T-72

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For the game, see T-72: Balkans On Fire!.
T-72A
T-72
T-72 at the Worthington Tank Museum, Canadian Forces Base Borden.
TypeMain battle tank
Place of origin Soviet Union
Specifications
Mass41 tonnes
Length6.9 m
Width3.6 m
Height2.2 m
Crew3 (commander, driver and gunner)
ArmorComposite armour
Main
armament
125 mm 2A46M smoothbore, T-72B can launch AT-11 "Svir" ATGM
Secondary
armament
PKMT 7.62 mm coaxial machine gun, NSVT or DShK 12.7 mm AA machine gun on commander's ring-mount
Engine12-cyl. diesel
780 hp (580 kW)
Power/weight18.6hp/tonne
Suspensiontorsion bar
Operational
range
450 km, with externally mounted fuel drums 600 km
Maximum speed 60 km/h

The T-72 is a Soviet-designed main battle tank that entered production in 1971. It is a parallel design with the T-64, and has been further developed as the T-90. Chronologically and in design terms it belongs to the same generation of tanks as the US M60, German Leopard 1 and British Chieftain tank—and arguably attained a better balance of mobility, protection and firepower than any of its contemporary Western rivals. More recently, the T-72's reputation has suffered following poor combat performance of export models against more modern Western tanks such as the M1 Abrams, Challenger 1 and Challenger 2 during the first and second Gulf wars.

Origin

The T-64 was one of the world's most advanced battle tanks when introduced, but early problems with its L60-derived engine, the roadwheels and inaccuracy of its main gun prompted Soviet leadership to seek a low-tech alternative with similar performance, especially after the high unit costs and labour intensive manufacture process of T-64 became obvious. The tank was too expensive to equip all Soviet tank armies, let alone Warsaw Pact (WARPAC) allies.

An "economy" tank with the old design V-46 powerplant was developed from 1967 at the Uralvagonzavod Factory located in Nizhny Tagil. Chief engineer Leonid Karchev created "Object 172", the initial design, but the prototype, marked "Object 172M", was refined and finished by Valeri Venidikov. Field trials lasted from 1971 to 1973 and upon acceptance the Chelyabinsk Tank factory immediately ceased T-55 and T-62 production to retool for the new T-72 tank.

Production history

The T-72 was the most common tank used by the Red Army from the 1970s to the collapse of the Soviet Union. It was also exported to other Warsaw Pact countries, Finland, India, Iran, Iraq, Syria and Yugoslavia, as well as being copied elsewhere, both with and without licenses.

Outside the USSR, licenced versions of T-72 were made in Poland and Czechoslovakia, for WARPAC consumers. These tanks had better and more consistent quality of make but with inferior armour, lacking the resin-embedded ceramics layer inside the turret front and glacis armour, replaced with all steel. The Polish-made T-72G tanks also had thinner armour compared to Red Army standard (410mm for turret). Before 1990, Soviet-made T-72 export versions were similarly downgraded for non-WARPAC customers (mostly the Arab countries). Many parts and tools are not interchangeable between the Russian, Polish and Czechoslovakian versions, which caused logistical problems.

The Yugoslavs called their copy the M-84, and sold hundreds of them around the world during the 1980s. The Iraqis called theirs the Assad Babyl, which means "Lion of Babylon," though the Iraqis assembled theirs from "spare parts" sold to them by the Russians as a means of evading the UN-imposed weapons embargo. More modern derivatives include the Polish PT-91 Twardy and Russian T-90. Several countries, including Russia and Ukraine also offer modernization packages for older T-72s.

Various versions of the T-72 have been in production for decades, and the specifications for its armour have changed considerably. Original T-72 tanks had homogeneous cast steel armour incorporating spaced armour technology and were moderately well protected by the standards of the early 1970s. In 1979, the Soviets began building T-72 modification with composite armour similar to the T-64 composite armour, in the front of the turret and the front of the hull. Late in the 1980s, T-72 tanks in Soviet inventory (and many of those elsewhere in the world as well) were fitted with reactive armour tiles and extra layer of synthetic ABV shielding carpet on the outside, which also served as an anti-slipping foot restraint.

File:T-80 tank on parade.jpg
T-72B top view. This model sports thick "Dolly Parton" composite armour on the turret front.

