General developments influencing Soviet tank design Imperial Russia had flirted with some designs such as the
Tsar Tank which was scrapped, and the
Vezdekhod () which did not progress further than a pre-production model due to problems in the design. The final tank designs in World War I showed a number of trends such as in the US and British produced
Mark VIII tank for heavy tanks. However, the French
Renault FT set the pattern for almost all tanks that followed it; these tanks generally had lower track profiles and more compact hulls, and mounted their weapons in turrets. Following the Great War, Britain continued its technical dominance of tank design, and British designs, particularly those from
Vickers-Armstrong, formed the basis for many Soviet tank designs of the 1930s, including the
T-26 and BT series. Designs such as the
Vickers Medium Mk II brought to the forefront the fully rotating turret on top and dual-use 3-pounder gun (that could fire both high-explosive and anti-tank shells), while the
Vickers Carden-Lloyd machine gun carriers influenced the
tankette concept such as the Soviet
T-27. Another notable design that influenced the Soviets was the
Vickers A1E1 Independent, a large multi-turreted heavy tank built in 1925. Its design influenced the Soviet
T-35 heavy tank. The
Spanish Civil War showed that tank-versus-tank engagements and tank-versus-towed antitank gun engagements would now be a major consideration. It became clear that future tanks would need to be heavily armoured and carry larger guns. The Soviet Union's efforts in tank design and production must be understood in the context of the experience of the Russian Civil War and the growth of Soviet industry. During the civil war, the use of armoured trains and artillery trains was common. This tended to lead to a greater interest in tanks and armoured cars compared to some western nations. The rapid growth of heavy industry in the USSR under the Five-Year plans made a large tank fleet possible. The Soviets also spent tens of millions of dollars on U.S. equipment and technology to modernise dozens of automotive and tractor factories, which would later produce tanks and armoured vehicles.
Joseph Stalin's enthusiasm for
industrialisation and
mechanisation drove an aggressive military development program, resulting in by far the largest and broadest tank inventory of all nations by the late 1930s. In the U.S.,
J. Walter Christie had developed a series of fast tanks, based on his revolutionary
Christie suspension system. This was combined with very high power-to-weight ratios achieved by fitting large aircraft engines in his tanks. Some of his prototypes were purchased by the Soviet Union, and were to be developed into the
BT tanks and eventually, on the eve of World War II, the famous
T-34. The BT series in turn influenced the British
cruiser tank designs such as the
A-13 Cruiser Mk IV,
Crusader, and others. The French pioneered manufacturing methods in the use of very large castings to form
gun mantlets, turrets and eventually, entire tank hulls. The widespread use of casting turrets was copied by the USSR, and led the way in rationalizing designs for fast production, eliminating unnecessary components or manufacturing steps that added little value, which later was to be incorporated in the mass production of their tanks such as the T-34.
Russian Civil War . In
Soviet Russia, the so-called armoured forces (броневые силы) preceded the Tank Corps. They consisted of the mechanized armoured units (автобронеотряды) made of
armored vehicles and
armored trains. The country did not have its own tanks at the time, but their forces did come across the
Mark V tanks. A number of the Mark V tanks saw service in the
Allied intervention in the Russian Civil War on the White Russian side. Most were subsequently captured and used by the Red Army during the war. Three were reactivated in 1941 for use in the
Battle of Stalingrad. In January 1918, the Red Army established the Soviet of Armored Units (Совет броневых частей, or Центробронь), later renamed to Central Armored Directorate and then once again to Chief Armored Directorate (Главное броневое управление). During the war, the Nizhny Novgorod Machine Factory built
armored trains, armoured carriages, and weapons for the vessels of the
Volga Military Flotilla. In 1920, the factory remanufactured fourteen burnt-out French
Renault FT tanks for the
Red Army, the
Russkiy Renos, and assembled a single new copy, named 'Freedom Fighter Lenin'.
Interwar period forces, 1919 Initially, the tanks and armoured cars in Soviet hands were a mix of captured Renault FTs and a few British tanks and British-built
Austins left behind in the civil war. The first conventional Soviet tank, the
T-18 (sometimes called MS-1), was a fairly close copy of the French
Renault FT, but with improved suspension and a larger turret. In 1926, under a secret annex to the
Treaty of Rapallo, the Soviet Union and Germany set up a joint tank school at
Kazan in the west of the
Urals, which was illegal under the
Treaty of Versailles. Both countries learned much about tank design and tactics in this co-operative venture. The Germans provided advice on mechanisation of Soviet heavy industry, and helped develop a sense of professionalism in the
Red Army. In 1928, the Soviet Union began the production of the
MS-1 tanks (Малый Сопровождения -1, where
M stands for "small" and
S for "convoy"). In 1929, it established the Central Directorate for Mechanization and Motorization of the Workers’ and Peasants’ Red Army. Tanks became a part of the
mechanized corps at this point. From 1929, an experimental Mechanised Brigade was formed, training and developing combined-arms tactics with foreign tanks, armoured cars, tractors, and lorries. A tank design bureau was established at the
Kharkov Locomotive Factory (KhPZ) in
Kharkiv, Soviet Ukraine, in 1928. The first tank project of the factory was the T-12 (or T-1-12). This was a larger version of the
T-18, with a more powerful engine. It seemed to have been done in parallel to the
T-19 light tank which was also based on the FT. The project was re-designated T-24, work was completed fixing problems with the transmission and fuel system, and a larger turret was designed. Initial trials were conducted, during which performance was found satisfactory, although the prototype's engine caught fire, and the turret had to be transferred to a T-12 prototype for further testing. Only a total of twenty-four were built during 1931. The T-24s were originally armed only with machine guns, until the 45 mm guns were installed in the following year. The T-24 was found unreliable, and was used only for training and parades. Although the T-24 tank was a failure, it gave the KhPZ its initial tank design and production experience, which was applied much more successfully in adopting production of modified U.S. Christie tanks as the
BT tank series, starting in 1931. Based on a mixed force of foreign tanks and imported prototypes, the Soviets developed a large domestic design and production capability. The
T-26 light tank was based on the
Vickers E (as were many other tanks of the period), chosen after it beat a Soviet FT derivative in trials. In spring 1930, the Soviet buying committee, under the direction of
Semyon Ginzburg, had arrived in Great Britain to select tanks, tractors and cars to be used in the Red Army. The Vickers 6-ton was among four models of tanks selected by Soviet representatives during their visit to the Vickers-Armstrongs Company. According to the contract signed on 28 May 1930, the company delivered to the USSR 15 twin-turreted Vickers Mk.E (Type A, armed with two 7.71 mm water-cooled
Vickers machine guns) tanks together with full technical documentation to enable series production of the tank in the USSR. The ability of the two turrets of the Type A to turn independently made it possible to fire to both the left and right at once, which was considered advantageous for breakthroughs of field entrenchments. Several Soviet engineers participated in assembly of the tanks at the Vickers Factory in 1930. proving ground, 1940. The Vickers-built 6-ton tanks had the designation V-26 in the USSR. Three British tanks were successfully tested for cross-country ability at the small proving ground near Moscow on
Poklonnaya Hill in January 1931. One tank hull was tested for gunfire resistance in August 1931.
