What are the three types of tanks?

Name Year entered service Origin Number built Notes T-80[10] / T-84 1976 Soviet Union >5400 World's first tank solely equipped with a turbine engine (the Swedish Strv 103 that entered service in 1960s used a turbine engine alongside a diesel). The earliest models are considered as intermediate second generation, while models from T-80U (1985) onwards are third generation. 1987 Soviet Union 500–800 T-80UD Bereza is a Ukrainian diesel version with 1,000 hp 6TD engine and remote-controlled antiaircraft machine gun. 1999 Ukraine 55 The T-84 is a Ukrainian main battle tank. It is a further development of the T-80UD. Development of the T-80UD began in the late 1980s. Models of the T-84 include the T-84U with new armored side skirts, built-in Kontakt-5 explosive reactive armor, muzzle reference system and some other improvements. 2000 Ukraine 10 The T-84 Oplot is a T-84U with a new welded turret with separate crew and ammunition compartments with blowout panels on the ammunition compartment, a new bustle-mounted autoloader. Leopard 2[11] 1979 West Germany 3600 Development of the Leopard 2 began in 1970. It is armed with a fully-stabilized Rheinmetall RH-M-120 120 mm smoothbore gun. 1987 Switzerland 380 License manufactured in Switzerland of the Leopard 2A4. This version included Swiss-built 7.5 mm MG 87 machine guns, communications equipment, and featured improved NBC protection system. Switzerland operated 380 Panzer 87. 1997 Sweden 120 The Stridsvagn 122 is a Swedish main battle tank based on the German Leopard 2 Improved variant utilizing newer technology such as command-, control-, and fire-control systems, as well as reinforced armour and long-term combat capacity. 2003 Germany
Spain 219 The Leopard 2E is a derivative of the Leopard 2A6, with greater armour protection, developed under a programme of co-production between the defence industries of Spain and Germany. 2006 Greece 140 The Leopard 2 HEL is a derivative of the Leopard 2A6 that was ordered by the Greek Army in 2003 – the "HEL" stands for "Hellenic". Around 170 tanks were delivered between 2006 and 2009. A total of 140 were built in Greece by ELBO, which delivered the first units in late 2006. 2007 Germany
Canada 20 The Leopard 2A6M CAN is a Canadian variant of the Leopard 2A6M. Significant modifications include distinctive black boxes mounted on the rear of the turret bustle, and stand-off slat armour. The first tanks configured in this variant were 20 loaned from the German Bundeswehr in an effort to increase firepower and protection given to Canadian troops operating in the south of Afghanistan. The loaned tanks retain their German MG3 machine gun, the ex-Dutch tanks are also expected to retain their FN MAG machine guns due to commonality with Canadian stocks of C6 GPMG, itself a variant of the FN MAG. M1 Abrams 1980 United States 10,400 Production began (at Chrysler) in 1979 and continued to 1985 (at General Dynamics) (3,273 built for the US). M1A1 began production in 1985 till 1992, and featured a pressurized NBC system, rear bustle rack for improved stowage of supplies and crew belongings, redesigned blow-off panels and M256 120 mm smoothbore cannon (4,976 built for the U.S. Army, 221 for USMC, 59 M1A1 AIM SA sold to Australia). The M1A2 began production in 1986 and entered service in 1992 (77 built for the U.S. and more than 600 M1s upgraded to M1A2, 315 for Saudi Arabia, 1,005 for Egypt, 218 for Kuwait). The M1A2 offers the tank commander an independent thermal sight and ability to, in rapid sequence, shoot at two targets without the need to acquire each one sequentially, also 2nd generation depleted uranium armor components. In 1992 the System Enhancement Package (SEP) has upgraded third-generation depleted uranium armor components with graphite coating (240 new built, 300 M1A2s upgraded to M1A2 SEP for the US, also unknown numbers of upgraded basic M1s and M1IPs, also 400 oldest M1A1s upgraded to M1A2 SEP). AMX-40 1983 France Few prototypes The AMX-40 was a French main battle tank developed by GIAT during the latter stages of the Cold War as an export tank to replace the earlier AMX-32. Designed to be an inexpensive tank orientated towards militaries with smaller defence budgets, the AMX-40 featured a lightly armoured hull and good mobility reminiscent of previous French MBTs with a powerful 120 mm cannon. It however failed to attract interest and sales, rendering the project a failure, being discontinued in 1990. M-84 1984 Socialist Federal Republic of Yugoslavia 650 The M-84 main battle tank is essentially the Soviet T-72, produced under license. However it has a number of Yugoslavian sub-systems. Production of the M-84 began in 1983 and first vehicles entered service in 1984. By 1992 over 600 had been built. Currently it is operational with some countries of the former Yugoslavia and Kuwait. 1991 Socialist Federal Republic of Yugoslavia 2 prototypes The M-91 Vihor is a Yugoslav main battle tank prototype, based on the M-84, which is in turn, a Yugoslav-made licensed copy of the Russian T-72. Due to the Disintegration of Yugoslavia, it never entered production, and only a few prototypes were made, mainly for testing. Its development later led to the M-95 Degman. 1995 Croatia 2 (prototypes) The M-95 Degman is a Croatian main battle tank prototype, developed by the Đuro Đaković company and is largely based on the M-91 Vihor tank that which is turn based in the M-84 tank. The Degman M-95 has not entered serial production. 