Laser rangefinders appear in T-72 tanks since 1978, earlier examples were equipped with parallax optical rangefinders, which could not be used for distances under 1000 meters. Some export versions of T-72 lacked the laser rangefinder until 1985 or only the squadron and platoon commander tanks (version K) received them. After 1985, all newly made T-72 came with reactive armour as standard, more powerful 840bhp V-84 engine and an upgraded design main gun, which can fire guided anti-tank missiles from the barrel. With these developments the T-72 eventually became almost as powerful as the more expensive T-80 tank, but few of these late variants reached the economically ailing WARPAC allies and foreign customers before the Soviet bloc fell apart in 1990.

Since 2000, export vehicles have been offered with thermal imaging night-vision gear of French manufacture as well (though it may be more likely that they might simply use the locally manufactured 'Buran-Catherine' system, which incorporates a French thermal imager). Depleted uranium armour-piercing ammunition for the 125 mm gun has been manufactured in Russia in the form of the BM-32 projectile since around 1978, though it has never been deployed, and is less penetrating than the later tungsten BM-42 and the newer BM-42M, which compares in penetrating ability to the German DM-53.

The T-72 with these enhancements and a skilled, motivated, proficient crew is a formidable opponent, even by twenty-first century standards. The more advanced T-64 and T-80 were always deployed in the forward Soviet divisions in Germany, and the T-72 was intended to be a cheap (approximately one-third cheaper per unit than the T-80) yet efficient and simple-to-maintain battle tank.

At least some technical documentation on the T-72 is known to have been passed to the CIA by the Polish Colonel Ryszard Kuklinski between 1971 and 1982.

The T-72 is common around the world in the armies of many potential enemies of the U.S. and other Western nations. Many Western analysts regard this as worrisome because, at least theoretically, its 125 mm 2A46 main gun is capable of destroying any modern main battle tank in the world today, including the M1 Abrams. On the other hand, on those three occasions when Soviet clients using T-72s have met Western armies that possessed modern main battle tanks —Lebanon in 1982 (against the Israeli Merkava), Iraq in 1991 (against the U.S. M1 Abrams and the British Challenger 1), and again Iraq in 2003— the T-72 did not show its abilities. After clashes in Lebanon in 1982, both the Israelis and the Syrians claimed their main tank's superiority, but in one case a Merkava Mk. 1 was able to engage a Syrian T-72 (Syrian 73rd Brigade) from a long range, the T-72 was hit on the “impenetrable” front side, and immediately caught fire. In the Persian Gulf War, the Iraqi tank units were heavily defeated, although this might have more to do with the poor training and full air supremacy than with any deficiencies of the T-72 itself. Furthermore, while facing the most modern Western tanks, the versions the Iraqi army fielded were out of date at the time. The Iraqi T-72s were downgraded export versions that had not been significantly upgraded over time and were firing inferior ammunition (often with steel penetrators and half-charges of propellant).

Design characteristics

T-72M1M, Polish Army Museum, Poznań, showing the large, evenly-spaced road wheels. The commander's hatch ring is reversed, with the antiaircraft machine gun facing forward and searchlight rearward.

The T-72 exhibits many design features shared with other tank designs of Soviet origin. Some of these are viewed as deficiencies in a straight comparison to NATO tanks, but most are a product of the way these tanks were envisioned to be employed, based on the Soviets' practical experiences in World War II.

Weight

The T-72 is extremely lightweight, at forty-one tonnes, and very small compared to Western main battle tanks. Some of the roads and bridges in former Warsaw Pact countries were designed such that T-72s can travel along in formation, but NATO tanks could not pass at all or just one-by-one, significantly reducing their mobility . The basic T-72 is relatively underpowered, with a 780-hp supercharged version of the basic 500-hp V-12 diesel engine block originally designed for the WWII T-34. However, it is capable of very high speed due to its light weight; one tank was clocked at 110 km/h on a German Autobahn. The tracks run on large-diameter road wheels, which allows for easy identification of T-72 and descendants (the T-64/80 family has relatively small road wheels). Ride comfort is reported as poor compared to Western tanks equipped with hydrodynamic suspension.

The T-72 is designed to cross rivers submerged using a small diameter snorkel assembled on-site. Because the hull is not water-tight, the crew is individually supplied with a simplistic rebreather chest-pack apparatus for survival. If the engine stops underwater, it must be restarted within six seconds, or the T-72's engine compartment becomes flooded due to pressure loss. The snorkelling procedure is considered dangerous but is important for maintaining operational mobility.

