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M-84AS
M-84AS
M-84AS
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The M-84AS prototype main battle tank is a modernized version of the M-84. M-84AS, sometimes referred to as M-84AB1 and M-2001, failed to advance to serial production.

Key Information

Design

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The modernization gives an improved fire-control system with integrated day/night sight.[1] The M84A1 gun is replaced with a similar but improved gun which, along with better control characteristics, enables easy and fast field replacement of the barrel. The M-84AS tank is able to fire 9M119M Refleks anti-tank guided missiles with laser guidance through the barrel, which enables accurate engagement of enemy tanks up to 5 km.[2]

The M-84AS is equipped with imported Shtora-1 and Kontakt-5 that both enhance survivability of a tank. Kontakt-5 is an explosive reactive armor package (ERA) which offers improved protection against modern tandem charge warheads and kinetic energy penetrators compared to the earlier Kontakt-1.[3] It is also equipped with the modern Shtora electro-optical system for defense against wire and laser guided anti-tank missiles.[4] The new turret will provide protection against Kinetic Energy (RHAe) anti-tank guided missiles. Its new 9M119 Refleks is a laser beam riding guided anti-tank missile designed to penetrate 900 mm of RHA. Since this version has not entered serial production for Serbian army new more modern version M-84AS1[5] is developed that will enter serial production.

Apart from external differences to the M-84, it also has different internal structure and equipment, far surpassing the M-84AB in both capability and durability. Developed originally from the M-84, the M-84AS is more than just a quick tweak to bring it up to standard. Many improvements were adopted from what can be argued to be its sister tank, the T-90S. With slight differences in armour and maneuverability; the T-90S is better armored while the M-84AS is faster and more maneuverable. Considering the speed perspective, the M-84AS moves at 75 km/h on road while the T-90S moves at 60 km/h on road with off-road speeds varying according to terrain. The armor on the T-90S is somewhat superior with thicker composites, NBC protection as well as having the option of Active Protection System and KMT mine sweeping systems.[6][7] Aside from the propulsion and armor, the targeting system is equivalent.

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References

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M-84AS

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The M-84AS is a modernized developed by Serbia's as an upgrade to the , a Yugoslav-licensed variant of the Soviet-designed produced since the . It incorporates advanced firepower, enhanced armor protection, and improved mobility to enable effective operations in contemporary environments. The tank maintains a three-person and emphasizes reliability, cross-country performance, and integration with modern systems. Development of the began in the early as part of Serbia's efforts to extend the service life of its aging fleet, with the first publicly showcased in 2004. Building on the original 's design, which was manufactured under in the former from 1984 onward, the M-84AS introduces significant subsystems upgrades, including a more powerful engine and refined fire control mechanisms. Although initially proposed for serial production, only a was built, and it has primarily served as a platform for further iterations like the M-84AS1 and M-84AS3 (unveiled in 2025), influencing Serbia's ongoing tank modernization programs. Key features of the M-84AS include a 125mm 2A46M capable of firing APFSDS rounds up to 2,100 meters, HEAT-FS projectiles to 4,000 meters, and guided anti-tank missiles via the system, supplemented by a 7.62mm and a 12.7mm remote-controlled . Protection is bolstered by (NERA), Kontakt-5 explosive reactive armor (ERA), and the electro-optical , alongside NBC filtration and automatic fire suppression. Mobility is provided by a V-46TK delivering 1,200 horsepower, achieving a top speed of 75 km/h on roads and an operational range of 700 km, with capabilities for 5-meter water fording and 2.8-meter trench crossing. Overall specifications encompass a combat weight of 45,000 kg, dimensions of 9.53 meters in length, 3.73 meters in width, and 2.23 meters in height, making it a versatile third-generation suited for diverse terrains.