Kliment Voroshilov ordered the creation of the "Special Commission for the
Red Army (RKKA) new tanks" under the direction of S. Ginzburg to define the tank type suitable for the Red Army. The
T-19 8-ton light infantry tank, developed by S. Ginzburg under that programme at the
Bolshevik Factory in
Leningrad was a theoretical competitor to the British Vickers 6-Ton. The first prototype of the complex and expensive T-19 was not finished until August 1931. Because both tanks had advantages and disadvantages, S. Ginzburg suggested developing a more powerful, hybrid tank (the so-called "improved" T-19) with the hull, home-developed engine and armament from the native T-19, and the transmission and chassis from the British Vickers 6-ton. On 13 February 1931, the Vickers 6-Ton light infantry tank, under the designator T-26, officially entered service in the Red Army as the "main tank for close support of combined arms units and tank units of High Command reserve". The abbreviation "OT" (
Ognemetniy Tank which stands for
Flame-throwing Tank) appeared only in post-war literature; these tanks were originally called "KhT" (
Khimicheskiy Tank which stands for
Chemical Tank), or BKhM (
Boevaya Khimicheskaya Mashina;
Fighting Chemical Vehicle) in the documents of the 1930s. All chemical (flame-throwing) tanks based on the T-26 chassis (KhT-26, KhT-130, KhT-133) were designated BKhM-3. The vehicles were intended for area chemical contamination, smoke screens and for flame-throwing. medium tank. The T-28 was the first series-produced modern medium tank. The Soviets purchased some U.S.
Christie M1930 tank prototypes, from which they developed the
BT series of fast tanks. They also developed the heavier multi-turreted
T-28 medium tank and the massive
T-35 (also multi-turreted), which followed the design premise of the experimental
Vickers A1E1 Independent produced by Vickers for the British but not adopted. The T-28 was also greatly influenced by the A1E1 Independent. The Kirov Factory in
Leningrad began manufacturing the T-28 tank in 1932. The T-28 tank was officially approved on August 11, 1933. The T-28 had one large turret with a 76.2 mm gun and two smaller turrets with 7.62 mm machine guns. A total of 503 T-28 tanks were manufactured over a period of eight years from 1933 to 1941. The Soviets also built a variant of the
Carden Loyd tankette, bought under license from the United Kingdom in 1930, as a reconnaissance vehicle. bomber carrying a T-27 The Soviets were not fully satisfied with the Carden Loyd design and made a number of changes before putting it into mass production under the designation of T-27. Compared with the British original, the hull was larger, the running gear was improved and the weapon mount was modified to take a Soviet-built 7.62 mm DT
machine gun. The tankette was accepted into service on February 13, 1931 and the principal use of the T-27 during its service life was as a reconnaissance vehicle and was used in the Soviet republics of
Central Asia during the 1930s, where the tankettes were used in campaigns against
basmachis. However, they fairly quickly became obsolete due to the introduction of more advanced tanks. The tankette was also intended to be air-mobile. In 1935, the Soviets experimented with transporting T-27s by air, by suspending them under the fuselages of
Tupolev TB-3 bombers. In April 1931,
Vickers-Armstrongs conducted several successful tests of light, floating tanks in the presence of the press. Those early models were developed into
prototypes by Carden-Loyd Tractors, Ltd., which attracted the attention of the Department of Motorization and Mechanization of the RKKA (UMMRKKA), because the small tank suited well to the new armament policies of the
Red Army, as well as possibly being able to replace the older
T-27 tankette. Soviet engineers went over the prototype and later were able to purchase some and the "Selezen’" ("Drake", Ru. "Селезень") program was established in order to construct a similar amphibious tank with a layout based on that of the British prototype. The T-33, was built in March 1932 and showed good buoyancy during testing. However, the T-33 did not perform satisfactorily in other tests. They continue the development for a more suitable amphibious tank, and they designated their latest model as the
T-37. Even before the end of 1932, the high command of the Red Army was planning to order 30 T-37As as they were now designated, but problems plagued production, and only 126 T-37As had been produced by 1 January 1934. The tank was mass-produced starting in 1933 up until 1936, when it was replaced with the more modern
T-38. Overall, after four years of production, 2552 T-37As were produced, including the original prototypes. In the Red Army, they were used to perform tasks in communication,
reconnaissance, and as defence units on the march, as well as active infantry support on the battlefield. The T-37A were used in large numbers during the
Soviet invasion of Poland and in the
Winter War against Finland. Also the
T-41 amphibious tank was also produced, with the
chassis, in part, borrowed from the T-33, and the
caterpillar tracks entirely from the T-27 tank. The multi-turreted
T-35 heavy tank also showed flaws; Soviet tank designers started drawing up replacements. The T-35 conformed to the 1920s notion of a 'breakthrough tank' with very heavy firepower and armour protection, but poor mobility. The
Spanish Civil War demonstrated the need for much heavier armour on tanks, and was the main influence on Soviet tank design just prior to World War II. Of the tanks produced between 1930 and 1940, 97% were either identical copies of foreign designs, or very closely related improvements. Significantly, the major improvement the Soviet designers made to these foreign designs was an increase in firepower. By 1935, the Red Army "... possessed more armoured vehicles, and more tank units than the rest of the world combined." But from 1937 to 1941, the Red Army's officer corps, the armour design bureaux, and leadership of the factories were gutted by Stalin's
Great Purge. Approximately 54,000 officers were repressed. Military knowledge completely stagnated and armoured vehicle production dropped drastically (though still remaining the world's largest). Training and readiness dropped to very low levels. This repression continued until the eve of the war. The
Soviet–Japanese border conflicts (1935-1939) over the border in Manchuria gave the Soviets a chance to employ tactics with their armoured forces which were to prove useful in the coming war, when General
Georgy Zhukov deployed approximately 50,000 Soviet and Mongolian troops of the 57th Special Corps to hold the center of the line on the east bank of the
Battle of Khalkhyn Gol, then crossed the river on with BT-7 tanks and armoured units, massed artillery, and air cover. Once the Japanese were pinned down by the advance of the Soviet center units, the tanks and armoured units swept around the flanks and attacked the Japanese in the rear, achieving a classic
double envelopment, allowing the two wings of Zhukov's armoured units to link up, surrounding and trapping the Japanese 23rd division. The battle ended with the complete destruction of the Japanese forces, using tactics that Zhukov would employ later with his tanks against German forces. However, during the Battle of Khalkhin Gol, BT tanks proved vulnerable to Japanese close quarter teams (
tank killer squads) which were armed with "
Molotov cocktails" (fire bottles). The Soviet BT-5 and BT-7 light tanks, which had been operating in 100-degree-plus heat on the
Mongolian plains, easily caught fire when a Molotov cocktail ignited their
gasoline engines. General Zhukov made it one of his points when briefing Stalin, that his "...BT tanks were a bit fireprone..." led to the development of the
T-34. One of the main competing designs of the T-35 tank was the
SMK, which lowered the number of turrets from the T-35's five to two, mounting the same combination of 76.2 mm and 45 mm weapons. When two prototypes were ordered though, it was decided to create one with only a single turret, but more armour. This new single-turret tank was the
KV. The smaller hull and single turret enabled the designer to install heavy frontal and turret armour while keeping the weight within manageable limits.