Nuclear, biological, and chemical protection

The T-72 has a comprehensive nuclear, biological, and chemical (NBC) protection system. The inside of both hull and turret is lined with a synthetic fabric made of boron compound, meant to reduce the penetrating radiation from neutron bomb explosions. The crew is supplied clean air via a complicated air filter system, which was designed to protect from the effects of nuclear, chemical, and biological warfare. A slight over-pressure prevents entry of contamination via bearings and joints. Use of an autoloader for the main gun allows for more efficient forced smoke removal compared to traditional manually-loaded ("pig-loader") tank guns, so NBC isolation of the fighting compartment can in theory be maintained indefinitely.

T-72 on a wheeled tank transporter. The engine exhaust port is visible on the left side. This tank has additional fuel drums on rear brackets.

Interior

Like all Soviet-legacy tanks, the T-72's design has traded off interior space in return for a very small silhouette and efficient use of armour, to the point of replacing the fourth crewman with a mechanical loader. The smaller complement increases the crew's mental and physical exhaustion (although in service, the tank crew is supplemented by a mechanic who travels with the military support organization). The basic T-72 design has extremely small periscope viewports, even by the constrained standards of battle tanks and the driver's field of vision is significantly reduced when his hatch is closed. The steering system is a traditional dual-tiller layout instead of the steering wheel or steering yoke common in modern tanks. This set-up requires the near-constant use of both hands, which complicates employment of the seven speed manual gearbox. Driving the T-72 is a real challenge. Exported T-72s do not have the internal lining that is standard on Russian T-72s, which consists of a layer of synthetic material, containing lead, that provides some degree of protection against the effects of neutron radiation and electromagnetic pulses.

Armour

T-72 of the Indian Army

Armour protection of the T-72 was strengthened with each succeeding generation. The original T-72 turret is made from conventional cast armour. It is believe the maximum thickness of 280mm, the nose is about 80mm and the glacis of the new laminated armour is 200mm thick, which when inclined gives about 500-600mm LOS thickness. Late model T-72 features composite armour protection.

The T-72M (export version of the Soviet T-72A, sometimes called a monkey model) featured a different armour protection compared to the T-72A: it had a different composite insert in the turret cavity which granted it less protection against HEAT and armour-piercing (AP) munitions. The modernised T-72M1 featured an additional 16 mm of armour on the glacis plate, which granted an increase of 32 mm horizontally against both HEAT and AP. It also featured a newer composite armour in the turret with pelletised filler agent.

Several T-72 models featured explosive reactive armour (ERA), which increased protection primarily against HEAT type weapons. Certain late-model T-72 tanks featured heavy ERA to help defeat modern HEAT and AP against which they were insufficiently protected.

Late model T-72 like the T-72B featured improved turret armour, visibly bulging the turret front—nicknamed "Dolly Parton" armour by Western intelligence. The glacis was also fitted with 20 mm of appliqué armour. The late production versions of the T-72B/B1 and T-72A variants also featured an anti-radiation layer on the hull roof.

Also noted that early model T-72 did not feature side skirts, instead the original base model featured gill or flipper type armour panels on either side of the forward part of the hull. When the T-72A was introduced in 1979 it was the first model to feature the plastic side skirts covering the upper part of the suspension and separate panels protecting the side of the fuel and stowage panniers.

However, in contrast to recent Western tanks, the T-72 stores ammunition in the crew compartment, including in the turret. This means if the main compartment is penetrated, ammunition cook-off can occur, which is likely to kill the crew and blast the turret high into the air. American tank crews who faced Iraqi T-72s during the two Gulf Wars referred to the tank as the "jack-in-the-box".

Gun

Finnish T-72M1 displayed at Parola Tank Museum

The 125 mm 2A46 series main gun is about as powerful (depending on the ammunition) as the NATO-standard 120 mm/L44 found in many modern Western MBTs (which is to say, highly powerful and highly lethal, at least theoretically capable of destroying any tank in the world today at a kilometre or more).

