The Lightweight Small Arms Technologies (LSAT) program is funded by the U.S. Joint Service Small Arms Program, with the goal of significantly reducing the weight of small arms and their ammunition. Following a series of military programs to investi ...
project, the current project of which is a LSAT light machine gun, light machine gun prototype for the US Army. The design is intended to use either a cased cartridge using a composite case or a caseless ammunition design developed from the G11. Both ammunition designs are telescoped ammunition like that used by the G11; however, the current ammunition design has a plastic case instead of the fully caseless G11 ammunition. The design, like the G11, uses a rotating chamber, but rotating about the longitudinal axis of the weapon.


See also

*
AAI ACR The AAI ACR was a prototype flechette-firing assault rifle built for the US Army's Advanced Combat Rifle program of 1989/90. Although the AAI design proved effective, as did most of the weapons submitted, the entire ACR program ended with none ...
*
AN-94 The AN-94 (Russian: 5,45-мм автомат Никонова обр. 1987 г. / АН-94 «Абака́н», GRAU designation 6P33) is a Russian assault rifle. The initials stand for ''Avtomat Nikonova'' model of 1994, after its chief designer ...
* Armtech C30R * Benelli CB M2 * *
List of assault rifles An assault rifle is a rifle that uses an intermediate cartridge, a detachable magazine, and can switch between semi-automatic/fully automatic fire. Assault rifles are currently the standard service rifles in most modern armies. Some rifles listed ...
* List of bullpup firearms * List of machine guns * Metal Storm * Steyr ACR *
Voere VEC-91 The Voere VEC-91 is a rifle made by Voere and was the first commercial sporting rifle to combine caseless ammunition and electronic firing. Depending upon its chambering, it fired a 5.56 (0.223"), 5.7 mm or 6 mm projectile at muzzle vel ...


References


Further reading

*''Weapon Ammunition System: G11 rifle with caseless ammunition'', Heckler & Koch Dynamit Nobel, 1981 *''Operator's Manual: Rifle, 4.92 mm ACR'', Heckler & Koch, March 1989 *''Weapon Ammunition System: G11 rifle with caseless ammunition'', Heckler & Koch Dynamit Nobel, 1990 *Wolfgang Seel, ''Die G11 Story. Die Entwicklungsgeschichte einer High-Tech-Waffe'', Journal Verlag Schwend GmbH, 1993, ASIN: B0027WQJAE *Jürgen Grässlin, ''Versteck dich, wenn sie schießen: Die wahre Geschichte von Samiira, Hayrettin und einem deutschen Gewehr'', Droemersche Verlagsanstalt, 2003, *Terry Gander, ''Jane's Infantry Weapons 1996–1997'', 1996,


External links


HKPRO

''Supervisiere für eine Superwaffe: Die Visierentwicklung für das Gewehr G 11''



Modern Firearms

U.S. Army Lightweight Small Arms Technologies
*
Industrie Werke Karlsruhe G11

IWK G11
* {{DEFAULTSORT:Heckler and Koch G11 Assault rifles Bullpup personal defense weapons Personal defense weapons Bullpup rifles Caseless firearms G11 Trial and research firearms of Germany