World War II The participation by Soviet 'volunteer' tank units in the Spanish Civil War was decisive in forming Soviet tank designs for World War II. Soviet tanks dominated their foreign rivals in Spain due to their firepower, but their thin armour, in common with most tanks of the period, made them vulnerable to the new towed antitank guns being supplied to infantry units. This finding led directly to a new generation of Soviet tanks. In 1939 the most numerous Soviet tank models were the
T-26 light tank, and the
BT series of fast tanks. On the eve of World War II, the Red Army had around 8,500 T-26s of all variants. The T-26 was a slow-moving light tank intended for infantry support, originally designed to keep pace with soldiers on the ground. The BT tanks were fast-moving light tanks designed to fight other tanks but not
infantry. Both were thinly armoured, proof against
small arms but not anti-tank rifles and
37 mm anti-tank guns, and their gasoline-fuelled engines (commonly used in tank designs throughout the world in those days) were liable to burst into flames "at the slightest provocation." Development of various tank designs to find a replacement was begun, such as the
T-50 light tank which was intended to replace the T-26
infantry tank. In prewar planning, the T-50 was intended to become the most numerous Soviet tank, operating alongside the
BT light tank. The sophisticated T-50 was developed keeping in mind the experience gained in the Winter War and Soviet tests of the German
Panzer III tank. But because of technical problems, only a total of 69 T-50 tanks were built (only 48 of them armed), and the much simpler
T-60 light tanks replaced it. In the meantime, a replacement for the BT light tanks was being designed which would develop into the very capable and economical
T-34 medium tank. M), A-20, T-34 Model 1940 and Model 1941 In 1937, the Red Army assigned the engineer
Mikhail Koshkin to lead a new team to design a replacement for the BT tanks at the
Kharkiv Komintern Locomotive Plant (KhPZ) in Kharkiv. The
prototype tank, designated A-20, was specified with of
armour, a 45 mm (1.8 in) gun, and the new model V-2 engine, using less-flammable
diesel fuel in a V12 configuration. The A-20 incorporated previous research (BT-IS and BT-SW-2 projects) into
sloped armour: its all-round sloped armour plates were more likely to deflect anti-armour rounds than perpendicular armour. Koshkin convinced Soviet leader
Joseph Stalin to let him develop a second prototype, a more heavily armed and armoured "universal tank" which could replace both the T-26 and the BT tanks. The second prototype Koshkin named A-32, after its of frontal armour. It also had a
76.2 mm (3 in) gun, and the same model V-2 diesel engine. Both were tested in
field trials at
Kubinka in 1939, and the heavier A-32 proved to be as mobile as the A-20. A still heavier version of the A-32 with of front armour and wider tracks was approved for production as the T-34. Resistance from the military command and concerns about high production cost were finally overridden by anxieties about the poor performance of Soviet tanks in
Finland and the effectiveness of
Germany's Blitzkrieg in France, and the first production tanks were completed in September 1940, completely replacing the production of the T-26, BT, and the multi-turreted
T-28 medium tank at the KhPZ. housing its recoil mechanism. This pre-production A-34 prototype vehicle has a complex single-piece hull front. The T-28 medium tank was deployed in the
Invasion of Poland and later during the
Winter War against Finland. In the course of these operations it was found that the armour was inadequate and programs were initiated to upgrade it. According to Russian historian M. Kolomietz's book ''T-28. Three-headed Stalin's Monster'', over 200 T-28s were knocked out during the Winter War. Frontal plates were upgraded from 50 mm to 80 mm and side and rear plates to 40 mm thickness. With this up-armoured version, the Red Army broke through the main Finnish defensive fortification, the vaunted
Mannerheim Line. The Soviets thus began to upgrade their T-28 tanks for the coming war with Germany, but many were still lost during the first two months of the invasion, when the
Germans invaded in June 1941. When the Soviets entered the
Winter War, the SMK, KV and a third design, the
T-100, were sent to be tested in combat conditions. The heavy armour of the KV proved highly resistant to Finnish
anti-tank weapons, making it more effective than the other designs. It was soon put into production, both as the original 76 mm-armed KV-1 heavy tank and the 152 mm
howitzer-mounting
assault gun, the
KV-2 Heavy Artillery Tank. The Soviets also committed the T-38 amphibious scout tank, which was a Soviet light
amphibious tank and a development of the earlier
T-37, based in turn on the French
AMR 33 light reconnaissance tank. The tank served with the Red Army in the Winter War with Finland in 1940, but was unsuccessful due to its light armament and thin armour, which was easily penetrated by rifle and light machine gun fire. In the confined terrain of Finland, the tank was a death trap. As a scout tank, the T-38 had the advantages of very low silhouette and good mobility, due to its ability to swim. However, the thin armour and single machine gun armament made the tank of only limited use in combat while the lack of radios in most T-38s was a serious limitation in a recon vehicle. The T-38's limitations were recognized, and it would have been replaced by the
T-40, but the outbreak of the Second World War meant that only a few T-40s were produced. The T-38 was rarely seen in direct combat after Germany attacked in 1941 and was mostly relegated to other roles such as
artillery tractor, and the main amphibious scout vehicle of the Red Army became the
Ford GPA amphibious jeep, an open unarmoured vehicle provided through
Lend-Lease. By the eve of Operation Barbarossa in 1941, the Soviet Union had some of the world's best tanks (including the KV-1, which were basically a generation ahead, coming as a shock to the
Wehrmacht). However, it still had many older tanks in its front-line armoured forces, with the T-26 forming the backbone of the Red Army's armoured forces during the first months of the
German invasion of the Soviet Union in 1941. In overall tanks, however, the Soviet numerical advantage was considerable as the Red Army had a large quantitative superiority. It possessed 23,106 tanks, of which about 12,782 were in the five Western Military Districts (three of which directly faced the German invasion front). However, maintenance and readiness standards were very poor; ammunition and radios were in short supply, and many units lacked the trucks needed for resupply beyond their basic fuel and ammunition loads. Also, from 1938, the Soviets had partly dispersed their tanks to infantry divisions for infantry support, but after their experiences in the
Winter War and their observation of the German campaign against France, had begun to emulate the Germans and organize most of their armoured assets into large armour divisions and corps. This reorganization was only partially implemented at the dawn of Barbarossa, as not enough tanks were available to bring the mechanized corps up to organic strength. Tank units were rarely well-equipped, and also lacked training and logistical support. Maintenance standards were very poor. Units were sent into combat with no arrangements for refuelling, ammunition resupply, or personnel replacement. Often, after a single engagement, units were destroyed or rendered ineffective. The poor training and readiness status of most Red Army units led to a catastrophic defeat of the enormous Soviet Mechanised Corps during the opening phases of
Operation Barbarossa, Germany's 1941 invasion of the Soviet Union. Despite their generally good equipment, the Red Army's operational capabilities and motorised logistic support were very inferior. The Soviet numerical advantage in heavy equipment was also more than offset by the greatly superior training and readiness of German forces. The Soviet officer corps and high command had been decimated by Stalin's