2004 Serbia 10 The M-84AS is an upgraded Yugoslav version of the M-84 tank. M-84AS is sometimes referred to as M-84AB1 and M-2001. 2018 Croatia 16 The M-84D is an upgraded version of the M-84 with improvements to its armor, armament, mobility and electronics. 75 to be upgraded, possibly replacing the 125mm 2A46 gun with a NATO 120mm gun. 2017 Serbia 10 The M-84AS1 and M-84AS2 are substantially modernized versions of the M-84 main battle tank designed by the Military Technical Institute and produced by Technical Overhauling Institute "Čačak" in Serbia. The first version designated as M-84AS1 was presented in 2017. Later revisions feature numerous improvements and were presented in 2020 and 2021. EE-T1/EE-T2 Osório 1985 Brazil 2 prototypes The Engesa EE-T1 Osório was a Brazilian main battle tank prototype developed by Engesa. The tank was intended to be sold first to Arab and other Third World countries, jump-starting production and enabling the Brazilian Army to later place its own orders without having to fund development costs. Development of the tank was initially privately funded by Engesa, but cashflow issues eventually led to the Brazilian government extending a loan to assist the program. Two prototypes of the tank were built, but the EE-T1 was never adopted for service. 2001 South Korea 484 The K1A1 main battle tank is an improved version of the K1 88-Tank. It was developed in South Korea by Hyundai Rotem. It is broadly similar to the US M1A1 Abrams in terms of firepower and protection. First production vehicle was completed in 1996, however it entered service with the ROK Army only in 2001. Production ceased in 2010. A total of 484 of these tanks were reportedly built. TR-125 1987 Socialist Republic of Romania 5–10 Prototype main battle tank is a redesigned T-72 made in Romania with Romanian components only. It is now designated P-125 (P stands for Prototype). Merkava Mark III / IV 1989 Israel 780 As of 2022, the Merkava III was retired from active service but is still the most numerous tank in the IDF's arsenal. Compared to the Merkava Mark II, it has upgrades to the drivetrain, powertrain, armament, and electronic systems. The most prominent addition was the incorporation of the locally developed IMI 120 mm gun. 2004 Israel 360 The Merkava Mark IV entered service with Israel Defense Forces in 2004. It is a further development of the Merkava Mark 3. Now they equip the 460th training brigade and the 4th reserve brigade. For a long time these tanks were not available for export, though some of the tank's systems and components were offered for the export customers. However, in 2014 it was reported, that Israel will export a number of these tanks to an undisclosed customer, possibly Colombia. Type 90 1990 Japan 341 Development commenced in 1976. It was intended to replace the Type 61 medium tanks in service with Japanese Ground Self-Defense Forces (JGSDF). The new tank was developed by Mitsubishi Heavy Industries in cooperation with German Krauss-Maffei and MaK tank manufacturers. It is armed with German Rheinmetall RH-M-120 120 mm smoothbore gun, which was produced in Japan under license by Japan Steel Works. It fires HEAT-MP and APFSDS-T rounds, but is also compatible with all standard NATO 120 mm tank ammunition. Pokpung-ho II 1992 North Korea 200–500 A further development of Ch'onma-Ho. The tank may incorporate technology found in the T-62, T-72, and Ch'onma-ho MBTs. The P'okp'ung-ho is only known to be used in North Korea. Leclerc 1992 France 862 Replaced AMX 30. The Leclerc main battle tank was developed by GIAT Industries. Its development began in 1978 and first prototypes were built in 1989. Production of the Leclerc started in 1991. It is named in honor to general Philippe Leclerc, commander of French armored division during World War II. It is in service with France (406) and United Arab Emirates (388). Tank Technology Demonstrator (TTD) 1992 South Africa 1 prototype The TTD or Tank Technology Demonstrator prototype main battle tank was completed in the early 1990s. It used some German Leopard 2 technology and was intended to replace ageing South African MBTs. Only a prototype has been built and the TTD never went into service because of limited funding. Some of the TTD subsystems were applied to the Olifant Mk 2. These upgraded MBTs are expected to serve well into the 21st century. T-90 1992 Russia 750–1,000 Deep modernization of the T-72B; originally introduced into service in October 1992 as T-72BU, but simultaneously renamed as the T-90. T-72M2 Moderna 1993 Slovakia 1 prototype A further development of the T-72M1A. Development was completed but without any order for tank fleet modernization. PT-91 Twardy 1995 Poland 281 A development of the T-72M1. The PT-91 Twardy (tough) is an improved variant of the Soviet T-72 main battle tank. The PT-91 was developed in Poland in the early 1990s. Production of the PT-91 Twardy tanks for the Polish Army was completed in 2002. A total of 233 tanks were delivered. Malaysia ordered 48 PT-91M Pendekar which were delivered in 2007-2009. Currently Polish Army also operates 120 older T-72M1 tanks (with additional 470 tanks mothballed, actual number of machines in working condition is unknown). 2016 Poland — The PT-16 is a further development of PT-91 Twardy. Claimed proposed upgrades include improved armor, armament, and mobility. Only non functional mock-up ever built. Prototype never built.[

