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Al-Zarrar Tank

Sunday, September 6, 2009



The Al-Zarrar is a modern MBT (main battle tank) developed and manufactured by Heavy Industries Taxila (HIT) of Pakistan for the Pakistan Army.




A re-built, upgraded variant of the Chinese Type 59 tank, Al-Zarrar is supposed to be a cost-effective replacement for the Type 59 fleet of the Pakistan Army. Equipped with modern armament, fire control and ballistic protection, the Al-Zarrar upgrade is also offered by HIT to the armies of foreign countries to upgrade their T-54/T-55 or Type 59 tanks to Al-Zarrar standard. 54 modifications made to the Type 59 make the Al-Zarrar effectively a new tank.



The Al-Zarrar development programme started in 1990 and the first batch of 80 upgraded tanks were delivered to the Pakistan Army on 26 February 2004.



History

It was decided by the Pakistan Army that their inventory of Chinese origin Type 59 tanks was too large to be discarded and replaced, so a phased upgrade programme was started by Heavy Industries Taxila (HIT) in 1990. The idea was to upgrade the firepower, mobility and protection of the Type 59 to allow it to compete on the modern battlefield at a fraction of the cost of a modern main battle tank (MBT). The first phase of the upgrade programme was completed in 1997. The second phase started in 1998 when HIT began development and testing of a new tank, a Type 59 re-built with over 50 modifications, resulting in three prototypes with slightly differing specifications (different fire-control systems, for example). Many systems originally developed for HIT's Al-Khalid MBT were incorporated. The prototypes underwent extensive testing by HIT and the Pakistan Army, who selected the final version of the tank, dubbed Al-Zarrar. HIT began full production of Al-Zarrar in 2003.





Design



Al-Zarrar MBTs taking part in counter-insurgency operations in north-west Pakistan.

Al-Zarrar MBTs of the Pakistan Army's 27th Cavalry regiment stationed at Kharian.

Al-Zarrar MBTs of the Pakistan Army's 27th Cavalry regiment stationed at Kharian.

Armament and fire-control

Al-Zarrar's primary armament is a 125 mm smoothbore tank gun with an autofrettaged, chrome-plated gun barrel. It is capable of firing APFSDS, HEAT-FS and HE-FS rounds as well as anti-tank guided missiles and a Pakistani DU (depleted uranium) round, the 125 mm Naiza. Naiza is capable of penetrating 550 mm of RHA armour at a distance of 2 km. Reloaded by a semi-automatic autoloader, the gun has a dual-axis stabilisation system and thermal imaging sights for the commander and gunner. integrated into the fire-control system. The image stabilised fire-control system includes a laser range-finder for accurate range information and ballistics computer to improve accuracy.[1] An improved gun control system is also fitted.


The secondary armament consists of an external 12.7 mm anti-aircraft machine gun mounted on the roof of the turret, which can be aimed and fired from inside the tank, and a 7.62 mm coaxial machine gun.

Mobility

The Al-Zarrar is powered by a liquid-cooled 12 cylinder diesel engine, giving a power output of 730 hp and torque output of 305 kg.m at 1300-1400rpm. A combat weight of 40 tonnes gives Al-Zarrar a power to weight ratio of 18.3 hp/tonne and a top speed of 65 km/h. Crew comfort is improved over the Type 59 by a modified torsion bar suspension system.

Protection

Al-Zarrar uses modular composite armour and explosive reactive armour to give improved protection from anti-tank missiles, mines and other weapons. The Pakistani ATCOP LTS-1 laser threat warning system is fitted to inform the tank crew if the tank is targeted by a laser range-finder or laser designator. Smoke grenade launchers are fitted to the sides of the turret. An automatic fire-extinguishing and explosion suppression system is installed to improve crew survivability.





Export

On 21 October 2008, the chief of the Bangladesh Army met his Pakistani counterpart to discuss a programme to modernise the Bangladesh Army's fleet of Type 59 tanks.[2] The Bangladesh Army may soon become the first export customer of the Al-Zarrar as it intends to upgrade 300 of its Type 59 tanks to Al-Zarrar standard at the 902 Heavy Workshop in Bangladesh.[2]

Type 85IIAP Main Battle Tank



The Type 88 is a series of medium second-generation main battle tanks (MBTs) from China. Based on the Type 79 design, the Type 88 entered service with the People's Liberation Army (PLA) in the 1980s. As of 2003, an estimated 500 Type 88 MBTs are currently in service with the PLA. The tank was followed by the Type 96 MBT.


History

After the Sino-Soviet split in 1960s, relations between China and the Soviet Union gradually worsened, leading to border clashes in 1969. By 1970s, over 1.5 million troops from both sides were stationed along the Sino-Soviet border. At the time the best Chinese tanks were copies of Soviet T-54/55 MBT's, which were hopelessly out-matched by new Soviet designs like the T-62, T-64, and T-72.



The People's Liberation Army requested new tanks that could match the Soviets, which led to the development of Type 69 by 617 Factory (now Inner-Mongolia First Machinery Group Company Ltd), incorporating some technologies from a captured Soviet T-62 tank. [2] However the T-69 failed to satisfy PLA requirements, and was more of an export success (over 2,000 sold) than domestic use. As a result, new tank development was commenced and a new family of tanks that included many sub-families was the result.





Type 80

Type 80 is first of the second generation tanks of China.





Type 80

Prototype design based on Type 79 hull, with following improvements:



New chassis incorporating a wheel/track system with 6 small wheels, 3 track rollers, and rubber track skirt

First Chinese tank to have an all welded turret, increasing protection level

730 hp 1215OL-7BW diesel engine licensed from Germany

Type 37A dual-axis stabilised light spot fire control system (FCS) with external laser rangefinder, licensed from UK

Type 83 105 mm rifled gun, NATO-standard, licensed from Austria



Type 80-II

Type 80 with following improvements:



Laser range-finder integrated with FCS

Built-in test system to identify malfunctions

Lens protection system for sights

NBC protection with overpressure system

Turret surrounded by storage racks for extra protection

First Chinese tank to feature a collective NBC protection system so that crew need not to wear individual NBC protection gear inside the tank.



