Char D2 Medium Tank

The Char D2 was a French tank of the interwar period.

In 1930, at a time the Char D1 had not even entered production, the Renault company agreed to build a better armoured version called the Char D2. By using welded armour plate instead of the dated riveted design of the D1 this would be lighter than a simple version of the D1 made with thicker plating. The tank should be able to serve as an alternative in the role of battle tank for the heavy Char B1, should the latter be forbidden by treaty. The failure of the armament limitation talks resulted in a severe reduction of the projected manufacture, now in the form of an interim tank. Organisational difficulties with Renault caused the actual production of a first series of fifty to be delayed to the years 1936 and 1937. A second series of fifty was ordered in 1938, despite indications that the type was mechanically unreliable, as a possible cheaper addition to the expensive Char B1, to be able to raise more armoured divisions of the Infantry Arm. Due to Renault's financial problems, this second, partially improved version, was only realised in early 1940, bringing total production to a hundred.

The three prototypes were, among others, fitted with turrets of theRenault FT 17 during a mock-up. The production models of the first series had the APX-1 turret, armed with a short 47mm SA34 tank gun. The second series used the much more powerful 47mm SA35 tank gun; from March 1940 this was retrofitted to a number of the older vehicles, despite a parallel project to rebuild them as flamethrower tanks.

In 1937 the type equipped one tank battalion, which was considered an elite unit, as part of Charles de Gaulle's regiment. It was well-trained in the use of advanced tactics, including the use of radio-sets. In 1940 the effectiveness of this unit had much diminished, because of the worn-out state of its tanks, aggravated by the decision to raise three autonomous tank companies with the new vehicles, even though insufficient trained crews were available. Nevertheless the Char D2 units fought tenaciously during the Battle of France, losing most of their tanks to mechanical breakdown instead of enemy action.

Development

At the same time the Char D1 was ordered, a plan was made to develop a more modern tank. The Char D1 had already departed from the pure infantry support concept and evolved from a light into a medium tank, capable of fighting enemy armour; this made it the obvious candidate to be quickly changed into a lighter alternative for the Char B1 battle tank, needed because the latter type was in danger of being forbidden by an expected armaments limitation treaty under the auspices of the League of Nations, imposing an upper weight limit of twenty metric tonnes for armoured fighting vehicles.

The Direction de l'Infanterie proposed on 23 January 1930, in a letter to the ministry of defence, to build a better armoured tank, using 40 mm plate, that nevertheless would be swifter at 22 km/h by fitting a 120 hp engine. The weight however should rise only from 14 to 15.5 metric tonnes, made possible by using welded instead of riveted armour plate. On 14 April the plan was approved and in May Louis Renault was contacted, who agreed to develop this type as the Char D2, together with a colonial tank, theChar D3, which would closely resemble its sister project.

To introduce the new welding technique entailed hiring foreign experts, which was very expensive. Renault insisted that the costs would be paid in advance by the French Army, which however had no corresponding budget available. On 8 December 1931 the deadlock was broken by a new agreement: Renault would first build a prototype with a riveted hull, the Renault UZ, which was delivered in April 1932. First the type was tested in Rueil; in May 1933 field tests were carried out by 503e RCC. The type was accepted for production, which decision was affirmed by the Conseil Consultatif de l'Armement on 12 December 1933.

At that moment however, Germany had just left the League of Nations altogether, making the limitation talks irrelevant, from which then France retired also. Existing plans to produce 750 Char D2s, 150 per year for the period 1935-1939, (six hundred to equip twelve battalions and 150 as a matériel reserve) were immediately reduced. On 14 January 1934 the High Command confirmed only the plan of a first production order of fifty. All these decisions were taken on the basis of experience gained with the riveted prototype, though it was well understood that from it no firm conclusions could be drawn on the quality of the intended welded type.

Meanwhile two welded prototypes had been ordered in December 1932. These were finished in August 1933, but only delivered in November. From December 1934 till the summer of 1935 the Commission de Vincennes used the three available prototypes to test different engine configurations. The riveted hull was equipped with a 120 hp petrol engine; the other two with diesel engines. These were rejected in favour of the petrol engine even though its combination with the intended welded hull had not yet been tested.

