German armored fighting vehicle production during World War II


This article lists production figures for German armored fighting vehicles during the World War II era. Vehicles include tanks, self-propelled artillery, assault guns and tank destroyers.
Where figures for production in 1939 are given, they refer to September 1939 onwards; that is, they only count wartime production.

Total production

Pre-war1939194019411942194319441945WartimeTotal
Panzer I1,893--------1,893
Panzer II1,2231599265848803151-2,1813,404
Panzer 38781533676786521,0082,3561,3356,5496,627
Panzer III981571,0542,2132,9583,3794,7521,13615,64915,747
Panzer IV210453684679943,8226,6251,09013,31113,522
Panzer V Panther-----1,8494,0037056,5576,557
Panzer VI E Tiger I----78649641-1,3681,368
Panzer VI B Tiger II-----1428140569569
Elefant-----90--9090
Total3,5023701,8883,6235,53011,60118,9564,40646,27449,777

Notes:
Pre-war: 1,893 hulls had been produced. 1,867 were fitted with turrets, and the rest used as command vehicles. These lightly armed and armoured tanks were intended as training vehicles, but were used in combat as the war came sooner than the military men had anticipated.

Panzer II

Pre-war: 1,223.
1939194019411942194319441945Total
Panzer II159223302777-633
Panzer IIF "Flamingo"-904223---155
Marder II---511212--723
Wespe----514144-658
Sturmpanzer II---12---12
Total1599265848803151-2,181

Variants:
Pre-war: 78.
1939194019411942194319441945Total
Panzer 38153367678198---1,396
Marder III Sd.Kfz. 138---110783323-1,216
Marder III Sd.Kfz. 139---344---344
Grille----225346-571
Jagdpanzer 38 "Hetzer"-----1,6871,3353,022
Total1533676786521,0082,3561,3356,549

Variants:
Pre-war: 98.
1939194019411942194319441945Total
Panzer III A-F157396-----553
Panzer III G-J-4661,673251---2,390
Panzer III J/1-M---1,90764--1,971
Panzer III N---450250--700
Panzer III ----100--100
Sturmgeschütz III A-E-19254093---825
Sturmgeschütz III F-G---6953,0113,849*1,0388,593
StuH 42---12204903981,217
Total1571,0542,2132,9583,3794,7521,13615,649

* not including 173 converted Panzer III.
Totals do not include any Panzer III N models as these were converted from 3, 447, 213 and 37 other Panzer III variants.
Variants:
Pre-war: 211.
1939194019411942194319441945Total
Panzer IV A-F145268467124---904
Panzer IV F2-J---8703,0133,1263857,394
Sturmgeschütz IV----301,0061051,141
Jagdpanzer IV-----769-769
Jagdpanzer IV/70-----7674411,208
Sturmpanzer IV----6621517298
Hornisse----34513316494
Hummel----36828957714
Möbelwagen-----20535240
Wirbelwind-----1006106
Ostwind-----152843
Total452684679943,8226,6251,09013,311

Variants:
The Panzer IV was originally armed with a low-velocity 75 mm L/24 gun. In 1942 this was upgraded to a 75 mm L/43 gun, and in 1943 to a 75 mm L/48 gun. For the purposes of the above table, both these guns are classed as "long" and displayed on the same row.

Panzer V (Panther)

194319441945Total
Panther1,8483,7775076,132
Jagdpanther1226198425
Total1,8494,0037056,557

Variants:
Notes:
1943
Elefant Sd.Kfz. 18490

Notes:
During WW2, Germany produced:
German manufacturing of tanks began in 1934, in violation of the Treaty of Versailles. German industry had not produced arms in many years, and time was required to develop the necessary techniques for hardening steel and for the development of tooling to produce arms. The first tank type produced was the two-man, air-cooled Pz I light tank, designed and produced by the Krupp works as a training vehicle. It was not designed for use in combat; instead, the main battle tank of the German army was to be the Panzer III but delays in its development and manufacture led to the production of an interim vehicle, the liquid-cooled Panzer II, which began production the following year. It was not clear yet how tanks would be used in the next war, nor was it apparent that tank-versus-tank combat would be important; some military theorists envisioned tanks operating in support of infantry. The cavalry arm of the Heer saw the major function of tanks to be that of reconnaissance. This was in marked conflict with the ideas of the armoured warfare proponents of Germany, chiefly Heinz Guderian, Wilhelm Ritter von Thoma, and Walther von Reichenau. It was not until 1937–38 that the first Panzer III and Panzer IV medium tanks began to appear.
Noting that Germany was the third largest producer of automobiles in the world, Guderian projected that Germany would be competitive with its major adversaries, a rather optimistic projection since Germany had great difficulty replacing vehicle losses throughout the war, the United States had been considered a non-combatant, and it ignored Soviet production capacity.
Early in development the Heer settled on the concept of the tank having a commander who was in radio communication with his superiors. Thus the basic design of the main battle tanks called for a larger turret that would house the tank commander, gunner and loader, while a driver and a machine gunner were down in the hull. Guderian insisted on the tank commander being in radio communication with both his platoon and with the members of his own tank crew. Though the Panzer III was conceived as the main battle tank of the Wehrmacht, the Wehrmacht did not anticipate being at war with Europe's major powers in 1939, and few were available at the start of the war. Excluding Czech-built tanks, on 1 September 1939 the invasion of Poland was undertaken with the German armoured force of 3,195 tanks evenly split between the Pz I training tank and the Pz II light tank; of the main battle tanks, only 98 Pz IIIs were in service during the invasion of Poland, along with 211 Pz IVs, with 215 tanks of various models also available as command tanks after being modified by having their main armament removed and extra communications equipment installed.