Great Purge (1936–1938). , 1943. The German
Wehrmacht had about 5,200 tanks overall, of which 3,350 were committed to the invasion. This yields a balance of immediately available tanks of about 4:1 in the Red Army's favour. The T-34 was the most modern in the world, and the KV series the best armoured. The most advanced Soviet tank models, however, the T-34 and KV-1, were not available in large numbers early in the war, and only accounted for 7.2% of the total Soviet tank force. But while these 1,861 modern tanks were technically superior to the 1,404 German medium
Panzer III and
IV tanks, the Soviets in 1941 still lacked the communications, training and experience to employ such weapons effectively. The Soviet Union had also built some of the best amphibious tanks as
amphibious capability was important to the Red Army, as evidenced by the production of over 1,500 amphibious tanks in the 1930s. It built the
T-37 and
T-38 tank light amphibians and then the T-40 which was intended to replace them. The T-40 was a superior design, armed with a 12.7 mm
DShK heavy machine gun, a much more potent weapon than the 7.62 mm
DT machine gun mounted on the T-38. But due to the pressures of war, the Soviets favoured the production of simpler tank designs, and only a small number of T-40s were built. The T-40 entered production just prior to the outbreak of war, and was intended to equip reconnaissance units. As the need for large numbers of tanks became critical, a secondary non-amphibious variant was designed on the T-40 chassis. This design became the
T-60. The T-60 was simpler, cheaper, and better armed, and could fulfil most of the same roles. Under the stress of war, production of the T-40 was halted in favour of the T-60. Despite that, T-40 with thicker armor and TNSh cannon, unable to float, was produced along the T-60 in smaller numbers for more smooth conveyor belt transition, this tank was also named as T-60, but is often referred to as "T-40" T-60 to avoid confusion. Thus only 356 T-40s were issued, compared to 594 "T-40" T-60 and over 6,000 true T-60s. Although at first intended to carry a 12.7 mm machine gun like the T-40, the "T-40" T-60 scout tank armament was later upgraded to the 20 mm TNSh cannon, a tank version of the
ShVAK, "true" T-60 had TNSh from beginning. By 1942, light tanks such as the T-60 were considered inadequate by the Red Army, unable to keep up with the T-34 medium tank and unable to penetrate the armour of most German tanks, but they could be produced by small factories which were unable to handle the large components of medium and heavy tanks. The T-70 was an attempt to remedy some of the shortcomings of the T-60 scout tank, which had very poor cross-country mobility, thin armour, and an inadequate 20 mm gun. The T-70 light tank had a 45 mm L/46 gun Model 38 with forty-five rounds carried, and a
coaxial 7.62 mm
DT machine gun and was used by the Red Army to replace both the T-60 scout tank for reconnaissance and the
T-50 light infantry tank for infantry support. The T-70 was then replaced with the T-80 light tank, a more robust version of the T-70 with a two-man
turret. But there was enough
lend-lease equipment available to fulfil the reconnaissance role of the light tanks, and
armoured cars were better suited for light scouting and liaison. All light tank production was cancelled in October 1943, after only about 75 T-80s were built. No further light tanks would be built during the war. In November 1943 Red Army tank
units were reorganized: light tanks were replaced by the T-34 and new T-34-85, which started production the following month. At the outset of the war, T-34 tanks amounted to only about four percent of the Soviet tank arsenal, but by the war's end, they comprised at least 55% of the USSR's massive output of tanks (based on figures from;
Zheltov 2001 lists even larger numbers). During the winter of 1941–42, the T-34 dominated German tanks through its ability to move over deep mud or snow without bogging down, where German tanks could not. The
Panzer IV used an inferior leaf-spring suspension and narrow track, and tended to sink in deep mud or snow. However, by the time the T-34 had replaced older models and became available in greater numbers, newer German tanks, including the improved
Panzer V "Panther", outperformed it. In early 1944, an upgraded tank, the T-34-85, gave the Red Army a tank with better armour and mobility than German
Panzer IV and
Sturmgeschütz III, but it could not match the Panther in
gun or
armour protection. To the Soviet advantage there were far fewer Panthers than T-34s, and the T-34-85 was good enough to allow skilled crew and tactical situations to tip the balance. , summer 1944 However, in the autumn of 1943 the design bureau of the Stalin Ural Tank Factory No. 183, located in Nizhny Tagil (in the Ural Mountains), started working on a vehicle that would have improvement opportunities in the future, under a direct order from Stalin. The intention was to retain the high mobility of the T-34 and provide it with heavier armour protection against modern tank guns. In November 1943, the chief designer, A. A. Morozov, presented the overall design of the vehicle and a model of the tank, which received the designation T-44 (Ob'yekt 136). It had a significant decrease in the length of the engine compartment allowed the turret to be moved rearwards, which in turn moved its rotation axis and the center of mass to the center of the hull, increased the accuracy of the main gun and decreased a chance that the turret could get stuck after getting hit in the turret ring with a projectile that ricocheted. The thickness of the frontal armor protection more than doubled without disturbing the center of mass or drastically increasing the weight of the tank. The
T-44 officially entered service with the Red Army on 23 November 1944 but the production started in October. The original plans were that the factory would produce 300 T-44s a month. However, only 25 were built by the end of 1944. In 1945, 940 were built, making a total of 965 Two projects were started, both based on the T-44A and the development of the first one started in October 1944, and the designing stage was completed in December. The prototype was ready in February 1945 and the trials conducted between March and April gave positive results and the vehicle entered service with the Red Army as the
T-54. 's, with prominent, undercut
shot traps. The tank had almost the same hull and drive train as the T-44A. Differences included thickened front armour (120 mm on the upper section and 90 mm on the lower section) and a different hatch and vision slot for the driver. The turret had increased diameter to 1800 mm. The armament included the 100 mm D-10TK tank gun as well as two 7.62 mm GWT machine guns. The tank was powered by a new V-54 12-cylinder 38.88-litre water-cooled diesel engine developing 520 hp (388 kW) at 2,000 rpm. The fuel capacity was increased (530 litres in the internal fuel tank and 165 litres in the external fuel tank). The weight was increased to 35.5 tonnes, which reduced the maximal road speed to 43.5 km/h. Further development of the T-44 was cancelled and all the attention was directed towards the development of the new T-54 main battle tank. The
IS Tank was a
heavy tank series that replaced the
KV-series during 1944 in
World War II beginning with the IS-1(IS-85 or just IS) tank. The heavy tanks were designed with thick armor to counter
German 88 mm guns and carried a main gun capable of defeating
Tiger II,
Tiger I, and
Panther tanks. They were mainly designed as breakthrough tanks, firing a heavy
high-explosive shell that was useful against entrenchments and bunkers. The IS-2 saw combat late in World War II in small numbers, notably against
Tiger I,
Tiger II tanks and
Elefant tank destroyers. Then the next in the series, the IS-3, saw service on the
Chinese-Soviet border, the
Soviet invasion of Hungary, the
Prague Spring and on both sides of the
Six-Day War. However the mobility and firepower of medium-tanks and the evolution of the
main battle tank rendered heavy tanks obsolete.