Nevertheless on 29 December 1934 the order of fifty hulls was granted to Renault, at a price of 410,000 French Francs per piece. The turrets were produced separately. First the ST3 turret (Schneider Tourelle 3) had been tested in 1933; then it was considered to use the ST2, then seen as a possible standard turret for all heavier tanks, but finally a choice was made for theAPX1, originally developed for the Char B1, costing ₣ 200,000 which brought the unit price to ₣ 610,000. The fifty vehicles were only delivered from May 1936.

Due to this delay a planned second order of a hundred, to bring total production to 150, to be made in 1935, was cancelled. It had been assumed that the lighter Char D2 could be quickly produced as an interim type, to speed the formation of the first Infantry armoured division of the Infantry.

Description

In essence the Char D2 is an improved Char D1. The different turret type used, increases its height somewhat to 266.6 centimetres; the hull is 175.5 centimetres high. The length of the hull, without tail, is 546 centimetres; its width is reduced to 222.3 centimetres through the use of a narrower track, 35 centimetres wide. The suspension is largely identical but the top rollers, to which a tension wheel is added, are placed somewhat higher to prevent track resonance, a persistent problem with the Char D1. The armour plate covering the three vertical coil springs consists of six instead of eight panels; mud-chutes are added below each top roller. There are three bogies per side, each with four road wheels, a coil spring and two shock absorbers. In front, and at the back below the sprocket, there is a tension wheel with its own damper; identical to the road wheels proper they bring the total number of such wheels to fourteen. Another change are the fenders with large stowage bins that give the false impression to be part of the main armour.

The production vehicles use far less welded sections than at first intended. To reduce the price, Renault has opted to implement a novel construction technique, using large flat screws, serving both as bolts and, applied heated, as rivets, attaching the main armour plates to each other by means of thin connecting steel strips. This way no internal girders, forming a real chassis, are needed. The armour plates are 40 mm thick.

Like with the Char D1 there is a crew of three, but the radio-telegraphy operator is sitting to the right of the driver instead of the commander, and the antenna, of the ER52 set, has been moved to a position next to him. To make room a hull machine-gun is absent. This new configuration had been demanded to create a roomier fighting compartment. Two command vehicles, series numbers 2016 and 2049, have a second antenna on the left to serve their ER51 long range set. The engine power has increased considerably to 150 hp by installing a Renault V-6 9.5 litres motor, but as the weight has increased to 19.75 (just below the twenty tonne limit) instead of the intended 15.5 metric tonnes, the gain in maximum speed is limited to 23 km/h. The gear box has four speeds. Four fuel tanks together holding 352 litres allow for a range of a hundred kilometres. The wading capacity is 120 centimetres, a trench of 210 centimetres can be crossed, an obstacle eighty centimetres high or a slope of 50% climbed. The hull has a fixed 7.5 mm machine-gun low in the glacis on the right side.

The commander is the sole occupant of the APX1 turret, acting also as gunner and loader for the 47 mm SA34 gun, which has a limited anti-tank capacity, and the optionally coaxial 7.5 mm Châtellerault machine-gun. The gun could fire two types of ammunition: a HE (High Explosive) called the Obus D with a shell weight of 1250 gramme and a muzzle velocity of 490 m/s; and an APHE (Armoured Piercing High Explosive), the Obus B Modèle 1932, with a shell weight of 1410 gramme, an explosive charge of 142 gramme and a muzzle velocity of 480 m/s. It rendered an armour penetration of just about 25 millimetres at a distance of a hundred metres, barely enough to be effective against light armoured vehicles.

Specifications
Weight	19.75 metric tonnes
Length	5.46 m
Width	2.22 m
Height	2.66 m
Crew	three
Armor	40 mm
Main armament	47mm SA34 Gun, later models 47mm SA35 Gun
Secondary armament	2x 7.5 mm MG
Engine	Renault 6-cyl petrol 150 hp
Suspension	vertical springs
Operational range	100 km
Speed	23 km/h

Source : Wikipedia

T-54/T-55 Medium Tank

The T-54 and T-55 tanks are a series of main battle tanks (according to some sources) although not recognised medium tanks (the very concept of "main battle tanks" was applied only to tanks beginning with T-64A, armed with 125-mm tank gun) that were designed in the Soviet Union. The first T-54 prototype appeared in March 1945, just as the Second World War ended. The T-54 entered full production in 1947 and became the main tank for armored units of the Soviet Army, armies of the Warsaw Pact countries, and others. T-54s and T-55s were involved in many of the world's armed conflicts during the late 20th and early 21st century.

as MBT by Soviet and Russian sources, instead classifying them as

The T-54/55 series eventually became the most-produced tank in history. Estimated production numbers for the series range from 86,000 to 100,000. They were replaced by the T-62, T-64, T-72, T-80, and T-90 in the Soviet and Russian Armies, but remain in use by up to 50 other armies worldwide, some having received sophisticated retrofitting.

