MBT-80

The FV4601 MBT-80 was a British experimental third-generation main battle tank, designed in the late 1970s to replace the Chieftain tank. It was eventually cancelled in favour of the Challenger 1, itself an evolution of the Chieftain design.

History

By the early 1970s, there was a great disparity in the number of tanks being fielded by NATO and the Warsaw Pact in Europe. The US Army fielded the M60 which had been designed to deal with the 100 mm gun of the T-55, but could not withstand the 115 mm gun being fielded on the T-62, let alone the newer 125 mm model of the T-64 and T-72.
The same-era West German design, the Leopard 1, was very lightly armoured based on the conclusion that heavy armour had little purpose in an era of high-explosive anti-tank weapons of rapidly improving performance. The concept was to give the tank high manoeuvrability to allow it to outmanoeuvre the slower-moving Soviet tanks and early generation missiles that were difficult to use against moving targets. This decision proved unwise as the number of Soviet tanks grew and the idea of outmanoeuvring their massed numbers seemed unworkable, while second-generation missiles made aiming at moving targets easy.
In 1963 the United States and West Germany started a joint project to develop a new tank to be used by both forces, the MBT-70. This combined the manoeuvrability of the Leopard with improved armour that would offer better protection against HEAT rounds while adding a new missile-firing gun able to engage Soviet tanks at very long range. By the late 1960s, the MBT-70 project had repeatedly overrun its development budget and the US Congress eventually cancelled it.
By this point, the only western tank able to go head-to-head with the latest Soviet types was the British Army's Chieftain, introduced to service in 1967. The Chieftain had heavy armour designed specifically to defeat the 115 mm, and mounted a 120 mm gun, among the most powerful in the world, able to defeat even the latest Soviet armour. In response to the Soviet introduction of the 125 mm gun in the T-64, T-72 and T-80, the British Army kept the Chieftain competitive by having the "Stillbrew armour" package fitted starting in 1986. However, the Chieftain had a number of problems due to its rather poor engine and outdated suspension, both of which conspired to make cross-country performance rather limited.
The Germans were still looking for a tank to replace their now outdated Leopards, as well as the many M48 Patton tanks they still had in service. The UK was looking for a more manoeuvrable design. A new joint program was formed between the UK and West Germany to develop a Future Main Battle Tank. This was expected to replace the Chieftain tanks starting in the 1980s, as well as the older West German tanks. In 1977, Frederick Mulley, then Secretary of State for Defence, announced that, while both countries had agreed on the specifications of the joint tank, the replacement timetables diverged to such a degree that collaboration was not practicable at that time.
The cancellation of the MBT-70 had led the US to begin the development of its own design, the XM1. Prototypes arrived in 1976 with production slated for the late 1970s. Using the UK's new Chobham armour, it was emerging as a potent design. When carefully examined by the British Army, a number of issues became apparent. Notable was the 105 mm gun, which did not have the power to defeat the latest Soviet designs at long range, the preferred action for British tankers. Moreover, the armour package had been designed to defeat either the 115 mm firing armour-piercing fin-stabilized discarding sabot or 125 mm firing high-explosive anti-tank rounds, but could not stop the 125 mm firing APFSDS at reasonable range.
Despite this, the desire to replace the Chieftain with a more mobile design remained, and there was some consideration given to importing XM1 hulls and turrets and then fitting them out with British-made components such as engine, transmission, and the 120 mm gun from the Chieftain on a domestic production line to produce a new tank. Reports on the XM1 were not favourable though.
Ultimately the UK instead officially began development of the MBT-80 in September 1978.
This new project would build on work already carried out by the Military Vehicles and Engineering Establishment as far back as 1968, when they had produced a tank prototype with an external turret. This was followed in 1978 by another tank prototype fitted with Chobham armour. This later prototype was based on the Chieftain design, and had the designation FV4211.

Design

The MBT-80 was designed to counter all current and future armoured threats from the Eastern Bloc, combining a rifled gun, advanced composite armour and increased mobility onto one platform. Other design features included the use of a David Brown Gear Industries TN-38 transmission, a Sperry/Vickers stabilised panoramic sight for use by the tank commander, and an advanced vetronics suite incorporating Ferranti F100-L microprocessors. The MBT-80 would have also been the first operational British tank to have a crew compartment with a full environmental system; i.e. able to provide both heating, ventilation, and air conditioning for the crew.