The main gun of the T-72 has a mean error of one metre at a range of 1,800 m, which is considered substandard today. Its maximum firing distance is 9,100 m, due to limited positive elevation. The limit of aimed fire is 4,000 m (with the gun-launched anti-tank guided missile, which is rarely used outside the former USSR). The T-72's main gun is fitted with an integral pressure reserve drum, which assists in rapid smoke evacuation from the bore after firing. The 125 millimetre gun barrel is certified strong enough to ram the tank through forty centimetres of iron-reinforced brick wall, but doing so will badly deteriorate the firing precision afterwards. Rumours in NATO armies of the late Cold War claimed that the tremendous recoil of the huge 125 mm gun could damage the fully mechanical transmission of the T-72. The tank commander reputedly had to order firing by repeating his command, when the T-72 is on the move: "Fire! Fire!" The first shout supposedly allowed the driver to disengage the clutch to prevent wrecking the transmission when the gunner fired the cannon on the second order. In reality, this still-common tactic substantively improves the tank's firing accuracy and has nothing to do with recoil or mechanical damage to anything. It must be noted, however, that a human being in close proximity to the breech block of a 2A46 cannon when it is fired will find the event difficult to ignore or forget.

The vast majority of T-72s do not have FLIR thermal imaging sights, though all T-72s (even those exported to the Third World) possess the characteristic (and inferior) 'Luna' IR illuminator. Thermal imaging sights are extremely expensive, and the new Russian FLIR system, the 'Buran-Catherine Thermal Imaging Suite' was only introduced recently on the T-80UM tank. Most T-72s found outside the former Soviet Union do not have laser range-finders. T-72 built for export have a downgraded fire-control system and automatic loader.

Autoloader

The T-72's autoloader design is not based on the faster, but more complicated autoloader in the USSR's domestic-use-only T-64 tank series (the T-72's is horizontally auto-fed, the T-64's uses vertical actuators). These systems are fast but prone to malfunctions if not maintained properly. Even if properly maintained they can be relatively unreliable. It takes between 6.5 and 15 seconds to load a new shell into the main gun, depending on the current position of the autoloader carousel. The autoloader must crank the gun up three degrees above the horizontal in order to depress the breech end of the gun and line it up with the new shell. While autoloading, the gunner can still aim because he has a vertically independent sight. With a laser range-finder and a ballistic computer, final aiming takes at least another three to five seconds, but aiming is pipelined into the last steps of auto-loading so it proceeds concurrently. The T-90 autoloader (further modification of T-72) has a 'sequence' mode. When it is enabled, the loading mechanism continuously loads rounds of the same type without any gunner's intervention. This allows the loading operations to be performed in under 5 seconds. There are videos showing T-90 firing 3 shots in 13 seconds (4.3 sec per shot) while moving. This rate of fire is practically impossible for a human loader. Refilling the autoloader with new shells is a real maintenance burden and requires great attention to maintain the specified sequence, but it should be noted that the average rate of fire for this type of carousel automatic loader is quoted to be 8 rounds per minute. Trained T-72 crews don't find reloading much worse than loading other tank types; the separated cartridges are easier to handle.

Employment

A significant characteristic of all Soviet and Russian tanks since the Second World War is their relatively limited range of main gun elevation. The tank's low profile requires a correspondingly low turret roof, which stops the rising gun breech. This inhibits depression of the gun (this was seen as a reasonable trade-off for a low profile). The main gun can be depressed only a few degrees, making it difficult to stop in a well-protected hull-down position (with the tank parked just behind the crest of a ridge and just the muzzle of its gun and part of its turret visible to the anticipated target).

Western tanks have considerably more elevation range and can be parked in a hull-down position with just the gun and a tiny sliver of the turret showing, whereas Soviet designs under many circumstances cannot take up a hull-down position at all because they cannot depress their guns far enough to park behind a ridge and shoot down the hill. In the interest of fairness, the origin and true impact of this shortcoming should be noted. The common Western explanation is that given Soviet doctrine's tactical emphasis on offence over defence, it was not particularly important to the Soviet designers that their tank be able to fight from a defensive position for long periods.

It is more likely that the T-72's designers were acutely conscious of the tank's limited main gun depression. A close look at the T-72 reveals an integral hydraulic bulldozer blade on the underside of the frontal glacis, which enables the T-72 to excavate and construct a defensive position that minimizes the need for gun depression. The T-72's lighter armour, lower ammunition count, and lesser gun range when compared to its Western counterparts all indicate that its design prioritised mass production over comparative invincibility. A (relatively) cheap weapon, fielded in quantity, could wear down the better-armoured spearheads of a Western conventional strike even in head-to-head battle. The T-72 is better characterised as a low-cost design balanced for phased offensive and defensive employment than as a tank designed solely for the attack. Indeed, by comparison with its NATO contemporaries the T-72 seems somewhat under-provisioned for protracted offensive operations.

Georgian T-72BV, covered in reactive armour.