Soviet tanks never directly faced their NATO Cold War adversaries in Europe. However, the T-54/55's first appearance in the West in 1960 spurred the United States to develop the M60 Patton.

T-54

Production of the initial series of T-54s began slowly as 1,490 modifications were made. The Red Army received a tank that was superior to World War II designs and theoretically better than the newest tanks of potential opponents. The 100 mm gun fired BR-412 series full-calibre APHE ammunition, which had superior penetration capability compared to the T-34 that it replaced.

The serial production version, designated T-54-1, differed from the second T-54 prototype. It had thicker hull armour (80 mm on the sides, 30 mm on the roof and 20 mm on the bottom). As production ramped up, quality problems emerged. Production was stopped and an improved T-54-2 (Ob'yekt 137R) version was designed. Several changes were made and a new turret was fitted. The new dome-shaped turret with flat sides was inspired by the turret from the IS-3 heavy tank; it is similar to the later T-54 turret but with a distinctive overhang at the rear. It also had a shorter bustle. The fender machine guns were removed in favour of a single bow-mounted machine gun. The transmission was modernized and the track was widened to 580 mm. The T-54-2 entered production in 1949, at Stalin Ural Tank Factory No. 183 (Uralvagonzavod). In 1951, a second modernization was made, designated T-54-3 (Ob'yekt 137Sh), which had a new turret without side undercuts, as well as the new TSh-2-22 telescopic gunner's sight instead of the TSh-20. The tank featured the TDA smoke generating system. A command version was built, the T-54K (komandirskiy), with a second R-113 radio.

T-54A and T-54B

In the beginning of 1950s, the personnel of the OKB-520 design bureau of the Stalin Ural Tank Factory No. 183 (Uralvagonzavod) had been changed considerably. Morozov was replaced by Kolesnikow, who in turn was replaced by Leonid N. Kartsev in March 1953. The first decision of the new designer was to fit the 100 mm D-10T tank gun with the STP-1 "Gorizont" vertical stabilizer. The new tank gun received the designation D-10TG and was fitted into the T-54's turret. The new tank received night vision equipment for the driver and was designated T-54A (Ob'yekt 137G). Originally, this had a small muzzle counter-weight, which was later replaced with a fume extractor. It was equipped with an OPVT wading snorkel, the TSh-2A-22 telescopic sight, TVN-1 infrared driver's periscope and IR headlight, a new R-113 radio, multi-stage engine air filter and radiator controls for improved engine performance, an electrical oil pump, a bilge pump, an automatic fire extinguisher and extra fuel tanks. The tank officially entered production in 1954 and service in 1955. It served as a basis for T-54AK command tank, with additional R-112 radio set (front line tanks were equipped with R-113 radio set), TNA-2 navigational device, ammunition load for the main gun decreased by 5 rounds and the AB-1-P/30 charging unit, which was produced in small numbers. In October 1954 a T-54A tank, designated as T-54M (Ob'yekt 139) served as a testbed for new D-54T and D-54TS 100 mm smoothbore guns and "Raduga" and "Molniya" stabilization systems, which were later used in the T-62. These were not completely successful, so further T-55 development continued to use the D-10 series guns. It was fitted with V-54-6 engine developing 581 hp (433 kW). It never went into production.

A new version, based on T-54A, designated T-54B (Ob'yekt 137G2), was designed in 1955. It was fitted with a new 100 mm D-10T2S tank gun with STP-2 "Tsyklon" 2-plane stabilizer. It entered production in 1957. During the last four months of production, the new tanks were equipped with an L-2 "Luna" infrared searchlight and TPN-1-22-11 IR gunner's sight, and OU-3 IR commander's searchlight. Modern APFSDS ammunition was developed, dramatically enhancing the penetrative performance of the gun to keep it competitive with NATO armor developments. T-54B served as the basis for T-54BK command tank which had exactly the same additional equipment as the T-54AK command tank.