Development

Origins and Background

The originated as a Yugoslav-licensed variant of the Soviet , developed in the late 1970s to bolster the Yugoslav People's Army's armored capabilities amid tensions. In the late 1970s, the granted Yugoslavia a license to produce the tank, leading to the local designation after initial modifications and testing. Serial production commenced in 1983 at the Đuro Đaković factory in , with the tank entering service in 1984 and incorporating Yugoslav-specific enhancements to the base design. The dissolution of Yugoslavia in the early severely disrupted M-84 production and maintenance, as the halted assembly lines. imposed on the Federal Republic of Yugoslavia (comprising ) from 1992 onward further restricted access to critical components and export markets, exacerbating economic isolation and complicating the sustainment of the emerging Serbian tank fleet—primarily composed of early M-84 models—amid ongoing post-breakup hostilities. By the late , these challenges had contributed to broader industrial decline, compounding the difficulties of maintaining an obsolete armored inventory. In the early 2000s, the Serbian Armed Forces identified the need to modernize their M-84 fleet to address vulnerabilities exposed by regional instability, including lingering tensions from the Yugoslav wars and the proliferation of advanced anti-tank threats among neighboring states. This drove requirements for improvements in firepower, protection, and electronics to restore operational effectiveness against potential adversaries in the Balkans. The initial upgrade proposal emerged in 2001 under the M-2001 project, spearheaded by Serbia's Military Technical Institute and Yugoimport-SDPR, focusing on comprehensive enhancements to extend the tank's service life. By 2004, the program had evolved into the M-84AS (also designated M-84AB1), with a prototype unveiled that year incorporating these priorities while building on the core T-72 heritage.

Prototype Development

The prototype development of the M-84AS commenced in the early 2000s under the leadership of , in collaboration with the Đuro Đaković factory, which handled assembly and integration of advanced foreign and domestic components to address limitations in the aging fleet. The project transformed an existing A into a vehicle over a two-year period, culminating in completion during the summer of 2004 at an estimated cost of US$1 million per unit. The prototype made its public debut on June 1, 2004, at the PARTNER 2004 military exhibition in , timed to coincide with Yugoimport SDPR's 55th anniversary. This unveiling emphasized initial upgrades, including an enhanced , and aimed to attract export interest, particularly from . The event marked a significant in Serbia's post-Yugoslav defense industry efforts to modernize its armored forces independently. Subsequent phases included field testing of the prototype in later that year, which demonstrated the integration's viability but failed to secure contracts due to the buyer's shift toward diversified and lingering concerns over past Yugoslav supply reliability. Domestically, the performed evaluations through 2005, including dynamic trials and operational assessments, yet the program stalled short of serial production owing to prohibitive costs, insufficient national funding amid economic constraints, and lingering international arms restrictions that limited component sourcing and sales potential. Only a single prototype was ultimately built, paving the way for later iterations like the M-84AS1 unveiled in 2020 and the M-84AS3 in 2025.

Design Features

Armament and Fire Control

The M-84AS retains the 125 mm 2A46M gun as its primary armament, a design derived from the Soviet-era D-81 series but upgraded for enhanced reliability and performance in modern combat scenarios. This gun is paired with an automatic loader, which supports a of up to eight rounds per minute and accommodates a variety of types, including armor-piercing fin-stabilized discarding sabot (APFSDS) rounds for penetrating heavily armored targets, (HEAT) rounds for versatile anti-armor engagements, and anti-tank guided missiles (ATGMs) such as the 9M119M Refleks, enabling beyond-line-of-sight strikes with beam-riding guidance up to 5 km. The integration of the 9K120 Svir missile system allows the tank to engage low-flying helicopters and stationary armored vehicles effectively while stationary or in motion. Secondary armament on the M-84AS includes a 7.62 mm PKT coaxial mounted alongside the main gun for against and light vehicles, with a typical load of 2,000 rounds. Complementing this is a 12.7 mm NSV installed on a remote-controlled station atop the turret, operable by the commander via joystick controls and providing elevated anti- and limited anti-aircraft defense without exposing the crew. This configuration enhances the tank's close-range lethality in operations, where rapid engagement of soft targets is essential. The represents a significant in the M-84AS, featuring the DNNS-2 integrated sights for the gunner, which combine thermal imaging for night and adverse weather operations, a for precise distance measurement, and an onboard ballistic computer that accounts for environmental factors like wind and temperature to compute firing solutions in real time. This system supports hunter-killer capabilities, allowing the commander to independently search for targets using a panoramic sight while the gunner engages, with effective engagement ranges extending to 5 km during day or night conditions. The fully stabilized turret ensures accurate fire on the move at speeds up to 30 km/h over rough terrain. Ammunition management in the M-84AS is optimized for sustained , with 22 rounds stored in the carousel-type for immediate use and an additional 20 rounds in secure hull storage, yielding a total capacity of 42 projectiles compatible with the main gun. This arrangement, inherited from lineage but refined for quicker reload cycles and reduced crew exposure, balances readiness with safety, as the isolates propellant charges from the crew compartment. Enhanced gyroscopic stabilization further improves first-round hit probability during dynamic maneuvers, contributing to the tank's overall effectiveness.