Western tanks such as the Leopard 2, the Leclerc, and the M1 Abrams, publicly specified for the capability to defend against a feared Soviet/Warsaw Pact invasion of NATO, exhibit significant offensive capabilities that could serve a preemptive strike as well as a defence including local counterattack. These Western tanks' higher on-board ammunition capacity may well have convinced habitually frugal Warsaw Pact strategists that they were not designed exclusively to fight from well-prepared positions in which additional ammunition could be stowed outside the tank turret (and from which a cheaper antitank solution might have nearly as much effect).

Armoured warfare is of course neither simple nor static, historically involving rapid alteration between modes of attack and defence. Engineers on the two sides of the Iron Curtain certainly received contrasting constraints and objectives. Whether evaluated for cost, mobility, armament, or protection, the T-72 is a classic representative of the Soviet school of tank construction.

Recent CIS export designs, intended to compete with Western tanks on the open market, have placed more emphasis on defence and crew survivability. The Ukrainian T-84 Oplot, T-84-120 Yatagan, and Russian Black Eagle appear to have armoured blow-out ammunition compartments.

Variants

File:T-72 tank.jpg
In this rear view, stowage bins and wading snorkel are visible on the turret, and a tow cable and ditching beam hang from the hull rear. The front-most tank (left) has the commander's windscreen erected.
File:T-72w.jpg
Serbian Army T-72 modification.
  • T-72 - Original version, optical range-finder.
  • T-72A - Added side skirts, additional armour, laser range-finder, electronic fire control system, smoke grenade launchers.
  • T-72B - Thicker armour, composite armour in front of turret and front of hull. AT-11 "Svir" laser-guided antitank missile capability.
  • T-72AV, T-72BV - models with early Kontakt explosive reactive armour ("V" for vzryvnoi ‘explosive’).
  • T-72B1 - T-72B without ATGM capability.
  • T-72BK - Command version of T-72B, recognizable by having multiple radio antennas.
  • T-72B(M) - T-72B equipped with advanced Kontakt-5 explosive reactive armour, composite armour in sides of turret as well.
  • T-72M - Soviet export version, similar to T-72A (built also in Poland and ex-Czechoslovakia).
  • T-72M1 - Soviet export version, with thicker armour (built also in Poland and ex-Czechoslovakia).
  • T-72M1M - Soviet export version. It's a T-72M1 upgraded with Arena active defense system.
  • T-72S - Soviet export version, with equal T-72B, ERA modifications were small as T-72B appeared at 1991
  • M-84 - improved version produced in Yugoslavia (about 200 were exported to Kuwait)
  • M-95 Degman - more modern prototype based on the M-84
  • M-84AB1 - M-84 tank modernized to T-90 level.
  • Lion of Babylon tank - Iraqi-assembled version of the T-72M, with layer armor improvement and electro-optical countermeasures.
  • PT-91 Twardy - a Polish tank based on T-72M1.
  • T-72M1Z - (Z for Zmodernizowany - modernized) T-72M1 upgraded to PT-91 standard
  • TR-125 - Romanian tank based on T-72 with extra armour modiffied suspension and more powerful diesel engine.
  • T-72MP - modernization package for the T-72 by Ukrainian company KMDB, including improved engine, armour, and fire control. The upgrade is built in co-operation with Sagem of France, and the PSP Bohemia of the Czech Republic.
  • T-72AG - KMDB modernization package, including improved engine, armour, fire control, and main armament.
  • T-72-120 - KMDB modernization package, including an auto-loaded main gun capable of firing NATO 120 mm ammunition or ATGM.
  • T-90 - is a further development of the T-72, incorporating many features of the heavier, more complex T-80.
  • Ajeya MK1 - Indian version of the T-72M, in 1993 they were improved to T-72M1 versions.
  • Ajeya MK2 - Indian version of the T-72M1, upgraded with DRDO explosive reactive armour, new fire detection and suppression systems, installation of laser warning systems on either side of the turret, new SKO-1T DRAWA-T fire control systems/thermal imagers supplied by Poland, upgraded the 780hp engine to the new 1000hp V46-6 diesel engine and improved navigation GPS.
  • Tank EX - Indian integration of the Arjun turret onto the T-72 hull, Prototype only.
  • BMP-T - Heavy Convoy, and Close Tank support vehicle. All new turret armed with 2 30mm 2A42 Autocannons, 4 9M133 Kornet ATGMs, AGS-17/30 30mm Grenade Launchers and a 7.62mm PKT MG. Features new fire control system with thermal sights and 3rd generation Relikt explosive reactive armour.
  • T-72BM (T-72B "Rogatka") - First shown at the 2006 Russian Arms Expo, it is an upgraded T-72B fitted with new fire control system including a gunner's thermal sight, "Nakidka" camouflage kit, new 125mm 2A46M-5 main gun with muzzle reference system, V-92S2 1,000hp diesel engine and new Relikt 3rd generation explosive reactive armour which is claimed to be twice as effective as Kontakt-5.
  • T-72M1CZ - T-72M1CZ were copies T-72M by Czechoslovakia
  • T-72M2CZ - T-72M2CZ were copies T-72M1 by Czechoslovakia
  • T-72M3CZ - T-72M3CZ includes the Gunner Thermal image sight or the Tank commander Thermal image sight. Tank driver Passive IR Sight viewer leaves that and Laser range finder and the ballistic calculator make computerized and added internal navigation equipment
  • T-72M4CZ - Added new ERA armor for Protection HEAT Round either APFSDS Round, equipped new FCS Galileo Avionica TURMS-T computerized FCS (FCS is Equal C1 Ariete), Power pack was equipped Perkins CV12-1000 1,000hp diesel water cooling engines. All Work progress It took charge of Israel NIMDA companies output reach to 1,000hp and the transmission of existing instead of Allison XTG-411-6 automatic transmissions. Also T-72M4CZ is increased 4 ton about, Tank Commander sight was similar to France Leclerc MBT. Recent Czech upgrade to 30 tanks