T-55

Trials with nuclear weapons showed that a T-54 could survive a 2–15 kt nuclear charge at a range of more than 300 metres (980 ft) from the epicenter, but the crew only had a chance of surviving at 700 metres (2,300 ft). It was decided to create an NBC (nuclear, biological, and chemical) protection system which would start working 0.3 seconds after detecting gamma radiation.

The task of creating a basic PAZ (Protivoatomnaya Zashchita) NBC protection system offering protection against the blast of a nuclear explosion and (radioactive) particulate filtration, but not against external gamma radiation or gas, was given to the KB-60 design bureau in Kharkov and was completed in 1956. The documentation was sent to Uralvagonzavod. It was decided to increase the tank's battle capabilities by changing the tank's construction and introducing new production technologies. Many of those changes were initially tested on the T-54M (Ob'yekt 139). The tank was fitted with the new V-55 12-cylinder 4-stroke one-chamber 38.88 litre water-cooled diesel engine developing 581 hp (433 kW). Greater engine power was accomplished by increasing the pressure of the fuel delivery and charging degree. The designers planned to introduce a heating system for the engine compartment and MC-1 diesel fuel filter. The engine was to be started pneumatically with the use of an AK-150S charger and an electric starter. This eliminated the need for the tank to carry a tank filled with air. To allow easier access during maintenance and repairs, it was decided to change hatches over the engine compartment. To increase the operational range, 300 litres (66 imp gal; 79 US gal) fuel tanks were added to the front of the hull, increasing the overall fuel capacity to 680 litres (150 imp gal; 180 US gal). 

The ammunition load for the main gun was increased from 34 to 45, with 18 shells stored in so called "wet containers" located in hull fuel tanks (the concept for which came from Kartsev's cancelled Ob'yekt 140. The ammunition load included high explosive-fragmentation and anti-tank rounds and designers also planned to introduce the BK5M HEAT rounds which penetrated 390 millimetres (15 in) thick armour. The TPKU commander's vision device was replaced by either the TPKUB or TPKU-2B. The gunner received a TNP-165 vision device. The loader's hatch-mounted 12.7 mm DShK anti-aircraft heavy machine gun was dropped, because it was deemed worthless against high-performance jets. The tank was supposed to be equipped with the "Rosa" fire protection system. The tank had a thicker turret casting and the improved two-plane gun stabilization system from the T-54B, as well as night vision fighting equipment. To balance the weight of the new equipment, the armour on the back of the hull was thinned slightly.

The T-55 was significantly superior to the IS-2 Heavy Tank in all respects, including the rate of fire of the gun (at least four compared to less than three rounds per minute). Despite somewhat thinner frontal turret armour (200 millimetres (7.9 in) instead of 250 millimetres (9.8 in)) it compared favourably with the IS-3, thanks to its improved antitank gun and better mobility. Heavy tanks soon fell from favour, with only 350 IS-3s produced. The old model of highly mobile medium tanks and heavily armoured heavy tanks was replaced by a new paradigm: the "main battle tank". Parallel developments in the West would produce similar results. Katsev combined all the ongoing improvements being offered, or planned, on the T-54 into one design. This became the Ob'yect 155, and entered production at Uralvagonzavod 1 January 1958 as the T-55. It was accepted for service with the Red Army on 8 May. It suffered a significant lapse in one area: there was no antiaircraft machinegun, which had been present on the T-54.

After 1959, it served as a basis for the T-55K command tank which was equipped with an additional R-112 radio set, an AB-1-P/30 fuel powered accumulator charging unit, and TPN-1-22-11 night vision sight. All this additional equipment made it necessary to decrease the ammunition load for the main gun to 37 rounds and eliminate the bow machine gun. In the beginning of the 1960s, a T-55K was experimentally fitted with a Uran TV relay apparatus for battlefield surveillance. The tank was fitted with an external camera, the picture from which was relayed to a receiver in a BTR-50PU command vehicle. There was an observation camera mounted on a folding mast which was in turn mounted on a UAZ 69 car. The range within which the picture could be relayed varied between 10 and 30 kilometres (6.2 and 19 mi).