Type 85

It is unclear if the different factories were in competition, or jointly developing the new second generation tank. What is known is that China's North Industries Group Corporation (Norinco), most likely in association with 201 Institute (now China North Vehicle Research Institute), unveiled their own version, the T-85 MBT in 1988. The PLA did not initially accept the T-85 MBT, and it was further developed for export to Pakistan (Type 85-IIAP and Type 85-III.) This was drastically changed later on when China obtained Russian T-72 samples in late 1980s (reportedly from Iran with captured Iraqi samples.) South Africa had discovered along with the Chinese that not only could the western origin 105 mm guns of Type 80 defeat the armor of a T-72 tank but that the main gun of T-72 could also easily defeat the armor of not only the Type 80 but all armor of Chinese tanks as well. Improvement of the current tanks in PLA inventory was needed and this was later further illustrated during the 1991 Gulf War, when the PLA observed that their current (1991-era) tanks were vastly inferior to Western MBTs. Priorities were given to develop a third-generation tank, and as well as improving the existing second-generation design. As a result, Type 85 is a direct development of Type 80, and over 600 are in Chinese service, while an additional 300+ are in Pakistani service.





Type 85

Prototype with Type 80 chassis, welded turret, and 105 mm rifled main gun (Type 83?). Since the project was intended to be an export model and the Chinese government did not fund the project originally, this prototype was reportedly borrowed from a museum and when tests were completed, the vehicle was returned to the museum without the main gun, and a photo of this vehicle was circulated on the internet in the early 2000s.





Type 85-I

Improved Type 85 with heat sleeve for main gun. The turret incorporated composite armor.





Type 85-II

Improved Type 85-I with upgraded fire-control system. The fire control system incorporates the laser rangefinder, the onboard computer, and the wind sensor. The automatic loader is reportedly derived from that of T-72 obtained from Middle East (Possibly from Iraq or captured Iraqi samples from Iran). Various solid-state electronic upgrades.





Type 85-IIA

Type 85-II with a domestic 125 mm smoothbore gun replacing the original 105 mm rifled gun. The auto-loader for 125 mm rounds based on the Soviet 2A46 design





Type 85-IIM

Introduced in mid 1990s with following upgrades:



Enhanced armor protection

Introduced the ISFCS (Image Stablized Fire Control System) with improved FCS and night vision.

Served as the prototype of Type 88C.





T-85IIAP



License-built Type 85-IIA in Pakistan by Taxila Heavy Industries, but with the 125 mm gun and associated auto loader. Some are installed with Weston Simfire 2 training equipment. Over 300 are in service in Pakistan, and all of them are upgraded to the Type 85-III level. [3]





Type 85-III

This was an export version intended for Pakistan with 1,000 hp diesel engine, and the 125 mm smoothbore gun. However, domestic Chinese engine technology was inadequate and during the demonstration in Pakistani desert, the engine failed and black smoke produced covered the entire tank, and thus was rejected by Pakistan. When the problem was finally solved, Norinco also incorporated additional features in 1995 such as ERA upgrade, but by then more advanced models already existed and thus the new tank did not enter mass production. However, Type-85-III had since become the standard for all other earlier Type-85 MBT to upgrade to, including those Type 85-IIAP exported to Pakistan.





Type 88

In the late 1970s, China's 617 Factory (main contractor), 616 Factory, 477 Factory, and 201 Institute (now China North Vehicle Research Institute) were ordered to develop China's new second-generation tank. The project benefitted from imported Western Technologies in the 1980s. The first Type 80 MBT was based on the older Type 79 MBT hull, but equipped with new Chinese-made wheels/tracks, German-designed 730hp diesel engine, British-designed dual-axis stabilized fire-control with laser range-finder, and NATO-standard 105 mm gun licensed from Austria. The improved version of this tank later entered service in 1988 under the PLA designation of Type 88. The Type 88 tank is unique in that unlike the rest series of Chinese tanks, this series actually includes versions from different families of earlier tanks.





Type 88

First Chinese tank to have explosive reactive armor and was accepted into PLA service in 1988, based on T-80II design. Front storage racks on turret removed to fit explosive reactive armor (ERA) plates.





Type 88B

Improved Type 88 with new auto-loading system for domestic 105 mm ammunition. FCS system was later replaced by new ISFCS-212 ISFCS.





Type 88A

Introduced after Type 88B, the main gun was replaced by improved 105 mm Type 83-I with longer tube and better performance. Fitted with FY-series double ERA plates for better protection against APFSDS and HEAT-FRAG rounds.





Type 88C

Developed from Type 85-IIM which had a more powerful 125 mm smoothbore gun, and the ISFCS-212 fire control system of this tank was later retrofited on Type 88A and Type 88B. The engine was originally the same as Type 80 and earlier Type 85, but once the problem of 1000 hp engine solved, it replaced the original engine.



Production of Type 88-series MBT's were stopped in 1995. About 400 to 500 Type 88-series tanks are in service with the PLA today.