Lend Lease tanks armoured car at the
fourth battle of Kharkov in 1943 in Bucharest near Boulevard of
Carol I with British-supplied
Universal Carrier The
Soviet Union also had Allied tanks from the British aid program, and the US
Lend-Lease program, most which came via the
Arctic Convoys. In June 1941, within weeks of the German invasion of the USSR, the first British aid convoy set off along the dangerous Arctic sea route to
Murmansk, arriving in September. It carried 40
Hawker Hurricanes along with 550 mechanics and pilots of
No. 151 Wing to provide immediate air defence of the port and to train Soviet pilots. The convoy was the first of many convoys to Murmansk and
Arkhangelsk in what became known as the
Arctic convoys, the returning ships carried the gold that the USSR was using to pay the US. By the end of 1941, early shipments of
Matilda,
Valentine and
Tetrarch tanks represented only 6.5% of total Soviet tank production but over 25% of medium and heavy tanks produced for the Red Army. The British tanks first saw action with the 138 Independent Tank Battalion in the
Volga Reservoir on 20 November 1941. Lend-Lease tanks constituted 30 to 40 percent of heavy and medium tank strength before Moscow at the beginning of December 1941. destroyed in the
Soviet Union, January 1944 Significant numbers of British
Churchill, Matilda and Valentine tanks were shipped to the USSR. in April of 1945. , just before the start of
Operation Bagration in 1944. The
Soviet Union's nickname for the US M4 medium tank was
Emcha, which was diminutive of
Em chetyre ("M-four"). The M4A2s used by the Red Army were considered to be much-less prone to blow up due to ammunition detonation than their
T-34/76 but had a higher tendency to overturn in road accidents and collisions or because of rough terrain due to their much-higher center of gravity. Under Lend-Lease, 4,102 M4A2 medium tanks were sent to the Soviet Union. Of these, 2,007 were equipped with the original 75 mm main gun, with 2,095 mounting the more-capable 76 mm tank gun. The total number of Sherman tanks sent to the U.S.S.R. under Lend-Lease represented 18.6% of all Lend-Lease Shermans. The first 76mm-armed M4A2 diesel-fuel Shermans started to arrive in Soviet Union in the late summer of 1944. By 1945, some Red Army armoured units were standardized to depend primarily on them and not on their ubiquitous T-34. Such units include the
1st Guards Mechanized Corps, the
3rd Guards Mechanized Corps and the
9th Guards Mechanized Corps, amongst others. The Sherman was largely held in good regard and viewed positively by many Soviet tank-crews which operated it before, with compliments mainly given to its reliability, ease of maintenance, generally good firepower (referring especially to the 76mm-gun version) and decent armour protection, as well as an
auxiliary-power unit (APU) to keep the tank's batteries charged without having to run the main engine for the same purpose as the Soviets' own T-34 tank required.
Cold War With massive quantities of weapons and tanks from World War II, and the factories to produce them, the Soviets exported them and built up client states which spread their influence and became involved in the continuing state of political conflict, military tension, proxy wars, and economic competition existing afterwards known as the Cold War. The Cold War featured periods of relative calm and of international high tension – the
Berlin Blockade (1948–1949), the
Korean War (1950–1953), the
Berlin Crisis of 1961, the
Vietnam War (1955–1975), the
Cuban Missile Crisis (1962), the
Soviet–Afghan War (1979–1989), and various smaller conflicts in which Soviet weapons had significant impact in many wars.
Korean War n T-34-85 caught on a bridge south of Suwon by United States attack aircraft during the
Korean War. Initially, North Korean armour dominated the battlefield with Soviet T-34-85 medium tanks designed during the Second World War. The KPA's tanks confronted a tankless ROK Army armed with few modern anti-tank weapons, The US forces arriving in Korea were equipped with light
M24 Chaffee tanks (on occupation duty in nearby Japan) that also proved ineffective against the heavier KPA T-34 tanks. The
North Korean invasion of South Korea in June 1950 was spearheaded by a full brigade equipped with about 120 T-34-85s. More T-34 tanks later joined the first assault force after it had penetrated into South Korea. They were pitted against the
M24 Chaffee,
M4 Sherman and
M26 Pershing, but not the
Centurion tanks of the
UN forces. The
T-34 tanks of the North Korean army rolled across the border and headed south where they brushed aside opposition with ease, such as when they came into contact with elements of the 24th Infantry Division in the
Battle of Osan on July 5, 1950 during the first battle between American and North Korean forces. The American force, nicknamed Task Force Smith, was unable to repel the North Koreans' T-34 tanks. Ammunition and weapons designed to combat the heavily armoured tanks had not been widely distributed to
U.S. Army forces in Korea at the time, and the Task Force only had a few rounds of effective
howitzer ammunition. The Task Force's outdated equipment could not penetrate the North Korean T-34 tanks armor, which subsequently passed through their lines. The 24th Infantry Division would continue to fight in delaying actions such as this one for two more weeks until it was overwhelmed at the
Battle of Taejon, where the North Koreans advanced on the town with the 3rd and 4th Divisions supported by over 50 T-34 tanks, and the Allies fell back into the Pusan Perimeter which was defined by the farthest advance of the North Korean troops during the Korean War. The Allies fought off the attacks in the Pusan Perimeter which served as an airhead for resupply and reinforcement until the Inchon landing, and the ensuing counterattack against the North. Countering the initial combat imbalance, the UN Command reinforcement materiel included heavier US
M4 Sherman,
M26 Pershing,
M46 Patton, and British
Cromwell and
Centurion tanks that proved effective against North Korean armour, ending its battlefield dominance. The first successful action of NVA armour was against the
Lang Vei Special Forces camp on 6–7 February 1968. Thirteen PT-76s, of the NVA 202nd Armored Regiment spearheaded an assault against approximately 24
Green Berets and 500 irregulars. The defenders fought back with
M72 LAWs (Light Anti-Tank weapons/66 mm), and requested support from nearby
Khe Sanh, who were unable to help, as they too, were under siege. The
Easter Offensive, officially, the Nguyễn Huệ Offensive and also (Chiến dịch Xuân hè 1972 in Vietnamese), was a military campaign heavy with armoured forces and tanks conducted by the
People's Army of Vietnam (PAVN, the regular army of
North Vietnam) against the