Armament

The main armament of the MBT-80 was to be a 120 mm rifled gun, the EXP-28M1, similar in some respects to the main guns found on the Chieftain and later the Challenger 1 and Challenger 2 main battle tanks, but a new design of its own. It was an advanced development of the Royal Ordnance L11A5 tank gun, designed by the Royal Armament Research and Development Establishment, with a split-block breach mechanism. It was one of the first tank guns to use an Electro Slag Refined Steel barrel. This new barrel was intended to greatly increase the fatigue life of British 120mm tank guns. The technology had been cleared for use by new tank gun designs in 1976.
The fire-control system would access and process relevant target, environment, and gun status data from various internal and external sensors including laser rangefinders and thermal imagers, to help the main gun hit targets accurately and consistently under more adverse conditions: "First shot, first kill". Major components of the FCS included the Fire Control Computer which was the 'brains' of the FCS, the Gun Control Equipment, and the STAMPLAR sight, all of which were connected together by a fully digital databus. The FCS was also designed with built-in self-test diagnostics. The commander and gunner had duplicate turret/main gun controls, so either of them could aim and fire the main gun. Ammunition for the EXP-28M1 would have included armour-piercing fin-stabilized discarding sabot, high-explosive anti-tank, high-explosive squash head, and smoke-white phosphorus rounds.
Secondary armament would have included a 7.62 mm L37A1 General Purpose Machine Gun mounted on the commander's cupola, which could be aimed and fired from within the tank. L2A1 "ball" and L5A1 tracer rounds would have been among the ammunition available for this weapon.

Protection

The MBT-80 was going to be protected mainly by the recently developed Chobham armour first fielded on the American M1 Abrams. The armour would have provided greater resistance against high explosive anti-tank rounds and kinetic energy penetrators. Thanks to the use of Chobham armour, it was anticipated that much greater use could be made of high grade aluminium alloy in the construction of the hull than in prior tank designs, helping to keep down the overall weight of the tank and therefore improve mobility and associated logistics, not to mention transportation of the tank to where it would be needed. The tank would also have had among other protection features a full active NBC defences, something that was becoming more common on military vehicles being designed and/or introduced in the late 1970s and early 1980s. This included both advanced NBC sensors and radiation/electromagnetic interference shielding to help protect the crew and vehicle systems. An extensive electronic warfare system including a dedicated electronic counter-countermeasure ability was also to be included. This system would have incorporated various countermeasures against such threats as a rocket-propelled grenade or anti-tank guided missile, 1st through 3rd generation.
As a thermal signature management measure, the exhaust gases from the Rolls-Royce CV12 TCA Condor engine would have been mixed with cooling air before being discharged outside the tank. This feature was also used on the Vickers Valiant MBT.
Mounted on the sides of the turret would have been two L8A1 six-barrelled 66 mm smoke grenade dischargers, the same British system was used as the M250 grenade launchers found on early models of the M1 Abrams.

Mobility

The MBT-80 was to have a longer range, more mobility, and greater speed than prior tanks. Two options were considered; the Honeywell AGT1500 gas turbine engine used by the United States's prototype XM1 Abrams tank, producing 1,500 hp, and a modified, turbocharged version of the Rolls-Royce CV12 diesel engine, also producing 1,500 hp. The CV12 was eventually picked, mainly because the AGT1500 would need substantial modification of the tank to suit the transmission that came with the engine, which had been specially designed for the XM1. The higher fuel use of the gas turbine engine was also a factor in choosing the diesel engine. The CV12 was expected to be produced at Rolls-Royce's Shrewsbury plant.

Sensors

Known sensors included:

Sperry/Vickers stabilised sight for tank commander – Daytime sight only with ×1–10 magnification.
PANTILI – 360 degree rotating thermal imager fitted with a laser rangefinder. Accessible to both commander & gunner. Similar in concept to the hunter-killer sight found on the later Challenger 2 tank.
Two axis stabilised monocular gunners sight incorporating a laser rangefinder and muzzle reference system, magnification ×2–3 and ×10. Backup telescope with ×8 magnification also provided.
Driver's thermal imager – possibly the Barr & Stroud IR18 TVFS but this is unconfirmed. The IR18 was later used as part of the Challenger 1's TOGS system.
STAMPLAR – Part of the fire control system. Directly tied into the Fire Control Computer via a digital databus.
Roof-mounted infra-red detector – Part of the NBC defence suite, it could detect airborne chemical weapon agents and radioactive nuclear fallout. Later available as an option on the Chieftain 900 tank.