further explanation needed

] Ariete 1995 Italy 200 The Ariete (ram) main battle tank (also referred as the C-1) was developed by Iveco and OTO Melara. It is named in honor to Italian Ariete armored division, which fought during World War II. This main battle tank was intended to replace ageing fleet of M60A1 in service with Italian Army. First prototype of the C1 Ariete was revealed in 1986 and six pre-production vehicles were built in 1989. It entered service with Italian army in 1995. Italy operates 200 of this type. Zulfiqar II 1997 Iran Few prototypes Further development of the Zulfiqar I. It is an interim MBT, which served as a test bed for the Zulfiqar III. It had an extended hull and was fitted with new engine. It also has a new turret with sloping front and bustle at the rear. This may indicate removal of the autoloader, or possibly, a new autoloader. Prototype, never entered service. T-72M1S 1998 Syria
Italy 124 Syrian-Italian upgrade with the addition of the Galileo Avionica, TURMS-T computerised FCS, including infrared cameras, improved gun stabilisation, stabilised sights for the gunner and the commander, and capability to launch 9M119 Svir/Refleks ATGMs. 124 T-72M1s and T-72AVs were upgraded to this standard between 1998 and 2000. Very few of the upgraded T-72AVs retained their explosive reactive armour after being upgraded. Black Eagle (tank) 1999 Russia 1 The Black Eagle tank (Russian:

Чёрный Орёл

, Chyornyy Oryol or Object 640), was a presumed prototype main battle tank produced in the Russian Federation. It was thought to have been developed by the KBTM design bureau in Omsk in the late 1990s. A production version of this tank has never been publicly demonstrated. The Black Eagle has been cancelled, with all production and development halted. It is a T-80 variant which has helped development of the T-14 Armata. T-95 2000 Russia — T-95, or Object 195, is the common informal designation of a Russian main battle tank that was under development at Uralvagonzavod from 1988 until its cancelation in 2010. Little about the tank is publicly known. The work from the Object 195 was used in the Object 148, later type classified as the T-14 Armata, which began production in 2016. Zulfiqar III 2000 Iran 750 The most advanced variant of the Zulfiqar family which was selected for production, bears an uncanny resemblance to the American M1 Abrams. It features considerable upgrades to the fire-control system, chassis, engine and main gun. The new variant is equipped with the 2A46 125 mm smoothbore cannon with an autoloader, a laser rangefinder and a new fire-control system. It is also fitted with a reinforced turret and the wheels are covered by an armoured skirt. Type 99 2001 People's Republic of China 1200 The Type 99 main battle tank is a further development of the Type 98. It is generally similar to the Type 98, but has a number of improvements. The Type 99 was revealed in 2000 and entered service with the Chinese Army in 2001. This main battle tank shows a mixture of Russian and Western influence in its design and technology. As of 2017 improved version of this tank is produced in China. Currently it is the most advanced Chinese main battle tank. MBT-2000/Al-Khalid[15] 2002 People's Republic of China
Pakistan 994 The Al Khalid main battle tank was jointly developed by China and Pakistan. It is a further development of the Chinese Type 90-II tank, which was not accepted to service with the Chinese Army. In the late 1990s it was marketed for export as the MBT-2000. Pakistan acquired a production license. The Al Khalid is named after the legendary general Khalid ibn al-Walid. First deliveries of this tank were made in 2002. The Al Khalid is currently in service with Pakistan. 2009 People's Republic of China
Pakistan 150 Al-Khalid I is an upgraded variant with Ammunition capacity increased to 49 125 mm rounds, 1,500 12.7 mm rounds and 7,100 7.62 mm rounds. Incorporates modifications made to the fire-control system which is now a more advanced multi process fire control computer with up to 7 km effective identification range. Tank EX 2002 India 8 prototypes Experimental hybrid prototype with turret of Arjun and hull of T-72. It underwent six months of trials, but was subsequently rejected by the Indian Army. Pokpung-ho III Between 1992-2002 North Korea 200–500 Outside parties codename the tank M-2002 because the tank went through performance trials on February 16, 2002 (therefore being officially confirmed by outside sources), although the tank may have been in existence since 1992. T-72M4CZ[16] 2003 Czech Republic 30 Upgraded Czech version of the T-72 tank. The T-72 main battle tank was licensed-produced in the former Czechoslovakia. It entered service with the Czechoslovakian Army in 1981. After the dissolution of the Czechoslovakia in the early 1990s upgrade programs were developed both in Czech Republic and Slovakia to keep their fleets of T-72 MBTs operational and combat capable. M60 Phoenix 2004 Jordan 182 The M60 Phoenix is a Jordanian upgrade of the M60A3 main battle tank. It was developed by the King Abdullah Design and Development Bureau (now Jordan Design and Development Bureau). A total of 182 Jordanian M60A3 tanks were reportedly upgraded to the Phoenix standard. A 105 mm rifled gun was replaced by a Swiss RUAG CTG fully-stabilized 120 mm/L50 smoothbore gun. It is compatible with all standard NATO 120 mm tank ammunition. The Jordanian M60 Phoenix is notable for packing heavier punch than other upgunned M60s, that have 120 mm/L44 guns. Arjun Mk 1 2004 India 141 The first prototype of the Arjun main battle tank was built in 1989, 15 pre-production prototypes were built by 1996. Production variant designated as Arjun MK1 entered service with the Indian Army in 2004. MK1A variant of Arjun was developed and entered service with the Indian Army in 2021. C2 Ariete 2005 Italy 200 The C2 Ariete was revealed in 2005. It has a modular armor, 120 mm smoothbore gun fitted with an autoloader, hydropneumatic suspension, 1500 hp engine and more advanced fire control system. Mobarez 2006 Iran 50 A domestically upgraded version of the British Chieftain tank by Iran. T-90S Bhishma 2006 India 330 The T-90S Bhishma is a vehicle tailored for Indian service, improving upon the T-90S, and developed with assistance from Russia and France. The tanks are equipped with the French Thales-built Catherine-FC thermal sights. They use Russian Kontakt-5 explosive reactive armour, in addition to the primary armor, which consists of laminated plates and ceramic layers with high-tensile properties. The new welded turrets first developed for the Indian T-90S Bhishma have more advanced armour protection than the early cast turrets. Type 96A/B 2006 People's Republic of China 2500 Type 96G (also referred as Type 96A). It is an upgraded version of the Type 96, fitted with explosive reactive armor and thermal imaging system for all-weather, day/night operation. It was revealed in 2006. It is believed that upgraded vehicles approach the Type 99 in terms of protection, firepower and mobility. Weight of upgraded MBT increased to 42.8 t. All Type 96 tanks might be upgraded to this standard. This tank is also proposed for export customers as the VT2B. In 2016 a new version of the Type 96G emerged, which is most likely to be fitted with a new engine. 2009 Israel
Turkey 450 The Sabra Mk II is known as the M60T in Turkish service.