Army of the Republic of Vietnam (ARVN, the regular army of
South Vietnam) and the
United States military between 30 March and 22 October 1972, during the
Vietnam War. This conventional invasion (the largest offensive operation since 300,000
Chinese volunteers had crossed the
Yalu River into
North Korea during the
Korean War) was led by armoured forces. Two PAVN divisions (the 304th and 308th - approximately 30,000 troops) supported by more than 100 tanks (in two regiments) rolled over the Demilitarized Zone to attack I Corps, the five northernmost provinces of South Vietnam. The North Vietnamese moved out of Laos along
Route 9, past Khe Sanh, and east into the Quảng Trị River Valley of
South Vietnam. The PAVN advance was followed by antiaircraft units armed with new
ZSU-57-2 tracked weapon platforms and man-portable, shoulder-fired
Grail missiles, which made low-level bombing attacks against the columns of tanks hazardous. helicopter gunship On May 9, 1972, the North Vietnamese tanks unwittingly participated in changing the story of armoured warfare. Prior to the
Six-Day War in 1967, the Arab armies had fought with a mixture of weapons mostly British, although Egypt acquired American M4A4 tanks and fitted them with the diesel engine of M4A2 and the FL-10 turret of the French AMX-13 light tank. Syria possessed at least one M4A1 chassis at some time during 1948–1956. But after the Suez Crisis in 1956 they built up their arsenal mainly with Soviet arms. It is known the Syrians got upgraded T-34-85s which they called T-34/55. This unit was a Syrian modernization of Soviet-made T-34-85s earlier with an anti-aircraft machine gun fitted to the commander's cupola and other upgrades. The Syrians also acquired a T-34 tank conversions designated a T-34/122 made into a self-propelled howitzer armed with a
122 mm D-30 howitzer. The Six-Day War was fought between June 5 and June 10, 1967, by Israel and the neighboring states of Egypt [known then as the United Arab Republic (UAR)], Jordan, and Syria. In the war, Egypt, Syria, Jordan, and Iraq had over 2,504 tanks against Israel 800 tanks. However, Israel completed a decisive air offensive in the first two days, which crippled the Egyptian, Syrian and Iraqi air forces, destroyed Jordan's Air Force, and rapidly established complete air supremacy. The Israeli Air Force pummeled the Arab armies, and with air supremacy, was able to destroy many of their tanks at will, but the Israeli armor also had tank on tank battles. Typical was the Battle of Abu-Ageila, where Egyptian forces with armoured forces included a battalion of tank destroyers and a tank regiment, formed of Soviet World War II armor, which included 90 T-34-85 tanks (with 85 mm guns), 22 SU-100 tank destroyers (with 100 mm guns), and about 16,000 men,[141] clashed with the Israelis with 150 post-World War II tanks including the AMX-13 with 90 mm guns, Centurions, and Super Shermans (both types with 105 mm guns). Combined forces of Israeli armor, paratroopers, infantry, artillery and combat engineers attacked the Egyptian position from the front, flanks and rear, destroying many tanks and cutting the Egyptian forces off. At the war's end, Israel had seized the Gaza Strip and the Sinai Peninsula from Egypt, the West Bank from Jordan, and the Golan Heights from Syria. Egyptian armoured forces were by the time of the Six-Day War, mostly Soviet. Egypt had ordered 350 T-54s and 50 PT-76s from the Soviet Union and delivered by 1966 before the Six-Day War. Egypt lost 820 vehicles in the Six-Day War including 82 T-55s. Egyptian forces advanced, into the
Sinai Desert with two armies (both corps-sized by western standards, included the
2nd Infantry Division in the northern Second Army) and by the following morning, some 850 Egyptian tanks had crossed the canal and prepared for the Israeli counterattack. The Egyptian 2nd and 3rd Armies attacked eastward with armored forces consisted of 800-1,000 tanks however they moved eastward beyond SAM cover over the Suez Canal, where they came up against 700 No fewer than 250 Egyptian tanks and some 200 armored vehicles After stopping the Egyptian attack, the Israelis then counterattacked at the seam between two Egyptian armies, crossed the Suez Canal, and encircled elements of Egypt's Third Army until the United Nations ceasefire resolution which was imposed cooperatively on October 25 to end the war. In the north, the Syrians attacked the Golan Heights at the same time with armoured forces and initially made threatening gains against the greatly outnumbered defenders. At the onset of the battle, the Syrians came with three infantry divisions with large armour components comprising 28,000 Syrian troops, 800 tanks and 600 artillery pieces and followed by two armoured divisions against the Israeli brigades of some 3,000 troops, 180 tanks and 60 artillery pieces. The Syrians had bridging tanks to cross antitank ditches, BRDM-mounted
Sagger anti-tank missiles,
SU-100 gun carriers, and had T-55 tanks equipped with a specially designed infrared nightscope and also T-62 tanks. The Israeli forces did not have adequate optical equipment for night fighting, and had to gauge the position of the Syrian forces by their noise and artillery flares. Israeli forces were worn down but were gradually reinforced over days and within a week, Israel recovered and launched a four-day counter-offensive, driving deep into Syria itself. However, Iraq had also sent an expeditionary force to the Golan, with 250–500 tanks mostly T-55s, and 700
APCs which threatened the Israeli flanks, but the war ended without the Iraqis becoming heavily engaged. The fact that the Arab armies' T-54/55s and T-62s were equipped with night vision equipment, which the Israeli tanks lacked, gave them an advantage in fighting at night, while Israel tanks had better armor and/or better armament such as the L7|105 mm L7 gun. Israeli tanks also had a distinct advantage in the "
hull-down" position where steeper angles of depression resulted in less exposure. The main guns of Soviet tanks could only depress 4 degrees. By contrast, the 105 mm guns on Centurion and Patton tanks could depress 10 degrees. The coalition of Arab states and Egypt and Syria lost 2,300 tanks destroyed or captured
Soviet invasion of Afghanistan The
Soviet–Afghan War started on December 27, 1979, when 700 Soviet troops dressed in Afghan uniforms, including
KGB and
GRU special force officers from the
Alpha Group and
Zenith Group, occupied major governmental, military and media buildings in Kabul, including the
Tajbeg Presidential Palace. aboard a
BMD-1 in Kabul The Soviet
Zenith Group destroyed Kabul's communications hub, paralyzing Afghan military command and
the assault on Tajbeg Palace began; as planned, president
Hafizullah Amin was killed. The Soviet military command at
Termez,
Uzbek SSR, announced on