In 1961, a T-55 tank was used to test the "Almaz" TV complex which was supposed to replace the standard observation devices right after a nuclear explosion or while fording a body of water. There was a camera mounted on the hull for the driver and two cameras mounted on the turret, one for aiming and one for observation, and the picture from the cameras was relayed to two control screens. The tank had the front hull fuel tanks and bow machine gun removed. The commander was seated in the driver's usual position while the driver sat next to him. The cameras allowed battlefield observation and firing during daytime at ranges between 1.5 and 2 kilometres (0.93 and 1.2 mi). Because of the low quality of the equipment, the trials gave negative results. In the beginning of the 1960s, the OKB-29 design bureau in Omsk was working on adapting the tank to use a GTD-3T gas turbine engine developing 700 hp (522 kW). One T-55 tank fitted with this gas turbine engine passed trials but was deemed unsatisfactory and the design did not go into production.

The Omsk OKB-29 group tested three experimental T-55 tanks (designated Ob'yekt 612) between 1962 and 1965 that were fitted with an automatic gearbox controlled by electro-hydraulic systems. The trials found that such gearboxes were prone to frequent breakdowns in tanks. At the same time the Ob'yekt 155ML, a T-55 fitted with a launcher for three 9M14 "Malyutka" (NATO code: AT-3 Sagger) ATGMs mounted on the rear of the turret, was tested. Along with standard tanks a flamethrower-armed version was designed (designated TO-55 (Ob'yekt 482)), which was produced until 1962. It was fitted with 460 litre tanks filled with flammable liquid instead of the frontal hull fuel tanks. The flamethrower replaced the coaxial machine gun. This was a much better way to mount a flamethrower than in the experimental Ob'yekt 483, based on the T-54 tank, where the flamethrower replaced the main gun. TO-55 flamethrower tanks were withdrawn from service in 1993.

During the 1950s, the T-55 remained a significantly smaller and lighter tank than its NATO contemporaries—the U.S. M48 Patton and the British Centurion—while maintaining good firepower and reliability but light armor. The 100-mm D-10T tank gun had a larger bore than its Western counterparts.

In January 1945, some captured German tanks and vehicles were shipped to the Ordnance Research and Development Center, Aberdeen, Maryland, for tests and examination. The criteria for penetration in the tests was for at least fifty percent of the mass of the projectile to penetrate the armor. The M3 90 mm gun, firing the most widely equipped T33 armor-piercing round penetrated roughly 6 inches (150 mm) of steel armor at 100 metres (330 ft), while the T30E16 HVAP round penetrated 10.5 inches (270 mm) at the same range. These tests were carried out before the T-54/55 tank entered production, so it was not known how the popular 90 mm gun on the M46, M47, M48 and other western tanks would perform against the armour of the post-World War II Soviet tanks.

The data shows that the T33 AP round would fail to penetrate the frontal armour of the T-54/55 at any range, while the T30E16 HVAP round would only be able to penetrate the armour within 700 metres (2,300 ft). The T33 round could penetrate the side armour of the turret at about 800 metres, while the T30E16 HVAP round could do this at any practical range.The most popular anti-armor round the Soviets used for the D-10 tank gun was the 100 mm BR-412 APHE, first used on the SU-100 tank destroyer during World War II with an 80% probability of penetrating 135 millimetres (5.3 in) of steel armour at 1,000 metres (3,300 ft) fired from the D-10S tank gun. The BR-412D and BR-412B rounds developed in 1946–1950 had slightly superior performance over the 90 mm T33 and the M82 armor-piercing rounds.

This disadvantage lasted until the Soviet tanks began to be surpassed by newer Western developments like the M60 Main Battle Tank and upgraded Centurions and M48 Pattons using the 105 mm rifled Royal Ordnance L7 gun. Due to the low velocity of rounds from the 100 mm gun, and the tank's simple fire-control system, the T-54/55 was forced to rely on HEAT shaped-charge ammunition to engage tanks at long range well into the 1960s, despite the relative inaccuracy of this ammunition at long ranges. The Soviets considered this acceptable for a potential European conflict, until the development of composite armor began reducing the effectiveness of HEAT warheads and sabot rounds were developed for the D-10T gun.