Tank classification is a taxonomy of identifying either the intended role or weight class of tanks. The classification by role was used primarily during the developmental stage of the national armoured forces, and referred to the doctrinal and force structure utility of the tanks based on design emphasis. The weight classification is used in the same way truck classification is used, and is intended to accommodate logistic requirements of the tanks

Modern tank designs have favoured a "universal" design that has generally eliminated these sorts of classifications from modern terminology, which tends to refer to almost all designs as main battle tanks despite sometimes significant weight differences.

A common division in the definition of roles has been between tanks intended to focus on supporting infantry in the assault, and tanks intended for classic cavalry missions of exploitation, screening and reconnaissance. The British referred to these as infantry tanks and cruiser tanks respectively. Other specialist roles include anti-tank vehicles or tank destroyers which are generally lightly armoured compared to similar generation multi-purpose tanks, and assault guns that mount oversized and typically low-velocity guns, for attacking fortifications.

Weight-based classifications are useful, but only in reference to a period's other tanks. For example, late-World War II medium tanks were as heavy as early-war heavy tanks. Light, medium, and heavy have other meanings than just weight, e.g., relating to gun size, the amount of armour, and, most importantly, tactical role. For example, in the mid-1930s to early '40s, Nazi Germany developed a new generation of tanks after its Panzer I. It resulted in: the 'medium' Panzer III, armed with an anti-tank gun and intended to fulfill the general-purpose medium tank role; and the 'heavy', support Panzer IV, initially armed with a 75mm short-barreled gun for engaging bunkers, towed antitank guns and other soft targets, with strong frontal armour but weaker side and rear armour. The differentiation was not absolute: the IV could fire HEAT shells and the III could fire high-explosive shells to attack infantry, but neither was as effective in the roles of the other. As the war progressed, tanks, heavier anti-tank guns, and tank-versus-tank combat became much more common on the battlefield. In order to survive, all tanks required an increase in armour protection and larger guns in order to defeat a similar "up-armouring" taking place on the enemy's own designs. The separation of "infantry" and "cruiser" roles generally disappeared and the "universal tank" started to take over. These were generally classified by weight in comparison to tanks from their own country; for instance, the US fielded the M26 Pershing "heavy" tank, which was heavier than the M4 Sherman. However, the Pershing was very comparable to the German Panther tank which Germany considered a medium, due to the presence of its much larger Tiger II.

Overview

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Many classification systems have been used over the nearly one hundred years of their history. Classification has always been determined by the prevailing theories of armoured warfare, which have been altered in turn by rapid advances in technology. No one classification system works across all periods or all nations.