T-80 Battle Tank

The T-80 is a main battle tank (MBT) designed and manufactured in the former Soviet Union. A development of the T-64, it entered service in 1976 and was the first production tank to be equipped with a gas turbine engine for main propulsion (the Stridsvagn 103 only used a supplementary gas turbine by 1971). The T-80U was last produced in a factory in Omsk, Russia, while the T-80UD and further-developed T-84 continue to be produced in Ukraine. The T-80 and its variants are in service in Belarus, Cyprus, Kazakhstan,[9] Pakistan, Russia, South Korea, and Ukraine. The chief designer of the T-80 was the Russian engineer Nikolay Popov.[10]




Development history

The project to build the first Soviet turbine powered tank began in 1949. Its designer was A. Ch. Starostienko, who worked at the Leningrad Kirov Plant (LKZ). The tank was never built because available turbine engines were of very poor quality. In 1955 at the same plant, under guidance of G. A. Ogloblin, two prototype 1,000 hp (746 kW) turbine engine were built. Two years later a team led by the famous heavy tank designer Ż. J. Kotin constructed two prototypes of the Ob'yekt 278 tank. Both were hybrids of the IS-7 and the T-10 heavy tanks, powered by the GTD-1 turbine engine, weighing 53.5 tonnes and armed with the M65 130 mm tank gun. The turbine engine allowed the tank to reach a maximum speed of 57.3 km/h (35.6 mph) but with only 1950 liters of fuel onboard, range was a mere 300 km (190 mi). The two tanks were considered experimental vehicles and work on them eventually ceased. In 1963, the Morozov Design Bureau designed the T-64 and T-64T tanks. It used a GTD-3TL turbine engine which generated 700 hp (522 kW). The tank was tested until 1965. At the same time in Uralvagonzavod a design team under the guidance of L. N. Karcew created the Ob'yekt 167T tank. It used the GTD-3T turbine engine which supplied 801 hp (597 kW).[11]



In 1966 the experimental Ob'yekt 288 rocket tank, powered by two aerial GTD-350 turbine engines with a combined power of 691 hp (515 kW), was first built. Trials indicated that twin propulsion was no better than the turbine engine which had been in development since 1968 at KB-3 of the Kirov Plant (LKZ) and at WNII Trans Masz. The tank from LKZ equipped with this turbine engine was designed by Nikolay Popov. It was constructed in 1969 and designated Ob'yekt 219 SP1. It was renamed the T-64T, and was powered by a GTD-1000T multi-fuel gas turbine engine producing up to 1000 hp (746 kW). During the trials it became clear that the increased weight and dynamic characteristics required a complete redesign of the vehicle's caterpillar track system. The second prototype, designated Ob'yekt 219 SP2, received bigger drive sprockets and return rollers. The number of wheels was increased from four to five. The construction of the turret was altered to use the same compartment, 125 mm 2A46 tank gun, auto loader and placement of ammunition as the T-64A. Some additional equipment was also scavenged from the T-64A. The LKZ plant built a series of prototypes based on Ob'yekt 219 SP2. After seven years of upgrades, the tank became the T-80.[12]





Description

The T-80 is similar in layout to the T-64; the driver's compartment is on the centreline at the front, the two man turret is in the centre - with gunner on the left and commander on the right, and the engine is rear mounted.[13] Overall, its shape is also very similar to the T-64. The original T-80 design uses a 1,000 horsepower gas turbine instead of a 750 horsepower diesel engine, although some later variants of the T-80 revert to diesel engine usage. The gearbox is different, with 5 forward and 1 reverse, instead of 7 forward and 1 reverse. Suspension reverts from pneumatic to torsion bar, with six forged steel-aluminium rubber-tyred road wheels on each side, with the tracks driven by rear sprockets.[13] The glacis is of laminate armour, the turret is armoured steel; housing the same 125 mm 2A46 smoothbore gun as the T-72, which can fire anti tank guided missiles as well as regular ordnance.[13] The tracks are slightly wider and longer than on the T-64 giving lower ground pressure.[13]



The main gun is fed by the Korzina automatic loader. This holds up to 28 rounds of two-part ammunition in a carousel located under the turret floor.[14] Additional ammunition is stored within the turret. The ammunition comprises the projectile (APFSDS, HEAT or HE-Frag) plus the propellant charge, or the two part missile.[14] The autoloader itself is an effective, reliable, combat tested system which has been in use since the mid-1960s. The propellant charge is held inside a semi-combustible cartridge case made of a highly flammable material - this is consumed in the breech during firing, except for a small metal baseplate.[14]



A disadvantage highlighted during combat in Chechnya was the vulnerability of the T-80BV to catastrophic explosion.[14] The reason given by US and Russian experts is the vulnerability of stored semi-combustible propellant charges and missiles when contacted by the molten metal jet from the penetration of a HEAT warhead, causing the entire ammunition load to explode.[14] This vulnerability may be addressed in later models. When Western tank designs changed from non-combustible propellant cartridges to semi-combustible, they tended to separate ammunition stowage from the crew compartment with armoured blast doors, and provided 'blow-out' panels to redirect the force and fire of exploding ammunition away from the crew compartment.[14]



The autoloader speed is from 7.1 seconds to 19.5 s to load the main weapon, depending on the initial position of autoloader carousel.



Another perceived design flaw is the small angle of depression for the main gun, meaning it is limited in the hull-down positions that the tank can fire from. However, the built-in entrenching blade equipped T-80 can create an excellent capriot in less than 15 minutes. The latest T-80 variant in service, the T-84 Oplot, has an entirely new turret with armoured ammunition compartment, all but eliminating the possibility of catastrophic ammunition cook-off.





Production history



This T-80BV (a monument in St Petersburg) has reactive armour adapted to its turret and hull. The later T-80U has a large applique of explosive reactive armour installed — providing higher crew and tank survivability than prior models.The T-80 was confused with the Soviet T-72 by some Western analysts, but the T-80 and T-72 are mechanically very different. They are the products of different design bureaus; the T-80 is from the SKB-2 design bureau of the Kirov Factory (LKZ) in Leningrad while the T-72 is from the Uralvagonzavod factory in Nizhny Tagil, Russia. They are similar in superficial appearance, but the T-80 is based on the earlier T-64, while incorporating features from the T-72, which was a complementary design.[15]