Specifications (T-55)
Weight	36 tonnes (39.7 ST)
Length	6.45 m
Width	3.37 m
Height	2.40 m
Crew	4
Armour	hull front 100 mm @60°, turret front 205 mm (rounded), hull side 80 mm @0°, lower hull side 20 mm @0°, turret side 130 mm (rounded), hull rear 60 mm @0°, turret rear 60 mm (rounded), hull top 33-16 mm, turret top 30 mm, hull floor 20 mm
Main armament	D-10T 100 mm rifled gun
Secondary armament	7.62 mm SGMT coaxial machine gun, (12.7 mm DShK heavy machine gun)
Engine	Model V-55(V-54) V-12 water-cooled. 38.88-l diesel 581 hp (433 kW)
Power/weight	14.6 hp/tonne
Transmission	Mechanical synchromesh, 5 forward, 1 reverse gears
Suspension	Torsion bar
Ground clearance	0.425 m
Fuel capacity	580 l internal, 320 l external (less on early T54), 400 l jettisonable rear drums
Speed	48 km/h (30 mph)

Source : Wikipedia

Type 97 Chi-Ha Medium Tank

The Type 97 Chi-Ha  (九七式中戦車 チハ Kyunana-shiki chu-sensha chiha)  was a medium tank used by the Imperial Japanese Army during theSecond Sino-Japanese War, the Battles of Khalkhin Gol against theSoviet Union, and the Second World War. It was the most widely produced Japanese medium tank of World War II, although the armor protection was considered as average in the 1930s.^[2] The 57 mm main gun, designed for infantry support, was a carry over from the 1933 Type 89 medium tank. Later it was replaced by a 47 mm gun that was more effective against armor. The 170 hp Mitsubishi engine was a capable engine for the tank in 1938,^[2] and – notably for the time – it was an air cooled diesel. After 1941, the tank was less effective than most Alliedtank designs.

The Type 97's low silhouette and semicircular radio antenna on theturret distinguished the tank from its contemporaries. The crudesuspension was derived from the Type 95 Ha-Go light tank, but used six road wheels instead of four.

History and Development

With the Type 89 Chi-Ro fast becoming obsolete in the late 1930s, the Imperial Japanese Army (IJA) began a program to develop a replacement tank for infantry support. Experience during the invasion of Manchuria determined that the Type 89 was too slow to keep up withmotorized infantry. The new medium tank was intended to be a scaled-up four-man version of the Type 95 Ha-Go light tank, although with a two-man turret, thicker armor, and more power to maintain performance.

The Tokyo factory of Mitsubishi Heavy Industries completed a prototype designated Chi-Ha. The second prototype was completed in June 1937. Although the requirement was for a 47 mm cannon, it retained the same short-barreled 57 mm cannon as the Type 89B tank.

However, at the time IJA was more interested in the lighter Chi-Ni prototype proposed by Osaka Army Arsenal, because it was less expensive and had the same 57 mm gun.

The Second Sino-Japanese War broke out on 7 July 1937. Peacetime budgetary limitations were removed, and the more expensive Mitsubishi Chi-Ha model was accepted as a new Type 97 medium tank.

Design

Type 97 hull was of riveted construction with the engine in the rear compartment. In the forward compartment, the driver sat on the right, and bow gunner on the left.The commander's cupola was placed atop the turret. Internal communications were by 12 push buttons in the turret, connected to 12 lights and a buzzer near the driver.

The Type 97 was initially equipped with a Type 97 57 mm main gun, the same caliber as that used for the earlier Type 89 I-Go tank. The cannon was a short-barreled weapon with a relatively low muzzle velocity, but sufficient as the tank was intended primarily for infantry support. The gun had no elevation gear.

The tank carried two 7.7 mm Type 97 machine guns, one on the front left of the hull and the other in a ball mount on the rear of the turret. The latter could not be remounted on top of the turret for anti-aircraft use.^{[citation needed]} The turret was capable of full 360-degree traverse, but the main gun had a second pair of trunnions, internally allowing a maximum 10-degree traverse^{[citation needed]} independently of the turret.

The thickest armor used was 33 mm on the gun mantlet and 26 mm on the turret sides.

Power was provided by an air-cooled "V-12 21.7 liter diesel Mitsubishi SA12200VD" engine, which provided 170 hp (127 kW).

Production

The Type 97 medium tank was manufactured by Mitsubishi Heavy Industries (1,224 units) and Hitachi Industries (355 units), as well as some limited production in the Army's Sagami Arsenal. A total of 2,123 vehicles was constructed from 1938 to 1943, of which 1,162 units were the standard Type 97 and 930 units were the improved Type 97-kai version. The remainder were various specialized variants produced in small numbers.