Tanks are often referred to by weight-based or role-based classification, such as 'light', 'medium' or 'heavy'. Many types are also described by their tactical role, which depends on contemporary military doctrine. For instance, 'infantry' and 'cruiser' tanks are British classifications of the 1930s and '40s; 'infantry', 'fast', and 'breakthrough' are contemporaneous Soviet types. Furthermore, expected weights for a given tank type vary over time; a medium tank of 1939 could weigh less than a light tank of 1945. Some examples:

• The British Mk II Matilda Infantry tank weighed as much as a German Panzer III or Panzer IV medium tank. Due to its heavy armour it had some of the traits of a heavy tank, but the gun was typical of a light or medium tank of the period.
• German Panzer IV tanks were often referred to as 'heavy' tanks in 1939 and 1940, because they had large-calibre armament (for the period), designed to attack infantry positions. However, the Panzer IV is usually regarded, and was primarily employed, as a medium tank.
• American M26 Pershing tanks were designated as 'heavy', despite being closer in performance to a Panzer V Panther medium tank than a Panzer VI Tiger heavy tank.
• Soviet T-34-85 medium tanks used 85 mm guns, comparable in calibre to 88 mm guns on Tiger heavy tanks. However, because of their armour and speed, and their weapons' strength, the two are ranked in different classes.
• Soviet IS-2 tanks were classified as heavy due to their strong armour and large 122 mm gun - although they weighed significantly less than a Tiger and about the same as a Panther, which was classified as medium.

British and Soviet tacticians up to the time of the Second World War classified tanks into three major roles: infantry, light, and cavalry. Infantry tanks supported infantry units, to integrally support dismounted infantry actions. Light tanks performed the traditional cavalry role of scouting and screening. Cavalry or "cruiser" tank units were meant to exploit breakthroughs and fight other armoured formations. Well into the 1930s, some soldiers saw tanks as merely serving in support roles for large conscript armies of foot soldiers and horse cavalry.

But even before the end of the First World War, some military theorists such as J.F.C. Fuller, and later Basil Liddell Hart, formulated a different image of combined-arms armoured warfare, featuring independent, professionally manned tank units. The conditions of the Treaty of Versailles forced Germany to build an armed forces essentially from scratch, allowing it to more easily abandon conservative theories and develop Blitzkrieg tactics.

The infantry and cavalry tank roles were abandoned by the end of the Second World War. World War II tanks were generally classified by weight and role: fast, relatively inexpensive light tanks for reconnaissance, general-purpose medium tanks, and slow heavy tanks for breakthroughs and long-range fire. Combat experience helped weed out unsuccessful designs.

After World War II, less expensive armoured cars and more specialised tracked vehicles gradually took over the reconnaissance role. Heavy tanks were shown to be incapable of keeping up with mobile warfare, but advances in engine, weapon, and armour technology allowed medium tanks to acquire the best characteristics of heavy tanks—the ultimate in mobility, firepower, and protection were rolled into the main battle tank (MBT).

Tank generations

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Tanks are sometimes classified as belonging to a particular generation, although the actual definition and membership in these generations is not clearly defined. Soviet and Russian military planners organise tanks into a generation of tanks up to 1945, and four generations of main battle tanks,[1] while Canadian strategists organise main battle tanks into three generations.[2] The military of the People's Republic of China also recognises three generations of its own tanks.

Size

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There were many names given to different tank types, and similar names did not assure similar design goals. Some light tanks were relatively slow, and some were fast. Some heavy tanks had large-calibre, low-velocity, anti-infantry bunker-busters, and some had high-velocity anti-tank guns.

WWI

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In World War I, the first tank, the Mark I, was designed for supporting infantry by crossing trenches and attacking machine-gun posts. Initially, there were two types with two roles: the 'males', armed with artillery guns, and the supporting 'females', armed with anti-infantry machine guns to protect the 'males'. The tanks that followed were described relative to it, including light, medium, and super-heavy tanks—for example, the light tank FT-17 (approximately 7 t / 15,000 lb.) and the medium Medium Mark A 'Whippet' (14 t / 31,360 lb.). By the end of the war, the Mark I (~30 t / 56-60,000 lb.) could be classified as a medium tank, and the Whippet as a light tank. Super-heavy breakthrough tanks such as the Char 2C (69 t / 158,000 lb.) or the K-Wagen (120 t / 275,000 lb.) were nearly completed before the war ended. In comparison, the current British MBT, the Challenger 2, weighs some 60 t (137,500 lb).

WWII

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Tank models were developed before and during World War II according to different philosophies, with different combinations of armour, mobility, and armament. Each major nation developed its own doctrine of tank use, and therefore different tank models to suit. New doctrines explored the role of the tank as a fast-striking unit, while technological improvements led to the invention of engines, tracks, transmission, and suspension, which made tanks more reliable over a long distance. The ideas of the American inventor Walter Christie were important in establishing the fast tank concept.

Tank doctrine in the UK declared that one group of tanks would accompany infantry in a similar role to World War I, while another group of 'cruiser' tanks would then exploit a breakthrough, in a role similar to cavalry.

In the USSR, 1930s' tank doctrine specified three groups of tanks: one 'breakthrough' tank in the infantry support role, one tactical breakthrough tank to clear the combat area, and a 'fast tank' for operational maneuver.

In Germany, the ideas of Guderian established the need for unified tank formations, but with a mixture of armaments for differing roles.

In the USA, doctrine evolved so that the main purpose of the tank was to provide infantry support and exploitation of breakthroughs. The antitank role was given to tank destroyers. There was no analog to the cruiser tank in pre-war US doctrine. There were those within the US Army which advocated a more modern force with tanks in the cavalry role, but their suggestions were not put into place by the time of the US's entry into World War II.

These doctrinal differences are important when considering World War II tank classifications.