The T-64 was the earlier offering of the Morozov Design Bureau (KMDB), a high-technology main battle tank designed to replace the obsolescent IS-3 and T-10 heavy tanks, used in the Red Army's independent tank units. The T-72 was intended to be a tank mass-produced to equip the bulk of the Soviet Motor Rifle units, and for sale to export partners and eastern-bloc satellite states. The mechanically simpler T-72 is simpler to manufacture, and easier to service in the field. Western analysts for many years denied the usage of gas turbines as main propulsion. From a long distance T-64, T-72 and T-80 look alike even though the T-80 is 90 cm longer than the T-64.[9]



The T-64's story continues in the T-80. The Leningrad design bureau improved upon the earlier design, introducing a gas turbine engine in the original model, and incorporating suspension components of the T-72. This gave the tank a high power-to-weight ratio and made it easily the most mobile tank in service, albeit with acute range problems, as the turbine consumed fuel rapidly, even at engine idle. (Morozov's subsequent parallel development of the T-80UD replaced the gas turbine with a commercial turbo-diesel, to decrease fuel consumption and maintenance.) In comparison to its anticipated opponent, the M1 has a larger 1,500 hp (1,120 kW) gas turbine, but weighs 61 tons compared to the T-80s 42.6 tons, so it has a worse hp/t ratio of 24.5 compared to 27.1 and is less maneuverable than the T-80 (with GT). The T-80 can fire the same 9K112 Kobra (AT-8 Songster) anti-tank guided missile through the main gun as the T-64.





T-80U on exhibition at the Kubinka Tank Museum.The T-80U main battle tank (1985, "U" for uluchsheniye ‘improvement’) was designed by SKB-2 in Leningrad (hull) and the Morozov Bureau (turret and armament). It is powered by the 1,250 hp (919 kW) GTD-1250 gas turbine. It is a step ahead of the GTD-1000T and GTD-1000TF engines that were installed on the previous tanks of T-80 line. This gas turbine can use jet fuels as well as diesel and low-octane gasoline, has good dynamic stability, service life, and reliability. the GTD-1250 gas turbine has a built-in automatic system of dust deposits removal. Of course it retains the T-80's high fuel consumption, which the Russian army found unacceptable during the Chechen conflicts. The T-80U is protected by a new generation of explosive reactive armour called Kontakt-5, integrated into the design of the turret and hull, and Brod-M deep wading equipment. It can fire the new 9M119 Refleks (AT-11 Sniper) guided missile. The remotely controlled commander's machine gun is replaced by a more flexible pintle-mounted one.



The T-80U(M) of the 1990s introduced the TO1-PO2 Agava gunner's thermal imaging sight and 9M119M Refleks-M guided missile, and later an improved 2A46M-4 version of the 125 mm gun and 1G46M gunner's sight.



Recently, the Russians seem to be abandoning the T-80. Perhaps because of the turbine-powered tank's high fuel consumption, and the poor combat performance of older T-80BV tanks in Chechnya,[16] the Russian Army decided to standardize on the Uralvagonzavod factory's T-90 tank (derived from the T-72BM, but incorporating some T-80 technology), and have had some success selling it to the Indian Army. The Omsk Tank Plant in Siberia, facing a shortage of domestic orders, has sold a small number of T-80 tanks to Cyprus, South Korea, and China, and has demonstrated versions intended for export, including the T-80UM1 with active protection systems, and the advanced T-80UM2 Black Eagle concept tank. Although the T-80 production has stopped for the Russian Army, the Omsk plant still makes the tank for export.





Ukrainian T-80UD

In parallel with the T-80U, the Morozov Bureau in Ukraine developed a diesel-powered version, the T-80UD. It is powered by the 1,000-hp 6TD-1 6-cylinder multi-fuel two-stroke turbo-piston diesel engine, ensuring high fuel efficiency and a long cruising range. The engine support systems make it possible to operate the tank at ambient fuel temperatures of up to 55°C and to ford to a water depth of 1.8 m. The T-80UD shares most of the T-80U's improvements, but can be distinguished from it by a different engine deck, distinctive smoke-mortar array and turret stowage boxes, and retains the remotely-controlled commander's machine gun. About 500 T-80UD tanks were built in the Malyshev plant between 1987–91. About 300 were still at the Ukrainian factory when the Soviet Union broke up, so the T-80UD is more common in Ukrainian service than Russian.



A further improvement of the T-80UD is the Ukrainian T-84 main battle tank, including the new welded turret, 1,200-hp (895 kW) 6TD-2 engine, Kontakt-5 reactive armour, Shtora active protection system, thermal imaging sight, muzzle referencing system, and auxiliary power unit. The T-84U (1999) shows many refinements, including deeper sideskirts, modified reactive armour, a small reference radar antenna near the gunner's hatch (used to track rounds and compensate for barrel wear), and a large armoured box for the auxiliary power unit at the rear of the right fender. The T-84 Oplot (ten delivered in 2001) introduced turret-bustle ammunition storage, and the T-84-120 Yatagan has been offered for export, featuring a very large turret bustle and NATO-compatible 120 mm gun.





T-80 models

Main article: T-80 models

Main models of the T-80, built in the Soviet Union, Russia and Ukraine, with the dates they entered service.



Command tanks with additional radio equipment have K added to their designation for komandirskiy, ‘command’, for example, T-80BK is the command version of the T-80B. Versions with reactive armour have V added, for vzryvnoy, ‘explosive’, for example T-80BV. Less-expensive versions without missile capability have a figure 1 added, as T-80B1.



T-80 (1976) – Initial model, with 1,000-hp gas turbine engine, laser rangefinder, and no missile capability.

T-80B (1978) – This model had a new turret, fire-control, and autoloader allowing the firing of 9M112-1 Kobra antitank guided missile, and improved composite armour. An improved 1,100-hp engine was added in 1980, a new gun in 1982, and fittings for reactive armour in 1985.

T-80A (1982) – A move to standardization led to a single new larger and better-armoured turret being adopted for both this tank and the T-64BM, with improved fire-control.