Manufacturing Control

The production of tanks in Germany began in 1934. Due to the insertion of the Nazi Party into the procurement process and political considerations that had nothing to do with the goal of providing arms for the military, the companies that ended up gaining the contracts for tank production had limited actual experience in mass production. Ford and Opel, two manufacturers with considerable knowledge and ability in assembly line techniques, were not allowed to participate in the bidding process. Germany in general and the German tank production industry in particular was not prepared for the total war that Germany was entering in 1939. In contrast to the Messerschmitt 109 fighter aircraft, which was designed by Willy Messerschmitt with the production of large numbers of the aircraft in mind, tank design and production in Germany in 1939 was the work of a craftsman. German industry anticipated supporting the military in brief conflicts. A full commitment to war production was not made until the midpoint in the conflict. Surprisingly, civilian vehicle production was not set aside till 1943. By contrast, the United States halted production of civilian automobiles within two months of its entry into the war in late 1941, with autoplants converted to military-only production of arms, munitions, trucks, tanks and planes.
In the run up to the outbreak of war, the large companies engaged in tank production did not have space set aside for expanding their production lines. In consequence, unlike allied manufacturers, German tank manufacturers never came to a point where they were stock piling and storing excess finished products. Though these companies did expand with the increased demand of the ongoing war, it was not until the assignment of Albert Speer as Minister of Armaments that true efforts were made to bring mass production techniques to the German tank production industry.
During the period before the war, all companies with the exception of Alkett were privately owned stock companies with the stock available for purchase by the public. All these companies, with the exception again of Alkett, produced tanks in addition to their normal peacetime manufacture of trucks, locomotives, and other heavy equipment. From 1935 onward, the government progressively increased its control over industries engaged in rearmament. The Nazi Party's Four Year Plan introduced in 1936 placed Hermann Göring in leadership of the state's efforts to bring industry into state control. Through threat and coercion Göring was able to expand the Nazi Party's control of private industry involved in steel and armament production. By 1938, this control included the rationing of essential raw materials, factory inventories, labor hours, rates of pay, working conditions, building and machine tool expansion, plant locations and stock dividends. All companies were forced to join the Economic Board of the tank industry which handled all questions affecting the industry.

Location of German tank manufacturing industry

The tank manufacturing industry in Germany was not concentrated in any one geographic location. Major plants were located in Nurnberg, Kassel, Brunswick, Magdeburg, and Berlin. There was, however, some geographical concentration of tank component manufacturers, such as engines and gears in Friedrichshafen, hulls, turrets, and guns in the Ruhr, rubber treads in Hanover, and instruments in Berlin. These locations, if interdicted, represented a potential choke point to German tank manufacturing.

German tank problem

During the course of the war the Allies made sustained efforts to determine the extent of German productivity, and approached this in two major ways: conventional intelligence gathering and statistical estimation. In many cases statistical analysis substantially improved on conventional intelligence. In some cases conventional intelligence was used in conjunction with statistical methods, as was the case in estimation of Panther tank production just prior to D-Day.
The allied command structure had thought the Panther tanks seen in Italy were an unusual heavy tank, and would only be seen in northern France in small numbers, much the same way as the Tiger I was seen in Tunisia. The US Army was confident that the Sherman tank would perform well against the German Panzer Mk III and IV tanks which they expected to meet. Shortly before D-Day, rumors indicated that large numbers of Panther tanks were being used in the panzer divisions.
To ascertain if this were true the Allies attempted to estimate the number of Panther tanks being produced. To do this they made use of the serial numbers printed on captured or destroyed German tanks. The principal numbers used were gearbox numbers, as these fell in two unbroken sequences. Chassis and engine numbers were also used, though their use was more complicated. Various other components were used to cross-check the analysis. Similar analyses were done on tires, which were known to be sequentially numbered. The analysis of Panther tank wheels yielded an estimate for the number of wheel molds that were in use. A discussion with British road wheel makers then allowed the estimation of the number of wheels that could be produced from this many molds. This in turn yielded the total number of Panthers that were being produced each month. Analysis of road wheels from the two tanks obtained yielded an estimate of 270 Panthers produced in February 1944 alone, substantially more than had previously been suspected.
German records after the war showed production for the month of February 1944 was 276. The statistical approach proved to be far more accurate than conventional intelligence methods, and the phrase "German tank problem" became accepted as a descriptor for the statistical analysis used.