Light tank

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Light tanks tend to be smaller, faster, and lighter vehicles, and cheaper to produce. The weight of a 'light' tank increased markedly during World War II. For example, the M24 Chaffee was a purpose-built light tank of late World War II, but weighed more than the Panzer III, a mainstay medium tank from 1939-43 but obsolete at the time the Chaffee was introduced. Some light tanks are able to move over land rapidly compared to heavier tanks and are maneuverable through obstacles such as jungle thickets, while maintaining lethality against enemy infantry. The Imperial Japanese Army exploited this ability of their light tanks during the Battle of Malaya. However, many other light tanks are no more mobile than their heavier cousins, in part because the emphasis on economy meant they often were powered by standard light truck engines rather than the larger, heavier, but much more powerful medium tank engines.

Light tanks were quite common at the start of World War II, being the main element of German, Polish and French formations in the Polish and French campaigns, but during the war were relegated to reconnaissance roles because of the increasing firepower of tanks and anti-tank weapons. Some were amphibious, and some, like the Tetrarch, were small enough to be airlifted to battle. They were often preferred over armoured cars for scouting. The Soviet Union even built an experimental winged tank which ultimately was never put to practical use.

The USSR experimented with giving infantry units detachments of light tanks (e.g., the T-70) to provide armoured support. The idea was a failure because the tanks' armour was readily penetrated by German anti-tank weapons, and their firepower was inadequate for fighting other tanks or destroying field fortifications. They were replaced in this role by the SU-76 self-propelled gun. The French World War II-era light tank (Char Léger) types differed from other nations' light tanks of the period. Since they were intended to be used for infantry support rather than scouting, they were slower than most light tanks, giving it the weaknesses of the type, but with heavier armour. The French intended the AMR scout tanks (Automitrailleuses de Reconnaissance) and armoured cars (Automitrailleuses de Combat) for scouting and light combat roles.

Since World War II, light tanks have continued in the reconnaissance role, thanks to their modest cost and potential for amphibious capabilities, but have been supplemented by infantry carriers and armoured cars in many roles.

Medium tank

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Medium tanks are simply neither the heaviest nor lightest in weight, and many of the designs had successful balance of firepower, mobility, protection, and endurance, and could often be adapted to a variety of roles. Medium tanks of the intra-war period included the British Vickers Medium Mark II and the Soviet multi-turreted T-28. There were medium tanks that focused on anti-infantry capabilities (such as in World War II: the Panzer IV short-barrel, and the M4 Sherman), and medium tanks which were more focused on the anti-tank role, mounting high-velocity tank guns. The French cavalry tanks (Chars de Cavalerie) focused on speed in addition to power and protection of the other designs. They were similar to what other countries called medium tanks.

When Soviet tank designers were preparing a successor to the BT Fast Tank series, they combined its excellent mobility with thick, sloped armour and the unprecedented firepower of a 76-mm high-velocity gun. The result was the T-34 medium tank, whose superbly balanced capabilities shocked the German Wehrmacht when it invaded the Soviet Union. The lessons of Blitzkrieg, first employed by the Germans and eventually adopted by other nations, found their best expression in formations of mutually-supporting medium tanks and motorised infantry. The traditional view of infantry and cavalry tank roles was rendered obsolete.

As well, the Soviet Union and the United States both benefited from their ability to manufacture a well-balanced medium tank in incredible numbers—about 57,000 T-34s and 49,000 Sherman tanks were built during the war.

During and after the war, the roles of light tanks were gradually taken over by less-expensive armoured cars and specialised reconnaissance vehicles. Heavy tanks, having shown their limitations in World War II, experienced a limited arms race of progressively more heavily-armed and armoured designs, but these too were eventually phased out in favour of increasingly capable and flexible medium tanks. Simpler and more economical self-propelled guns, and later anti-tank guided missiles, came to fulfill fire-support and anti-tank roles, allowing tanks to become more specialised for mobile warfare.

Heavy tank

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Heavy tanks have usually been deployed to fulfill the need for a breakthrough tank, though in practice have been more useful in the defensive role than in the attack. Design goals have included attacking obstacles, creating breakthroughs, and engaging enemy armoured formations. They feature very heavy armour and weapons relative to lighter tanks, though they tend to push power plants to the limits. As a result they tend to be either underpowered and comparatively slow, or have engine and drive train problems from overworking their engines.

The first tank, the Mark I of World War I, was designed around this philosophy. So was the Char 2C, one of the largest tanks ever produced. At the start of World War II, the French and the Soviets were the only countries to have inventories of heavy tanks, such as the Char B1, T-35, and KV-1. The Matilda II infantry tank, though not as heavy as the others, had thicker armour than most tanks in service at the time. Later war examples were the German Tiger I and II, as well as the Soviet IS series. Note that "heavy" versus "medium" is more a question of tactical roles than weight; the Pz.Kpfw. V Panther, for example, was a "medium" tank that outweighed most Allied "heavy" tanks.