Radio Kabul that Afghanistan had been liberated from Amin's rule. According to the Soviet
Politburo they were complying with the 1978
Treaty of Friendship, Cooperation and Good Neighborliness and Amin had been "executed by a tribunal for his crimes" by the Afghan Revolutionary Central Committee. That committee then elected as head of government former Deputy Prime Minister
Babrak Karmal, and said that it had requested Soviet military assistance. Soviet ground forces, under the command of
Marshal Sergei Sokolov, entered Afghanistan from the north on December 27. In all, the initial Soviet force was around 1,800 tanks, 80,000 soldiers and 2,000
AFVs. In the second week alone, Soviet aircraft had made a total of 4,000 flights into Kabul. With the arrival of the two later divisions, the total Soviet force rose to over 100,000 personnel. The war with mujahideen forces supported by secret aid from the CIA dragged on from the initial Soviet deployment of the 40th Army in Afghanistan on December 24, 1979 till the final troop withdrawal which started on May 15, 1988, and ended on February 15, 1989 under Soviet leader Mikhail Gorbachev. Tanks, Armoured vehicles and artillery losses were as follows: • 147
tanks • 1,314
IFV/
APCs • 433
artillery guns and
mortars Persian Gulf War During
Operation Desert Storm in 1991, the Iraqi armor was usually tanks of Russian design, which included the
T-54/55,
T-62,
Type 59,
Type 69, and
T-72. In the Battle of Khafji, the first major ground engagement of the
Gulf War, Iraqi leader
Saddam Hussein, tried and failed to draw Coalition troops into a costly ground engagements with his armoured forces and sent the 1st and 5th Mechanized Divisions and 3rd Armored Division to conduct a multi-pronged invasion toward Khafji, engaging American, Saudi and Qatari forces along the coastline. i modification of the T-55 tank, used during the battle. Most non-Republican Guard armored units had older tank designs, but the 3rd Armored Division had a number of T-72 tanks, the only non-Republican Guard force to have them, while the other armored battalions had
T-62s and upgraded T-55s. During the battle of Khafji, these upgraded T-55s survived impacts from
Milan anti-tank missiles. As the units moved to the Saudi border, many were attacked by Coalition aircraft. Around the Al-Wafrah forest, about 1,000 Iraqi armored fighting vehicles were attacked by
Harrier aircraft with
Rockeye cluster bombs. Another Iraqi convoy of armored vehicles was hit by
A-10s, which destroyed the first and last vehicles, before systematically attacking the stranded remainder. The air raids destroyed many tanks and support vehicles and prevented the majority of the Iraqi troops deployed for the offensive from taking part in it, allowing Saudi and Quatari forces to retake the city. , 18 April 1991 In the launch of the main Allied ground attack, the Iraqi tanks engaged the M60A1 tanks of the U.S. Marines which were fitted with add-on explosive reactive armor (ERA) packages. However, the weakness of Iraq's older
Soviet-era tanks, was most evident against the US M1A1 tank. The M1A1 tank was superior to Iraq's Soviet-era T-55 and T-62 tanks. In the
Battle of 73 Easting, which was a decisive tank battle fought on 26 February 1991, during the
Gulf War, between
American–
British armored forces and those of the Iraqi
Republican Guard. Superior American
night vision equipment turned the poor weather into a U.S. advantage. The
2nd Armored Cavalry Regiment (2nd ACR), mainly a
reconnaissance element of
VII Corps along with the
corps's vanguard the
American 3rd Armored Division (3rd AD) and
1st Infantry Division (1st ID), and the
British 1st Armoured Division (1 AD) engaged and smashed Iraqi forces and tanks. One of 2nd ACR's cavalry units, G- ("Ghost") Troop, initially destroyed several Iraqi armored personnel carriers and three enemy tanks. Reaching 70 Easting, the lead cavalry troops of 2nd "Cougar" Squadron knocked out a screen of eight Iraqi
T-72 tanks. The 2nd ACR surprised the enemy and penetrated the Iraqi positions so quickly that they were unable to recover. E-Troop attacked forward and destroyed the Iraqi tanks at 73 Easting at close range. The Iraqis stood their ground while their tanks and armored personnel carriers of the Tawakalna Division attempted to maneuver and fight. E-Troop destroyed more than 20 tanks and other armored vehicles, a number of trucks and bunkers, and took a large number of prisoners with no losses to themselves. Other 2nd ACR Troops, I- ("Iron"), K- ("Killer"), and G- ("Ghost"), joined the fighting at 73 Easting and engaged several waves of Iraqi
T-72 and
T-55 tanks advancing directly into G-Troop. G-Troop lost one M3 Bradley to Iraqi
IFV fire and one soldier, ending with most of the engaged Iraqi elements burning or destroyed. The 3rd Brigade, 1st Armored Division of the British Army, engaged the Tawakalna Division, while the Medina Division was attempting to maneuver against 1st Armoured Division. The British responded decisively with
MLRS fire, cannon artillery, and air strikes and destroyed 40 enemy tanks and captured an Iraqi division commander. The 2nd ACR's three squadrons, along with the 1st Infantry Division's two leading brigades, destroyed two Iraqi brigades (18th Mechanized Brigade and 37th Armored Brigade) of the Tawakalna Division. The 2nd ACR alone destroyed about 85 tanks, 40 personnel carriers and more than 30 wheeled vehicles, along with several anti-aircraft artillery systems during the battle. The equivalent of an Iraqi brigade was destroyed at the
Battle of 73 Easting, in the defeat of the Republican Guard tanks and armored forces. At the same time, Iraqi troops began retreating from Kuwait, and a long convoy of retreating Iraqi tanks, vehicles and troops formed along the main Iraq-Kuwait highway. Although they were retreating, this convoy was bombed so extensively by Coalition air forces that it came to be known as the
Highway of Death as Iraqi tanks and other vehicles out in the open were destroyed by Allied planes as they fled, along with hundreds of Iraqi troops who were killed. Post war analysis showed that the majority of Iraqi armored forces still had old Soviet-made T-55s from the 1950s and 1960s, and some
Asad Babil tanks (along with some Chinese
Type 59s and
Type 69 tanks). These machines were not equipped with up-to-date equipment, such as
thermal sights or
laser rangefinders, and their effectiveness in modern combat was very limited. The Iraqis failed to find an effective countermeasure to the thermal sights and
sabot rounds used by the Coalition tanks. This equipment enabled them to engage and destroy Iraqi tanks from more than three times the range that Iraqi tanks could engage coalition tanks. The Iraqi tank crews used old, cheap steel
penetrators against the advanced
Chobham Armour of the U.S. and British tanks, with ineffective results.