T-80U (1985) – Further development with explosive reactive armour, gunsight, and 9K119 Refleks missile system. In 1990 a new 1,250-hp engine was installed.

T-80UD Beryoza (1987) – Ukrainian diesel version with 1,000-hp 6TD engine and remote-controlled antiaircraft machine gun.

T-84 (1999) – Further Ukrainian development of T-80UD with 1,200-hp diesel and new welded turret.

Black Eagle tank (prototype) – Several Russian prototypes shown at trade shows, with a longer chassis and extra pair of road wheels, and very large turret with separate ammunition compartment.



Service history



Soviet Union



Soviet T-80 MBT during maneuvers, 25 March 1986.

Two T-80UD MBTs on Red Square in Moscow during failed Coup d'état attempt, August 1991.The first T-80 MBTs started arriving in the tank units of the Soviet Union in the late 1970s. The first to receive them was the Group of Soviet Forces in Germany. T-80 and T-64 MBTs were to be the core of the assault groups of tank units. The fighting capabilities of these vehicles was evaluated during numerous war games and according to them if the war with NATO would start, the T-80 MBTs would reach the English Channel within 5–6 days (with the Soviet forces having the upper hand) or 2 weeks (with the NATO forces having the upper hand). Because of this they gained the nickname of "La Manche tanks" in Soviet Army. T-80 MBTs unintentionally publicly displayed their maneuverability when a battalion equipped with those tanks appeared on a highway leading to Berlin during military exercises. While there they were able to move with speed equal to that of tourist buses and Trabant cars. At the time they were classified as secret weapons. At the beginning of its service it was the most modern and effective tank in the world. The crews praised its high speed (for a tank) and ability to quickly reach battle readiness thanks to the turbine engine. This engine however had a serious flaw which was the fact that it overheated in high temperatures which is why the tanks were not sent to the hot southern regions of Soviet Union. Only the appearance of T-80UD with a diesel engine solved this problem. In 1985 there were 1,900 T-80 MBTs overall.[17] According to data publicized in Russia, 2,256 T-80 MBTs were stationed in East Germany between 1986 and 1987. NATO realized that new Soviet tanks could reach Atlantic within two weeks and because of that started to develop counter methods that could stop them. This led to sudden increase in development of anti-tank weapons including attack helicopters. In 1991 when the Soviet Union was breaking up the Soviet Army operated 4,839 different models of T-80.[18]



T-80 MBTs were never used in a way in which they were intended, large scale conventional war in Europe. It was used during political and economical changes in Russia in 1990s. In August 1991 communists and military commanders allied with them tried to overthrow Mikhail Gorbachev and regain control over the unstable Soviet Union. T-80UD tanks of the Russian 4th Guards Kantemirovskaya Tank Division drove onto the streets of Moscow but the Soviet coup attempt failed.[19][20]





Russia



T-80BV tanks on parade. The wide box on the turret roof in front of the commander's hatch is the Kobra antitank missile control.While a number of T-80 MBTs were inherited by Ukraine, Belarus and Kazakhstan, Russia still managed to save the majority of those tanks for itself. In during the 1993 Russian constitutional crisis Boris Yeltsin ordered the use of tanks against the Russian parliament which opposed him. On 4 October 1993 six T-80UD MBTs from 12th Guards Tank Regiment which is a part of 4th Kantemirowsk Guards Tank Division took positions on a bridge opposite the Russian parliament building. The building was hit 12 times, 10 by Frag-HE rounds and 2 by undercaliber AP rounds. It remains unknown whether the use of two AP rounds was a mistake made by the gunner/commander (T-80 uses an autoloader) or if he planned to use them as they could pierce through a dozen walls in order to further terrify the parliamentarians. This operation failed because soon the tanks were surrounded by a crowd of bystanders and everything started to look more like a picnic rather than a military operation. In 1995 the number of T-80 tanks increased to around 5,000 but was reduced in 1998 to 3,500. In July 1998, a T-80 drove into a square in front of the administration building of Novosmolensk and aimed its gun at the building. The tank was commanded by major Igor Bieljajew from Molinsk garrison, a part of the 22nd Army. He was motivated by several months of unpaid wages. At first the commander of the 22nd Army tried to negotiate with the major, but the negotiations failed and it was decided to tow away the major's tank using another T-80. This was prevented by the local population which allied itself with the major. As a result all of the 22nd Army's back pay was paid.[9] As of right now Russian Army has 3,044 T-80s and its variants in active service and 1,456 in reserve.[17][18][21] There are at least 460 T-80UD in service with 2nd Guards Tamanskaya Motor Rifle Division and 4th Guards Kantemirowsk Motor Rifle Division.[22] As of right now a T-80BV is on display in Kubinka Tank Museum and a T-80U is on display at an open air museum in Saratov.





Chechen wars

T-80B and T-80BV MBTs were used during the First Chechen War. This first real combat experience for T-80 MBTs was unsuccessful as they were used for capturing cities, a task for which they were not very well suited. The biggest losses were suffered during the ill-fated assault on the city of Grozny. The reasons for that included the fact that the forces selected to capture Grozny were not prepared for such an operation while the city was defended by, among others, veterans of Soviet War in Afghanistan. The T-80 tanks used in this operation either did not have reactive armour (T-80B), or it was not fitted before the start of the operation (T-80BV).