Operators

T-72 operators

Past and present operators of the T-72.


Former Operators

Combat history

Iraqi T-72 in 2006

Notes

  1. ^ http://www.militarium.net/wojska_ladowe/t72.php
  2. ^ http://www.militarium.net/wojska_ladowe/t72.php
  3. ^ http://www.militarium.net/wojska_ladowe/t72.php
  4. ^ http://www.militarium.net/wojska_ladowe/t72.php
  5. ^ http://www.militarium.net/wojska_ladowe/t72.php
  6. ^ http://www.militarium.net/wojska_ladowe/t72.php
  7. ^ http://www.militarium.net/wojska_ladowe/t72.php
  8. ^ http://www.army.cz/scripts/detail.php?id=5775
  9. ^ http://www.militarium.net/wojska_ladowe/t72.php
  10. ^ http://www.globalsecurity.org/military/world/india/army-equipment.htm
  11. ^ http://www.globalsecurity.org/military/world/iran/ground-equipment.htm
  12. ^ Shapir, Yiftah S., Middle East Military Balance, Tel Aviv University, 6, 7 [1]
  13. ^ http://www.militarium.net/wojska_ladowe/t72.php
  14. ^ http://www.militarium.net/wojsko_polskie/uzbrojenie.php
  15. ^ http://warfare.ru/?lang=&catid=244&linkid=1775
  16. ^ http://www.militarium.net/wojska_ladowe/t72.php
  17. ^ http://www.globalsecurity.org/military/world/syria/army-equipment.htm
  18. ^ http://www.globalsecurity.org/military/world/centralasia/tajik-army-equipment.htm
  19. ^ http://www.globalsecurity.org/military/world/centralasia/turkmen-army-equipment.htm
  20. ^ http://www.globalsecurity.org/military/world/ukraine/groundforces-equipment.htm
  21. ^ http://www.globalsecurity.org/military/world/centralasia/uzbek-army-equipment.htm
  22. ^ http://www.militarium.net/wojska_ladowe/t72.php
  23. ^ http://www.militarium.net/wojska_ladowe/t72.php

References

  • Sewell, Stephen ‘Cookie’ (1998). “Why Three Tanks?” in Armor vol. 108, no. 4, p. 21. Fort Knox, KY: US Army Armor Center. ISSN 0004-2420. (PDF format)
  • Christopher. F. Foss, Jane's Armour and Artillery 2005-2006. ISBN 978-0-7106-2686-8.
  • Leizin, Uri (2004) "Two myths of one battle: Syrian T-72's in 1982 Lebanon war"(in Russian)
  • Zaloga, Steven J (1993) T-72 Main Battle Tank 1974-93, Osprey Publishing ISBN 1-85532-338-9.

Related content

Related development

Comparable AFV

Designation sequence

T-54 - T-55 - T-62 - T-64 - T-72 - T-80 - T-90 - T-95

Related lists

See also

External links

Wikimedia Commons has media related to T-72.
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