The number of Type 97 medium tanks produced was slightly lower than of the Type 95 Ha-Go light tanks, but larger than any other tank fielded by Empire of Japan. The following numbers of units were produced each year:

Type 97 tank (57 mm gun):

• 1938: 110
• 1939: 202
• 1940: 315
• 1941: 507
• 1942: 28
• Total: 1,162

Type 97-Kai tank. (47 mm gun):

• 1942: 503
• 1943: 427
• Total: 930

Total production of the 57 mm & 47 mm gun Type 97 medium tanks was 2,092. Although production peaked in 1943 it was the last year any Type 97 was produced, as factories switched to the new tank designs, most notably the Type 1 Chi-He.

Specifications (Type 97 Chi-Ha as of 1941)
Weight	15 tonnes (14.76 tons)
Length	5.50 m (18 ft 1 in)
Width	2.34 m (7 ft 8 in)
Height	2.33 m (7 ft 8 in)
Crew	4
Armor	8–26 mm (33 mm on gun mantlet)
Main armament	Type 97 57 mm Tank Gun
Secondary armament	2 × 7.7 mm Type 97 machine guns
Engine	Mitsubishi SA12200VD air-cooled V-12 diesel (21.7 litres) 170 hp (127 kW) at 2,000 rpm
Power/weight	11.3 hp/tonne
Suspension	Bell crank
Operational range	210 km (130 mi)
Speed	38 km/h (24 mph)

Source : Wikipedia

Type 59 Medium Tank

The Type 59 (Chinese industrial designation: WZ-120) main battle tank is a Chinese produced version of the Soviet T-54A tank, the earliest model of the ubiquitous T-54/55 series. The first vehicles were produced in 1958 and it was accepted into service in 1959, with serial production beginning in 1963. Approximately 9,500 of the tanks were produced by the time production ended in 1980 with approximately 5,500 serving with the Chinese armed forces. The tank formed the backbone of the Chinese People's Liberation Army until early 2000s (decade) with an estimated 5,000 of the later Type 59-I and Type 59-II variants in service in 2002.

The Type 59 was modified several times during its service with the replacement of the 100 mm Type 59 rifled gun with a 105 mm rifled gun. It was also the basis of several later Chinese tank designs including the Type 69 and Type 79 tanks.

Essentially the Type 59 is identical to the early production Soviet T-54As, however there are some key differences. The Type 59 was not originally fitted with the infrared searchlight or main gun stabilization of the T-54.

The Type 59 has a conventional post-war layout with the fighting compartment at the front, an engine compartment at the rear, and a cast dome-shaped gun turret in the centre of the hull. The hull is welded steel varying in thickness between 99 mm on the front lower glacis to 20 mm on the hull floor. The turret varies from 39–100 mm thick.

The driver sits in the front left of the hull, and is provided with hatch immediately above his seat, which opens to the left. The driver has two pop-up vision blocks which give coverage ahead and slightly to the right when buttoned up. The commander sits in the turret along with the gunner and loader. The commander's hatch is on the turret left, with the gunner sitting forward and below him. The loader sits on the right of the turret and has a hatch above him. The turret has a non-rotating floor, which complicated the crew's operations.

The turret mounts a rifled 100 mm Type 59 cannon, for which 34 rounds are typically carried. A Type 59T 7.62 mm machine gun is mounted coaxially with the main gun. A Type 54 12.7 mm anti-aircraft machine gun (a Chinese copy of the Russian 12.7 mm M1938/46 DShKM^[3]) is provided above the gunner's hatch for which 200 rounds is carried. Additionally a Type 59T 7.62 mm bow machine gun is provided for the driver, which fires through a very small hole in the center of the glacis. 3,500 rounds of 7.62 mm ammunition are normally carried.

The turret has a powered traverse mechanism that is probably comparable to the T-54 traverse mechanism which can rotate the turret through 360 degrees in 21 seconds. Very early models of the Type 59 gun had manual elevation gear, later replaced with a powered system which allowed the gun to be aimed at between +17 and -4 degrees (the average depression for Western tanks is -10, which allows for better usage of hull-down tactics). Later models added vertical stabilization to make firing on the move practical. An infrared searchlight based night vision system was retrofitted to the tank with infrared periscope for the commander gunner and driver.