The inexperienced crews had no knowledge of the layout of the city while the AFVs that entered it were attacked by shoulder-launched anti-tank rocket propelled grenade launchers operated by the defenders hidden in cellars and on top of high buildings. The fire was directed at the least armoured points of the vehicles. The average of hits that each destroyed tank received ranged from three to six. Each tank was fired at by six or seven RPGs. A number of vehicles exploded when the autoloader with vertically placed rounds was hit: in theory it should be protected by the road wheel, but when the tank got hit on its side armour the ready-to-use ammunition exploded. Out of all AFVs that entered Grozny, 225 were destroyed in the first month alone, representing 10.23% of all the armoured vehicles committed to the campaign. [23] The T-80 performed so poorly that General-Lieutenant A. Galkin, the head of the Armor Directorate, convinced the Minister of defence after the conflict to never again procure tanks with gas-turbine engines.[24] After that T-80 MBTs were never again used to capture cities and instead supported infantry squads from a safe distance.[22]





Exported T-80s

While other kinds of Soviet Equipment, like T-72, were exported to many countries around the world, T-80, like T-64 before it, had a status of secret weapon which meant that it was not planned to be exported early on like the T-72 was.[25] Despite that Poland was negotiating with the Soviet Union about buying either T-72S or T-80 MBTs. There were also plans to start serial production of T-80 MBTs in Poland but it turned out that Polish industry wasn't yet ready to handle T-80 production. After the political changes of 1989 in Poland and the dissolution of the Soviet bloc, Polish-Soviet talks on purchase of modern tanks came to a halt. This led to Polish developing the PT-91 MBT.





United Kingdom

In 1992 United Kingdom bought a number of T-80U MBTs for purposes of defense research and development. They were not bought officially but through a specially created trading company which was supposed to deliver them to Morocco. The price of five million USD offered for each tank ensured the lack of suspicions from the Russians who realized the situation when the Moroccan Minister of Defense who was in Russia at that time in did not confirm the transaction. By then the tanks were already in British hands. Britain evaluated the tanks on their proving grounds and transferred one to the US where the Americans evaluated it on the Aberdeen Proving Ground. While evaluating the vehicle, The US and UK carefully noted any weak spots and flaws of the T-80U which assisted their agenda of preventing the Russians to successfully sell it to the countries of the Near East and the Middle East. Although the first public appearance of T-80U in Abu Dhabi in 1993 stirred some attention, no tanks were sold as a result of the British deception. In January 1994, British Secretary of State for Defence Jonathan Aitken confirmed in parliamentary debates that a Russian T-80U tank was imported for "defence research and development purposes".[26][25]





People's Republic of China

In late 1993 Russia signed a contract with PRC about purchase of 200 T-80U MBTs for evaluation. However for unknown reasons only 50 were delivered.[27][28][29]





Pakistan

Ukrainian exports of the T-80UD have been moderately successful. In 1993 and 1995 Ukraine demonstrated it to Pakistan which was looking for a new MBT. The tank was tested in Pakistan and in August 1996 Pakistan decided to buy 320 T-80UD tanks from Ukraine for $650 million in two variants: a standard Ob'yekt 478B and export Ob'yekt 478BE.[30][31][27][32] The tanks were all supposed to be delivered in 1997 however after the first batch of 15 vehicles were shipped in February 1997, Russia protested that they held the rights to the tank and that Ukraine couldn't export it.[30][27] Nearly 70% of T-80UD components were produced out side of Ukraine (mainly in Russia). Under the disguise of keeping good relations with India, one of its most important military customers, Russia withheld 2A46-2 125 mm smoothbore guns, cast turrets and other technology which forced Ukraine to make its tank industry independent.[32] It developed domestic components, including a welded turret which was in use on the new T-84. Ukraine was able to ship 20 more T-80UD tanks to Pakistan between February and May 1997.[27][30] These 35 tanks were from Ukrainian Army stocks of 52 T-80UDs; they were built in the Malyshev plant several years before but were not delivered to their original destination. Their capabilities were below the standard agreed by both Ukraine and Pakistan.[30] The contract was completed by shipping another 285 Ukrainian T-80UD MBTs between 1997 and early 2002. These had the welded turret and other manufacturing features of the T-84.[27][30]



Its been rumored that Pakistan has supplied some of its T-80UDs along with their crews to the Taliban forces fighting the legal government of Afghanistan. Pakistani government has denied taking part in such an action.[27]





Cyprus

Cyprus is the first foreign country to officially obtain T-80 tanks. Russia sold 27 T-80U and 14 T-80UK for $174 million to Cyprus in 1996. The tanks arrived in two batches. The first one consisting of 27 T-80U MBTs arrived in 1996 while the second one consisting of 14 T-80UK MBTs arrived in 1997. This significantly reinforced the army of this country the best tank of which up until then was AMX-30B2. New tanks also gave the Cypriot National Guard the edge in a possible confrontation with the Turkish Republic of Northern Cyprus. As of now Cypriot government is interested in buying Ukrainian T-84 MBTs as, in the eyes of Cyprus, the Russians have demanded too much money for their T-80 tanks.[27][33][34]





South Korea

South Korea was given 33 T-80U and 2 T-80UK tanks to pay Russian debts to South Korea incurred during the time of the USSR. The tanks came in three batches; the first was of 6 T-80Us in 1996, followed by 27 T-80Us in 1997, and finally 2 T-80UKs in 2005. Originally, 80 T-80Us were planned.[27][33]





United States

The US Government obtained one T-80U from United Kingdom. It was evaluated on Aberdeen Proving Ground.[25] In 2003 Ukraine transferred four T-80UD MBTs over to the US.[35]





Failed export attempts

Apart from Cyprus and the People's Republic of China,[27][36] Russia has also tried to export T-80 MBTs to Turkey and Greece, the armies of which were at the time looking for new tanks. These two attempts, however, have failed.[27]

Al-Khalid Tank



The Al-Khalid is a modern main battle tank developed and manufactured by Pakistan for the Pakistan Army. Operated by a crew of three and armed with a 125 mm smooth-bore tank gun that is reloaded automatically, Al-Khalid uses a modern fire-control system integrated with night-fighting equipment to accurately fire many types of anti-tank rounds as well as guided anti-tank missiles. Al-Khalid is named after the legendary Muslim general Khalid bin al-Walid.