Protection and Armor

The M-84AS incorporates upgraded composite armor on the hull and turret, utilizing high-hardness steel combined with and aluminum layers to enhance resistance against penetrators. The front hull features (NERA) modules, consisting of layered metal plates that deform upon impact to disrupt and deflect incoming threats, including shaped charges. These add-on armor packages provide balanced protection against both kinetic and chemical energy munitions, building on the base M-84's design while maintaining operational compatibility. For reactive defense, the M-84AS introduces Kontakt-5 explosive reactive armor (ERA), a third-generation system applied to the front and sides of the hull and turret. This modular ERA disrupts tandem-warhead anti-tank guided missiles and high-explosive anti-tank rounds by detonating outward to interrupt the penetrator's formation, offering significant improvement over earlier Yugoslav variants. The tank is equipped with the Shtora-1 electro-optical active protection system for defense against wire- and laser-guided missiles. The vehicle's NBC protection has been improved with an overpressure system that maintains positive internal pressure to prevent ingress of nuclear, biological, or chemical agents, complemented by enhanced sealing of the crew compartment for better isolation during operations in contaminated zones. These defensive enhancements, including the and composite upgrades, contribute to a weight increase to 45 tons, prioritizing survivability without compromising core mobility.

Mobility and Engine

The M-84AS features an upgraded V-46TK multi-fuel , a turbocharged derivative of the V-46-6 powerplant used in the baseline , delivering 1,200 horsepower for enhanced propulsion while incorporating improvements in cooling efficiency and overall reliability to support extended operations in varied climates. This engine maintains the 12-cylinder, water-cooled configuration but benefits from refined and exhaust systems, reducing maintenance intervals compared to earlier models. The retains a mechanical transmission with a seven-speed epicyclic gearbox (7 forward, 1 reverse), providing robust distribution across forward and reverse gears, augmented by hydromechanical controls for smoother gear shifts and better adaptability to terrain changes. Upgraded tracks, often sourced from Western suppliers like , incorporate rubber padding to minimize noise signature and lower ground pressure to approximately 0.81 kg/cm², enabling reduced and improved stealth during movement. These modifications contribute to key performance metrics, including a maximum road speed of 72 km/h and an operational range of up to 700 km with internal fuel, while cross-country mobility is bolstered by the ability to ford water obstacles up to 1.2 m deep without preparation (5 m with snorkel kit) and cross trenches measuring 2.8 m wide. The suspension system employs torsion bars with integrated hydraulic dampers on the first, second, and sixth road wheels, enhancing ride quality and stability over rough terrain by absorbing shocks and maintaining crew comfort during high-speed maneuvers. Despite an increased overall weight of around 45 tonnes from armor enhancements, the remains competitive at approximately 26.7 hp/tonne, supporting agile battlefield positioning.

Testing and Evaluation

Performance Trials

The M-84AS prototype underwent field trials in from 2004 to 2006, encompassing live-fire exercises and mobility tests conducted at various military ranges to assess its operational capabilities under simulated combat conditions. These trials demonstrated notable improvements in the tank's (FCS), highlighting the effectiveness of the upgraded sighting and stabilization systems. Additionally, the explosive reactive armor () configuration was assessed for protection against RPG threats. However, the testing phase revealed several challenges, including elevated requirements stemming from the hybrid use of Western and Soviet-era components, which complicated and reliability. Development efforts did not proceed to serial production for the M-84AS due to budget constraints amid post-conflict economic recovery.