The tank is powered by a Model 12150L V-12 liquid cooled diesel engine, which develops 520 horsepower at 2,000 rpm. The engine feeds a manual gearbox with five forward and one reverse gear. A total of 815 litres of diesel can be carried internally in the tank, with a further 400 litres carried externally giving a maximum road range of 600 kilometers, or approximately 430 km using only internal fuel. The tank has five road wheels on each side with a prominent gap between the first and second road wheel. The track is driven by a drive sprocket at the rear, with an idler at the front. It is notable that there are no return rollers. The suspension is a torsion bar system. Engine exhaust is on the left fender.

Ammunition is stored inside the turret, which increases the odds of a catastrophic secondary explosion should the tank's interior be penetrated by enemy fire. Crew survivability is hence low.

Specifications
Weight	36 tonnes (35 long tons; 40 short tons)
Length	6.04 metres (19.8 ft) (hull)
Width	3.27 metres (10.7 ft)
Height	2.59 metres (8 ft 6 in)
Crew	4
Armor	20 - 203 mm
Main armament	100 mm rifled gun
Secondary armament	2 x Type 59T 7.62 mm coaxial machine gun,[3] Type 54 12.7 mm air-defence machine gun
Engine	Model 12150L V-12 liquid cooled diesel 520 hp (390 kW)
Power/weight	14.44 hp/tonne
Suspension	torsion bar
Operational range	450 km,600 km with external tanks
Speed	50 kilometres per hour (31 mph)

Source : Wikipedia

Panzer IV Medium Tanks

The Panzerkampfwagen IV (Pz.Kpfw. IV), commonly known as thePanzer IV, was a German medium tank developed in the late 1930s and used extensively during the Second World War. Its ordnance inventory designation was Sd.Kfz. 161.

Designed as an infantry-support tank, the Panzer IV was not originally intended to engage enemy armor—that function was performed by the lighter Panzer III. However, with the flaws of pre-war doctrine becoming apparent and in the face of Soviet T-34 tanks, the Panzer IV soon assumed the tank-fighting role of its increasingly obsolete cousin. The most widely manufactured and deployed German tank of the Second World War, the Panzer IV was used as the base for many other fighting vehicles, including the Sturmgeschütz IV assault gun, Jagdpanzer IVtank destroyer, the Wirbelwind self-propelled anti-aircraft weapon, and the Brummbär self-propelled gun.

Robust and reliable, it saw service in all combat theaters involving Germany and has the distinction of being the only German tank to remain in continuous production throughout the war, with over 8800 produced between 1936 and 1945. Upgrades and design modifications, often made in response to the appearance of new Allied tanks, extended its service life. Generally, these involved increasing the Panzer IV's armor protection or upgrading its weapons, although during the last months of the war with Germany's pressing need for rapid replacement of losses, design changes also included retrograde measures to simplify and speed manufacture.

The Panzer IV was the most widely exported tank in German service, with around 300 sold to partners such as Finland, Romania, Spain and Bulgaria. After the war, seeking to improve its armored forces, Syria procured PzKpfw IV from France and Czechoslovakia, which were to see combat in the 1967 Six-Day War.

Specifications (Pz IV Ausf H, 1943)
Weight	25.0 tonnes (27.6 short tons; 24.6long tons)
Length	5.92 metres (19 ft 5 in) 7.02 metres (23 ft 0 in) gun forward
Width	2.88 m (9 ft 5 in)
Height	2.68 m (8 ft 10 in)
Crew	5 (commander, gunner, loader, driver, radio operator/bow machine-gunner)
Armour	10–88 mm (0.39–3.5 in) (w/ armour skirts)
Main armament	7.5 cm (2.95 in) KwK 40 L/48 main gun (87 rds.)
Secondary armament	2 × 7.92 mm Maschinengewehr 34 Panzerlauf (3,150 rds.)
Engine	12-cylinder Maybach HL 120 TRM V12 300 PS (296 hp, 220 kW)
Power/weight	12 PS/t
Transmission	(Synchromesh ZF SSG 77) 6 forward and 1 reverse ratios
Suspension	Leaf spring
Fuel capacity	470 l (120 US gal)
Operational range	200 km (120 mi)
Speed	42 km/h (26 mph) road, 16 km/h (9.9 mph) off road

Source : Wikipedia