An evolution of Chinese and Soviet tanks, the Al-Khalid is considerably smaller and lighter than most Western main battle tanks. The design is based on the Chinese Type 90-II, which combined technologies from several Soviet/western tanks and is ultimately a descendant of the widely-produced Soviet T-54. The Al-Khalid is unusual in that it is was designed to be adaptable for manufacture, so that it can be easily integrated with a variety of foreign engines and transmissions. The current production variant of Al-Khalid utilises a diesel engine supplied by the KMDB design bureau of Ukraine.

The first production models entered service with the Pakistan Army in 2001 and there are plans to induct approximately 600 in total.


Development

In the 1970s, the leadership of China's People's Liberation Army was concerned about the Soviet threat and requested an improved main battle tank (MBT) to replace the old, obsolete Type 59. The existing Chinese tanks were direct descendants of the Soviet T-54A and were out-classed by more advanced Soviet models like the T-62 and T-64. Norinco and the Inner Mongolia First Machine Group Corporation were tasked to develop a series of new tanks.
After examining samples of T-72 tanks delivered by Iran in the late 1980s (captured from the Iraqi Army), the Chinese military realized contemporary Chinese tanks were still vulnerable. Design features of the T-72 and some western tanks were used to develop a second generation of Chinese tanks, eventually incorporating a redesigned hull and suspension, a new welded turret and 125 mm autoloaded tank gun. The Type 80 and Type 85 tanks led to the Type 90. The Type 90 was rejected for Chinese service in favour of other designs, but it influenced further development which would lead to China's third-generation Type 98 and Type 99 tanks.
The Type 90 is an evolutionary design: the Type 90-II version shares 10% of its components with the Type 59, 15% with Type 69, 20% with Type 85/88C, and is built with 55% new components. This model was put up for sale on the international market.

A development deal was signed with Pakistan in January 1990. Initial Chinese-built prototypes were tested in Pakistan in August 1991. Pakistan spent more than US$20 million over the next ten years on the co-development of a model suitable for their needs and on creating a capability to manufacture it locally. Lt Gen Hamid Javed as Director General of Heavy Industries Taxila (HIT) and Brigadier (now Major General) Mohammad Asaad supervised the project. The design team modified the tank to accept a foreign-built power pack (engine). A number of different prototypes were evaluated.
An early version was armed with a Chinese gun and fire-control system, but had a German-designed MTU-396 diesel engine which was built under licence in China. Another version was equipped with a more advanced western digital fire-control system and powered by a Perkins 1,200 hp (890 kW) Condor diesel engine (as in the British Challenger) and SESM ESM500 automatic transmission (as in the French Leclerc). This version was considered too expensive and under-performing in the extreme heat of southern Pakistan. Finally, a version was tested with the compact Ukrainian 6TD-2 1,200 hp diesel engine (Ukraine also supplied Pakistan with T-80UD tanks, powered by a similar engine). This configuration was chosen for the production version of the tank and came to be known as Al-Khalid.

Yet another version—employing more western technology had been envisaged as an export product for Pakistan. The prototype had a 1,200 hp (890 kW) German MTU-871/TCM AVDS-1790 diesel engine and an LSG-3000 transmission. But this concept was abandoned due to the arms embargo imposed on Pakistan after the 1998 Pakistani nuclear tests.[4]

The final tank design resulting from a decade of co-operative development was designated Type 90-IIM. Chinese company Norinco showed the new Type 90-IIM during the March 2001 Abu Dhabi Defense Expo, under the export name MBT 2000. The version powered by the Ukrainian engine, intended for domestic production in Pakistan, was named Al-Khalid.

During the development period, Heavy Industries Taxila gained experience building the Chinese Type 85-IIAP and prepared to begin production of the Al-Khalid tank in 1999. A pilot batch of fifteen tanks was inducted into the 31st Cavalry Regiment of Pakistan’s Armoured Corps on 20 July 2001. Pakistan signed a contract with Ukraine's Malyshev Factory in May 2002 for the delivery of 315 KMDB 6TD-2 diesel engines over three years.[5] An additional batch of Al-Khalid tanks was delivered on 23 September 2004. Pakistan plans to build a total of 600 Al-Khalid MBTs for its armed forces.[6]

In 2006 a U.S.-based market/special research organisation reported findings showing that the Al-Khalid, along with two other MBTs, would account for nearly 45% of all new MBTs built until 2015.[7]

The Saudi Arabian Army began conducting trials of the Al-Khalid's desert performance in April 2006, after expressing interest in purchasing a batch of the tank 2 years earlier. No order for the tank was placed.[8][9]

During the first week of May 2008, Lt-Gen Fonseka of the Sri Lanka Army held talks with his Pakistan Army counter-parts regarding the sale of military equipment, weapons and ammunition. The sale of 22 Al-Khalid MBTs to the Sri Lanka Army was finalised during these talks in a deal worth over US$100 million.[10] However the current status of this purchase is unclear as Sri Lanka has subsequently cancelled some orders for military equipment. [11]





0 Design



0 Armament and fire control

Al-Khalid is designed with a 125 mm (length: 48 calibers) smoothbore, auto-frettaged and chrome-plated gun barrel which can fire APFSDS, HEAT-FS and HE-FS conventional ammunition and the Russian-designed 9M119 Refleks ATGM (AT-11 Sniper, produced in China under licence). Al-Khalid also fires a Pakistani DU round, the Naiza 125 mm DU round (armor penetration: 550 mm in RHA at 2 km).[12] Al-Khalid is equipped with a muzzle reference system and dual-axis stabilization system. Elevation and azimuth control is achieved by electro-hydraulic power drives. The automatic ammunition-handling system for the main gun has a 24-round ready-to-fire magazine and can load and fire at a rate of eight rounds per minute.[13]



The tank is also equipped with a 7.62 mm-coaxial machine gun, a 12.7 mm externally-mounted air-defence machine gun that can be aimed/fired from within the tank and smoke grenade launchers.