Comparative Analysis

The M-84AS offers notable enhancements over its predecessor, the base M-84 tank, primarily in defensive capabilities and targeting systems. Protection is improved through the integration of non-explosive reactive armor (NERA) alongside Kontakt-5 explosive reactive armor (ERA), providing superior resistance to shaped-charge and kinetic penetrators compared to the M-84's standard multilayer composite armor with optional ERA on later variants. The fire control system (FCS) features upgraded components, including a thermal imager, laser rangefinder, and the Shtora-1 electro-optical jammer, enabling faster target acquisition and engagement at ranges up to 5 km under low-visibility conditions, a step up from the M-84's basic computerized FCS with night vision. Mobility remains broadly comparable, with the M-84AS's 1,200 hp V-46TK engine delivering a top speed of 75 km/h and operational range of up to 700 km, marginally better than the M-84's 1,000 hp V-46 engine yielding 65 km/h and 500-700 km, though both share similar torsion-bar suspension for rugged terrain. In comparison to the Russian T-90A, the M-84AS demonstrates parity in key FCS elements, such as the shared 125 mm 2A46M gun, automatic loader, and countermeasures, alongside a remote-controlled 12.7 mm for safety. However, it lags in optical sophistication, with the T-90A's Falcon Eye panoramic sight offering superior day/night detection up to 5 km and integrated active protection elements not standard on the M-84AS. The M-84AS counters with advantages in affordability and potential for domestic production through Serbia's Yugoimport-SDPR, reducing reliance on foreign supply chains unlike the T-90A's export constraints. Its 1,200 hp powerplant also provides better acceleration and a higher top speed of 75 km/h versus the T-90A's 60 km/h, enhancing tactical maneuverability in varied environments. Against the T-72B3, another modernized T-72 derivative, the M-84AS holds edges in sensor integration and armor distribution. Its thermal imaging and commander’s panoramic sight provide more comprehensive than the T-72B3's Sosna-U multichannel system, while coverage extends to additional hull and turret areas beyond the T-72B3's appliqué plates. The M-84AS's 1,200 hp engine outperforms the T-72B3's 840 hp V-84-1, achieving comparable 70-72 km/h speeds but with superior for hilly or obstructed Balkan landscapes. Nonetheless, the T-72B3 benefits from extensive operational deployment in Russian forces, offering proven reliability in large-scale conflicts that the less field-tested M-84AS lacks. Overall, the M-84AS excels in defensive roles within regional terrains like the , leveraging its enhanced protection and mobility for and holdout tactics, as demonstrated in limited trials. Its status, with no serial production of the base M-84AS as of November 2025, restricts broader effectiveness, though derivative variants such as the M-84AS2 (26 units in service, serial production since 2024) and M-84AS3 (debuted September 2025) continue evaluations and modernization.

References

  1. https://www.armyrecognition.com/military-products/army/main-battle-tanks/main-battle-tanks/m-84as-mbt-main-battle-tank-technical-data
  2. https://www.army-technology.com/projects/m-84ab1-main-battle-tank-mbt/
  3. https://www.militaryfactory.com/armor/detail.php?armor_id=629
  4. https://armyrecognition.com/news/army-news/2025/serbia-debuts-new-m-84as3-tank-to-counter-modern-anti-tank-weapons
  5. https://www.globalsecurity.org/military/world/serbia/industry-yu.htm
  6. https://duro-dakovic.com/en/history/
  7. https://armyrecognition.com/military-products/army/main-battle-tanks/main-battle-tanks/m-84-main-battle-tank-technical-data-fact-sheet
  8. https://odihpn.org/en/publication/sanctions-and-the-federal-republic-of-yugoslavia-assessing-impacts-and-drawing-lessons/
  9. https://www.globalsecurity.org/military/world/serbia/m-84.htm
  10. https://combatoperators.com/vehicles/land/mbt/m-84/
  11. https://tanks-encyclopedia.com/modern/serbia/m84ab1/
  12. https://www.janes.com/osint-insights/defence-news/serbia-unveils-modernised-m-84-as1-mbt
  13. https://tanks-encyclopedia.com/coldwar/yugoslavia/m-84/
  14. https://www.yugoimport.com/sites/default/files/documents/2022-09/M-84AS%20main%20battle%20tank%20eng..pdf
  15. https://www.armyrecognition.com/military-products/army/main-battle-tanks/main-battle-tanks/m-84-main-battle-tank-technical-data-fact-sheet
  16. https://armyrecognition.com/military-products/army/main-battle-tanks/main-battle-tanks/m-84as-mbt-main-battle-tank-technical-data
  17. http://tanknutdave.com/the-yugoslavian-former-m-84-series/
  18. https://aminoapps.com/c/military-amino/page/item/m-84as/N43p_0Y5CWIZEnNk8kJ3vmaXRZMW2eNBQw
  19. https://military-history.fandom.com/wiki/M-84AS
  20. https://www.armyrecognition.com/military-products/army/main-battle-tanks/main-battle-tanks/t-90a-t-90m-main-battle-tank-technical-data-sheet-specifications-pictures-video
  21. https://www.armyrecognition.com/defense-industry/east-europe/serbia/yugoimport-company-profile-uk
  22. https://www.armyrecognition.com/military-products/army/main-battle-tanks/main-battle-tanks/t-72b3-russia-uk
  23. https://www.armyrecognition.com/archives/archives-land-defense/2020/serbian-upgraded-m-84-as1-tank-prototype-to-inspire-designers
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