Heavy tanks achieved their greatest successes both fighting other, lighter tanks, and destroying fortifications with their very large guns. Although it is often assumed that heavy tanks suffered inferior mobility to mediums, this was not always the case, as many of the more sophisticated heavy tank designs featured advanced suspension and transmission precisely to counteract this drawback. But the greatest drawback is cost which translates into production, resulting in short supplies. The German Tiger, for example, had similar speed and better terrain-handling characteristics when compared to the significantly lighter Pz IV medium tank, albeit at the cost of low reliability and only 1,355 were produced compared to 58,000 Soviet T-34 and 40,000 American M4 Sherman medium tanks.

The immediate post-war period saw the final fielding of heavy tanks, including the US M103 heavy tank, the British FV214 Conqueror, and the French ARL 44, all in response to the Soviet heavy tanks of the period. The largest tank guns were approaching maximum calibre whose shell could still be handled by the crew, even using awkward two-part shells and propellants, which greatly slowed their rate of fire. Thanks to improved gun designs and fire control technology, postwar medium tanks were catching up to heavy tanks in firepower. The tactical value of heavy tanks thus declined to the point that no new designs were fielded; the heavily-armed mediums came to be known as the Main Battle Tank (MBTs). Less expensive self-propelled artillery pieces could fulfill the heavies' infantry support role.

Heavy tanks were finally rendered obsolete by anti-tank guided missiles and high explosive anti-tank (HEAT) ammunition. The much more flexible missiles are effective at ranges beyond a tank gun's range, and sheer armour mass was no longer a guarantee of survivability against the largest HEAT warheads of tank guns or missiles.

Super-heavy tank

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There were a few rare tanks informally called "super-heavy tanks". As their name implies, most of these tanks were extremely heavy such as the impractical, Porsche-designed German Panzer VIII Maus. Super-heavy tanks featured very thick armour and more powerful weapons than could be mounted on other vehicles. Most of these super-heavy tanks only reached pre-prototype stage, while some never even left the drawing board, such as the Landkreuzer P. 1000 Ratte, Landkreuzer P. 1500 Monster and TG-5 tank designed by Edward Grote. World War II and the following post-war period saw the quick zenith of super-heavy tanks with the conception of the German P-series tanks, British experimental Tortoise tank and US T-28 Super Heavy Tank. The super-heavy tank concept was short-lived since these designs were simply too heavy to be of practical military value.

Modern

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Light tank

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Light tanks, such as the PT-76, continue to play an important role in tank warfare, although many are losing favor to cheaper, faster, lighter armoured cars. The light tank still fills an important niche in many armies, especially nations with airborne divisions, or those which do not have the resources and funding to maintain a large number of main battle tanks. Additionally, they have important advantages over heavier tanks in Southeast Asia and other nations in the Equatorial region. Their size allows them to maneuver through thick rainforests and their weight reduces the risk of getting stuck in muddy terrain. This makes the light tank the preferred choice for infantry support in Equatorial nations.

Main battle tank

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Advances in tank design, armour, and engine technology allowed tank designers to increase the capabilities of tanks significantly without always resorting to heavier designs, although weights did gradually increase. High explosive anti-tank (HEAT) ammunition was a threat to tanks and could penetrate steel armour thicker than was practical to put on a tank. Advances such as the British-designed Chobham armour limit the effectiveness of weaker HEAT rounds, but the vulnerability still remained. On 7 November 1950, the US Ordnance Committee Minutes (OCM), order #33476, ceased utilizing the terms heavy, medium, and light tanks and redesignated tanks by the gun system, e.g. 90mm Gun Tank M48 Patton, etc.[3] with heavy gun tanks (120mm), medium gun tanks (90mm), and light gun tanks (76mm), although these gun terms were often still shortened to simply heavy, medium, and light tanks.

The term "main battle tank", in the US, was first generally applied to the US M60 main battle tank in 1960,[3] coinciding with the deactivation of the US Army's last M103 heavy tank battalion, the 2nd Battalion, 33rd Armor Regiment, and the delivery of the M60 to US units in Europe. The M60, armed with a 105mm main gun, was to be an all purpose tank, armed and protected as a heavy tank, but with the mobility of the medium tank.[3] The MBT would form the backbone of modern ground forces. It is armed and armoured to face as many kinds of threats as possible, but especially direct hits from other tanks and lighter infantry anti-tank weapons. However, the threats to MBTs on a modern battlefield are numerous.

Many Cold War MBTs evolved more or less directly from late World War II medium tank designs. The US Patton series of tanks was a series of successive evolutions of the M26 Pershing, for example, and the Soviet T54/55 was a direct descendant of the T-44, itself an evolution of the T-34. This meant that many MBTs retained something of their "medium tank" origins in terms of their balance of size, weight, mobility, and protection. However, in the 1960s and 1970s, a generation of purpose-designed main battle tanks appeared, starting with the British Chieftain tank. These vehicles are less obviously influenced by wartime templates (the Chieftain, for example), weighing as much as a World War II Tiger tank and possessing far greater firepower and armour, while retaining the mobility of the previous Centurion design. Similarly, the US M1 Abrams series, the German Leopard 2, the British Challenger and French Leclerc tanks are all main battle tanks. The defining feature of the main battle tank type is neither its weight, mobility, nor firepower, but instead the idea that only one type of heavily armoured vehicle is required to carry out the roles of breakthrough, exploitation and infantry support.