The gunner is provided with a dual magnification day sight and the commander with a panoramic sight for all-around independent surveillance. Both sights are dual-axis image stabilized and have independent laser range-finders. The commander has the ability to acquire a target independently while the gunner is engaging another one thus giving it true hunter-killer capability. The automatic target-tracking system is designed to work when tank and target are both moving. Night vision for the gunner and commander is achieved through a dual-magnification thermal imaging sight. Both sights are integrated with the fire-control system.[13] The production Al-Khalid tank has a fire-control system of western origin. In the MBT 2000, the Chinese Norinco fire-control system has inputs from ten sensors. The ballistic computation time is less than one second. The manufacturer claims routine first round hits on standard 8 ft (2.4 m) square targets at ranges over 2,000 meters.



Effective range: 200 m to 7,000 m

Sensor: laser ranging from 200 m to 9,990 m

French Auto-tracking, interfaced with gunner station, firing four types of munitions, gunner's thermal imaging sight, commander's image intensification night vision sight, gyro-stabilized and UPS power supply system.

Although prototypes were demonstrated with various fire-control systems of Chinese and western origin, it is believed that the production model Al-Khalid MBTs are equipped with a western fire-control system, along with Catherine FC Thermal Imaging sights from France. A modern Integrated Battlefield Management System (IBMS) developed by Integrated Defence Systems Pakistan (IDS Pakistan), including a data-link that facilitates secure communication of battlefield information between units, is also incorporated.





0 Mobility

The production model Al-Khalid is powered by a 6TD-2 liquid-cooled diesel engine, designed by the Kharkiv Morozov Design Bureau (KMDB) of Ukraine. The 6TD-2 is a supercharged 6-cylinder engine delivering 1,200 horsepower. The 2-stroke design, with the pistons arranged horizontally in an opposed piston configuration, makes the engine very compact and therefore more suitable for being fitted into relatively small vehicles such as the Al-Khalid MBT.[14]



The 6TD-2 engine drives a France-designed hydro-mechanical automatic transmission, the SESM ESM500, also fitted to the Leclerc MBT. Capable of manual and fully automatic power-shifting, the transmission has 5 forward and 2 reverse speeds along with a braking system that incorporates carbon friction brakes and a secondary speed-retarding system. Gear shifts are controlled by a torque converter which is made more efficient by addition of an automatic lock-up clutch. There is also a mechanical back-up system for use in emergencies, able to shift 2 gears forward and reverse.



The suspension consists of torsion bars, hydraulic dampers and buffers, who's role is to provide a stable firing platform while the tank is moving at speed over rough terrain and provide as smooth a ride as possible to reduce crew fatigue. The tracks are mounted on six dual wheels with rubber tyres, a drive sprocket at the rear and an idler at the front. They are protected by side skirts, the forward sections of which can be fitted with explosive reactive armour, and track wear is reduced by replaceable rubber track pads.[15]



The Al-Khalid is fairly lightweight by Western standards, weighing 46 tonnes compared to the 60 tonne M1 Abrams and Leopard 2.[16] A power-to-weight ratio of 26.66 hp/tonne gives acceleration from 0 to 32 km/h (0 to 20 mph) in 10 seconds and a maximum speed of 70 km/h, the speed and agility also helping to improve survivability.[17] [18]



A snorkel allows the tank to cross water obstacles up to 5 meters deep, after some preparation by the crew. Navigation is assisted by an inertial navigation system (INS) and a GPS satellite navigation system.





0 Protection

Al-Khalid has modular composite armour and explosive reactive armour, nuclear-biological-chemical defences, an effective thermal smoke generator, internal fire extinguisher and explosion-suppression system.



An advanced laser detection system from Al Technique Corporation (ATCOP) is also present, the ATCOP LTS 1 laser threat warning system developed by Institute of Industrial Control Systems.[19] The LTS 1 laser threat warner consists of two key elements, the mast-mounted sensor and the operator's control box complete with 360° display.



According to ATCOP, the LTS 1 laser threat warner can detect not only laser rangefinders but also laser target designators. It responds to all current laser sources in the field environment and if required can also be coupled with acoustic alarms as well as smoke generators and other countermeasure systems. The LTS 1 laser threat warner can detect laser devices operating in the 0.8 to 1.06 µm waveband and has a 360° field of view azimuth (resolution of 15°) with a field of view in elevation of -15 to +90°. Operating voltage is 12 V or 24 V DC nominal with power consumption being 8 W nominal. The sensor head is 165 mm in diameter and 35 mm high while the control box is 80 x 130 x 55 mm in size.





Variants

Prototypes

P1 -- Prototype incorporating a Chinese 125 mm gun, autoloader and fire-control system, German MTU-396 diesel engine and Renk LSG-3000 automatic transmission.

P2 -- Prototype incorporating a Chinese 125 mm gun and autoloader, Western fire-control system, Perkins 1200 hp Condor diesel engine and French SESM ESM500 automatic transmission.

P3 -- Prototype fitted with Chinese 125 mm gun and autoloader, Western fire-control system, Ukrainian KMDB 6TD-2 1200 hp diesel engine and French SESM ESM500 automatic transmission.

P4 -- Prototype export variant incorporating German NATO standard 120 mm gun, Western fire-control system, German MTU-871/TCM AVDS-1790 diesel engine and Renk LSG-3000 automatic transmission.

Production variants

Al-Khalid -- Production variant now in service, based on P3.

Al-Khalid I -- Upgraded variant in testing as of April 2009. Incorporates modifications made to the fire-control system, sensors, IBMS, side-skirts, track pads, auto-loader (rate of fire increased to 9 rounds per minute), Ukrainian Varta electro-optical jammer (disrupts laser rangefinders, laser designators and anti-tank guided missile tracking systems), Sagem third-generation thermal imagers and improved air conditioning system.[2] [20]

Al-Khalid II -- In early stages of development and believed to incorporate re-designed turret, upgraded modular armour package and sensors, improved ammunition and new powerpack developing 1,500 hp.[20]