Post Cold War War in Afghanistan . The civil war continued in Afghanistan after the Soviet withdrawal of 1989. In April, 1992. Afghanistan leader Najibullah and his communist government fell to the mujahideen, who replaced Najibullah with a new governing council for the country. With the government institutions either collapsing or participating in the factional fighting, maintaining order in Kabul became almost impossible. The scene was set for the
next phase of the war which led to the rise of and the take over of the country by the
Taliban regime. The massive stockpiles of heavy weapons such as T-62 and T-55 tanks, were taken over by the various Afghanistan warlords and along with vehicles such as BMD-1s from the war with the Soviet Union, they were then used in fighting other factions or warlords. Some tanks in the Afghanistan military or military vehicles were left behind for them by retreating Soviets and some were derelicts left by the Soviets all over Afghanistan and brought back to working condition. Since there wasn't any kind of care taken as to what variant an individual tank may be, many T-55s have mixed parts from a number of different variants. On October 7, 2001 the
United States military began operation
Operation Enduring Freedom, which was launched by the United States and United Kingdom in response to the
September 11, 2001 attacks. The purpose for the entry into the Afghanistan conflict was stated to capture
Osama bin Laden, destroy
al-Qaeda, and remove the
Taliban regime which had provided support and safe harbor to al-Qaeda. In the war, both the Taliban and forces allied with American troops had access to a wide array of Soviet tanks that fell into their hands, when the central government which had ordered them, collapsed after the Soviets left. 50 T-54s and 50 T-55s were ordered in 1961 from the Soviet Union and delivered between 1962 and 1964 (T-54s were previously in Soviet service). 200 T-54s were ordered in 1978 from the Soviet Union and delivered between 1978 and 1979 (the vehicles were previously in Soviet service). 705 T-55s were ordered in 1978 from the Soviet Union and delivered between 1978 and 1991 (the vehicles were previously in Soviet service). 50 Pt-76 light tanks were ordered in 1958 from the Soviet Union and delivered between 1959 and 1961. 1,000 T-54s, T-55s, T-62s and PT-76s were in service on 1 April 1992. Currently 600 T-55
s are in service with the
Military of Afghanistan but are to be replaced with
M60 Pattons.
Iraq War From the beginning of the war, the bulk of the resistance had been conducted by regular army units, equipped with older tanks such as
T-54/55 tanks and T-62s. One division armed with the older tanks that faced the US forces were the 6th Armored Division of the
Iraqi Army. It was equipped with T-55s and BMP-1s defending the control of key bridges over the Euphrates River and the Saddam Canal at Nasiriyah. Its tanks were decimated by US Marines with
M1 Abrams, and the division as a unit rendered incapable for combat during the
Battle of Nasiriyah in March 2003, during the invasion. In addition to the T-54/55 and T-62 tanks that Iraq had, the most feared to US armoured forces were the T-72 tanks in the Iraqi forces. Only
Republican Guard divisions were equipped with Iraqi-modified T-72s. Many of the Iraqi T-72s were dug-in or hidden in groves, and then used to ambush the US or British tanks. In the war, the Iraqi T-72s were the preferred target for Apache helicopters and A-10s, in an attempt to diminish the combat power of Republican Guard divisions. The only chance for the
Asad Babil T-72s against American tanks was to lure them to close range combat, or trying to ambush them from dug-in positions. But even in those conditions, the M1s usually prevailed, as proven in circumstances like the
Battle of Baghdad, and the drive to the capital, where dozens of Iraqi MBTs were obliterated, or near
Mahmoudiyah, south of Baghdad, April 3, 2003, (
Iraqi Freedom) when US tanks engaged their counterparts from just 50 yards, shattering seven enemy T-72s without losses. These encounters also exposed the very poor marksmanship of the Iraqi gunners, in part due to the shortage of modern night-vision and range-finder assets. The Iraqis, however, had no idea they could be detected and destroyed at a range of nearly by the
M1 Abrams, and the
Challenger. The Lion of Babylon T-72 was utterly outclassed by the M1 Abrams, the Challenger and by any other contemporary Western main battle tank during the 2003 invasion of Iraq. The last operational
Asad Babils were destroyed by the successive waves of American armored incursions on the Iraqi capital or abandoned by their crews after the fall of Baghdad, several of them without firing a single shot, after the collapse of the regime.
Russo-Ukrainian War Russia invaded Ukraine and
occupied its Crimean peninsula in February 2014, and started a
war in the Donbas region of Ukraine's east in May. In February 2022, it escalated to an all-out
invasion of Ukraine. Russia initially denied its command and control over "separatist militias" in Ukraine significantly manned by Russian volunteers and soldiers, supplying them with Ukrainian-built T-64 tanks captured in Crimea and from its own Soviet-era stocks, as well as T-72. As Ukrainian forces gained the upper hand and forced the militias to withdraw towards the Russian border, from August 2014 Russia sent the Russian Armed Forces into Ukraine, especially at the significant battles of
Ilovaisk and
Debaltseve, to create a stable line of contact. In 2022 Russia escalated the conflict into the largest European war since WWII. Ukrainian forces halted Russian advances, and then enjoyed a number of military successes as Western military aid began to roll in.
Foreign military aid to Ukraine in 2022 included upgraded T-72 and T-55 tanks from a number of former Soviet-bloc states and other donors, and eventually newer Western-designed tanks. However, the single largest provider of tanks was Russia, as the Ukrainians captured thousands of Russian tanks and put many of them into service. The following were among the aid delivered or committed to Ukraine: • Over 50 T-72M1, by Czechia and Germany, from stocks in Bulgaria and Czechia, April 2022, May or June 2022, and April 2023 • Over 250 T-72M(R) and T-72M1(R), Poland, from April 2022 • 31 T-72A, North Macedonia, July or August 2022 • 28 M-55S, by Germany from Slovenian stocks, October 2022 • 105 T-72EA, purchased by Denmark, Czechia, the Netherlands, and the United States, restored or upgraded in Czechia, from January 2023 • 60
PT-91, Poland, from April 2023 Meanwhile Russia increased its military production, producing some new T-90M, refurbishing many old T-90, T-80, and T-72 tanks, but with difficulty due to sanctions limiting access to components as diverse as digital electronics and ball bearings. Within three months, Russia started to bring T-62 tanks back into service and upgraded some to the new T-62M Obr. 2021 and T-62MV Obr. 2021 standard. In early 2023 Russian T-55 tanks were seen being used for training and apparently being sent into combat service. Russian authorities said the T-14 Armata was tested in Ukraine, but still hasn't entered service. In 2024 it was determined that Russia did not have any T80 and T90 left in storage and the army was mainly supplied by newly made T-90's and a trickle of refurbished T72's. ==Overview per tank==