Even heavily armoured MBTs are vulnerable to anti-tank weapons, which are often designed to attack their most vulnerable locations: the top, the bottom, and the tracks. Tanks also retain much of their vulnerability to artillery fire and mines. A tank's heaviest armour is concentrated on its front, leaving its sides and rear less well protected.

The response was to focus on the traits that allowed the tank to survive; protection, mobility and firepower. The amount of armour added was usually sufficient to stop at least previous-generation projectiles from penetrating. Armour on more advanced Western MBTs has been shown to deflect current generation projectiles at at least their frontal armour, but there is little public information on the armour levels of the latest MBTs, as such information is generally kept secret.

Role

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WWII

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Infantry tank

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The idea for this tank was developed during World War I by the British and French. The infantry tank was designed to work in concert with infantry in the assault, moving mostly at a walking pace, which required it to carry heavy armour to survive defensive fire. Its main purpose would have been to clear the battlefield of obstacles, suppress or destroy defenders, and protect the infantry on their advance into and through enemy lines by giving mobile overwatch and cover.

One of the best-known infantry tanks was the Matilda II of World War II. Its armour was thick enough to stop all but the most powerful anti-tank rounds of the period. Its QF 2-pounder gun was sufficient to take on most light and medium tanks of the early war, but could not fire high-explosive ammunition. It should not be confused with the Matilda Mk I, also an infantry tank, which however was armed with only a machine gun. The Churchill and Valentine infantry tanks were also successful models, some of which mounted heavier guns like the QF 6-pounder.

Cruiser tank

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A cruiser tank, or cavalry tank, is designed to move fast and exploit penetrations of the enemy front. The idea originated in "Plan 1919", a British plan to break the trench deadlock of World War I in part via the use of high-speed tanks. This concept was later implemented in the "fast tanks" pioneered by Walter Christie.

They were used by the United Kingdom during World War II. Cruiser tanks were designed to complement infantry tanks, exploiting gains made by the latter to attack and disrupt the enemy rear areas. Early models were thinly armoured because they were not expected to face deliberate defenses. They were armed with QF 2-pounder anti-tank guns that could not effectively combat infantry or towed anti-tank weaponry. Early cruiser tank designs, such as the A9 and A10, were largely replaced by heavier cruiser designs such as the Crusader series, though in some cases by more modern light scouting tanks, such as the US M3 Stuart. In 1942–1943, British cruiser tank units were reequipped with American M4 Sherman tanks. In 1944, in replacing their tanks, a few units were partially converted back to British equipment: the Cromwell cruiser tank, which had the same gun as the Sherman, similar armour, but significantly more speed. The final development of the British cruiser tank line was the Comet, introduced in late 1944, which was an effective medium tank on a par with the German Panther. Leading on from the Comet, the Centurion, would be one of the first MBTs.

The Soviet fast tank (bistrokhodniy tank, or BT tank) classification also came out of the infantry/cavalry concept of armoured warfare and formed the basis for the British cruisers after 1936. The T-34 was a development of this line of tanks as well, though their armament, armour, and all-round capability places them firmly in the medium tank category.

Modern

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Specialist tank

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Tanks have often been modified for special purposes. The most common is to provide armoured capability for combat engineers. These include tanks carrying large-calibre demolition guns, with flails or ploughs for mine-clearing, or flame tanks armed with flamethrowers. The tank occasionally may lose its weapons and the chassis alone may be used, as in bridge-laying tanks. Notable among wartime examples which formed Hobart's Funnies was the Churchill AVRE, which was equipped with a weapon for destroying bunkers and other fortifications but also able to mount other equipment.

Another important modification was the amphibious tank, such as the Sherman Duplex Drive (DD). These designs were modified with waterproofing and propulsion systems, to be able to traverse open water. Their most notable usage was on D-Day.

Many specialist tank roles have been assigned to other vehicle types, though many tank chassis are still used for a wide variety of vehicles, ranging from anti-aircraft roles to bridge layers.

Unmodified tanks can be fitted with equipment, such as mine-clearing ploughs, to give them ancillary roles

See also

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Notes

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1. ↑

   “The Soviets saw tank generations in this manner: 1920-1945, first generation; 1946-1960, second generation; 1961-1980, third generation; and 1981-present, fourth generation. Since the last really new tank design, the T-80, came out in 1976, they feel that they have not produced a true Fourth Generation Tank Design. In comparison, they count the M1 Abrams, Challenger, and Leopard 2 as Fourth Generation and the LeClerc as Fifth Generation.” —Sewell 1988, note 1.

2. ↑

   “The Canadian Directorate of Land Strategic Concept defines three generations of Main Battle Tanks. The first generation of post World War II Main Battle Tanks includes the U.S. M48/M60, the German Leopard 1 and the British Centurion and Chieftain. The second generation includes most of the 120mm Main Battle Tanks such as the American M1A1, the German Leopard 2 and the British Challenger. As for the third generation Main Battle Tank, they include the latest ‘digital’ tank such as the French Leclerc and perhaps the American M1A2 and the German Leopard 2A5.” —Lamontagne 2003, pp 7–8.

3. 3.0 3.1 3.2

   Hunnicutt

References

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