Kingdom of Hungary (1938)
Fighter Aircraft – 4 aircraft operated
Despite being not adopted for service by the German Luftwaffe, the He 112 had great potential as an export aircraft. Spain, Romania, and Japan were some of the countries that got their hands on fighter aircraft. Hungary, with its close ties to Germany, also wanted this fighter in its inventory, though it was not to be. Unfortunately for them, despite their efforts, only a few of these aircraft would ever see service with their Air Force. This was mainly due to the reluctance of Germany to provide the necessary parts and licenses, and the start of the Second World War. The few aircraft that did reach Hungary were mainly used for crew training and even saw limited combat use.
A brief He 112 history
Prior to the Second World War, the Luftwaffe was in need of a new and modern fighter to replace the older biplanes that were in service, such as the Arado Ar 68 and Heinkel He 51. For this reason, in May 1934, the RLM issued a competition for a new, modern fighter plane. While four companies responded to this request, only the designs from Heinkel and Messerschmitt were deemed sufficient. The Heinkel He 112 was a good design that offered generally acceptable flight characteristics and possessed a good foundation for further improvements. The Bf 109 on the other hand, had slightly better overall flight performance and was much simpler and cheaper to build. Given the fact that the Germans were attempting to accelerate the production of the new fighter, that alone was seen as a huge advantage over the He 112. Ultimately it would not be accepted for service, and only 100 or so aircraft would be built. These would be mainly sold abroad, with those remaining in Germany being used for various testing and evaluation purposes.
While the He 112 project was canceled by the RLM, to compensate for the huge investment in resources, Heinkel was permitted to export this aircraft. A number of countries such as Austria, Japan, Romania, and Finland showed interest, but only a few actually managed to procure this aircraft, and even then, only in limited numbers.
Hungarian Interest in the He 112
Being that it was on the losing side of the First World War, the Hungarians were in a similar situation to Germany in regard to military restrictions under the Treaty of Versailles. Crucially, it prohibited the Hungarians from developing their air forces. In time though, the Allies became less and less involved in maintaining the Treaty, and the Hungarians began slowly rebuilding their air force. By 1938 the Magyar Királyi Honvéd Légierő MKHL (English: Royal Hungarian Home Defence Air Force) was openly presented to the world. At that time, the Hungarians undertook steps to rebuild their armed forces in the hope of reclaiming some of their lost territories. For a modern air force, they needed better fighter designs, as their aged biplanes would not be sufficient. By 1938, they had improved their relations with Germany, and it was then possible to acquire new equipment from them.
The Hungarian military delegation that was in Spain during the civil war observed the relatively new Heinkel He 112 fighter in action and immediately became interested in it. In June 1938, a military group disguised as a civilian delegation visited Heinkel’s company. Three Hungarian pilots had the chance to flight test the He 112V9 aircraft. They were highly impressed and urged the Hungarian Army officials to adopt this aircraft. Unsurprisingly, based on the glowing report, the Hadügyminisztérium (Ministry of War Affairs) asked Heinkel for 36 such aircraft.
Unfortunately for them, Heinkel never actually put the He 112 into mass production, given the fact that it was not adopted for service with the German Air Force. It did, however, build a small series that was intended for Spain and Japan. The Hungarian offer was not considered as important, and thus no aircraft would be delivered to them. The Reichsluftfahrtministerium RLM (English: German Ministry of Aviation) also intentionally delayed the delivery of weapons to Hungary. This was done to politically and economically pressure the Hungarians and Romanians who were on the brink of war at that time, in an attempt to reduce tensions.
Still, the Hungarians persisted, and at the start of 1939, they requested again for the 36 aircraft, and once again, the Germans denied this request. However, a single He 112 V9 was given to Hungary and was used for flight testing near Budapest. On the 5th of February 1939, it crashed during a test flight against a CR-32 biplane fighter. In March 1939, another aircraft was sent to Hungary, this one being a He 112 B-1. It was extensively tested by the Hungarians who generally liked its design.
As the Romanians acquired a batch of 24 He 112 In 1939, the Hungarians were concerned over their neighbor’s growing military strength. Realizing that the Germans would not deliver the promised aircraft, they decided to ask for a production license instead. This was granted, and Heinkel also delivered two more He 112 B-1 with the Jumo 210E engine. When the license document arrived in Hungary in May 1939, a production order for the 12 first aircraft was given to the Weiss Manfréd aircraft manufacturer. Several changes were made, including the installation of 8 mm 39.M machine guns and the addition of bombing racks. In addition, the original 2 cm cannons were to be replaced by the Hungarian, domestically built, Danuvla 39, though it is unclear if any were actually installed. As the preparation for the production was underway the three available He 112 were adopted to service. This received coded designation V.301 to 303 where the V stands for Vadász (English: Fighter).
Despite the best Hungarian attempts to put the He 112 in production, the situation was made impossible by the coming war between Poland and Germany. The RLM would officially prohibit the export of any German aircraft engines and equipment at the start of the war. This meant that the vital delivery of the Jumo 210 and DB 601 engines could not be made. Based on this fact, all work on the Hungarian He 112 was canceled. Instead, Weiss Manfréd investigated to see if it could reuse most of the He 112 production line to produce a new domestic design named WM–23 Ezüst Nyíl(English: Silver arrow). While one prototype was built it was lost in an accident which ended the project.
In Combat
In the Summer of 1940, the rising tension between Romania and Hungary over Transylvania reached a critical point. Transylvania was once part of Hungary but was lost after the First World War when it was given to Romania. By 1940, the Hungarian Army began preparing for a possible war with Romania over the territory. As neither side was willing to enter a hastily prepared war, negotiations began to find a possible solution. But despite this, there were some minor skirmishes, and Hungarian aircraft made several reconnaissance flights over Romania. The three Hungarian He 112 were stationed near the border, and the Romanians also had some He 112 in their inventory. While the Hungarian He 112’s did take up to the sky, no combat action by them was reported. Ultimately, at the end of August, Romania asked Germany to arbitrate the issue regarding the disputed territory, With Hungary being given the northern part of Transylvania in the settlement.
During the Axis invasion of Yugoslavia in April 1940, Hungary once again mobilized its He 112s. These were stationed near the border with Yugoslavia but they were not used in any combat operations.
By the time the Axis attacked the Soviet Union in June 1941 all three He 112 were used as training aircraft, with their secondary role being to protect the Weiss Manfréd factory. Due to a lack of spare parts, there was no point in sending this aircraft to the frontline. Two aircraft were involved in a landing accident where they were damaged. While their final fate is not completely clear, they may have been destroyed in 1944 when the Allies intensified their bombing campaign against Hungary. It is unlikely that the He 112s were operational at this point.
Technical Characteristics
The He 112 was an all-metal, single-engine fighter. The monocoque fuselage consisted of a metal base covered by riveted stress metal sheets. The wing was slightly gulled, with the wingtips bending upward, but otherwise had a conventional construction.
During its development life, a great number of different engines were tested on the He 112. For the main production version, the He 112 B-2, it carried a 700 hp Jumo 210G liquid-cooled engine, with some others being equipped with the 680 hp Jumo 210E engine. The He 112 had a fuel capacity of 101 liters in two wing-mounted tanks, with a third 115-liter tank placed under the pilot’s seat.
The landing gear was more or less standard in design. It consisted of two larger landing wheels that retracted into the wings and one semi-retractable tail wheel. The He 112 landing gear was wide enough to provide good ground handling and stability during take-off or landing.
The cockpit received a number of modifications. Initially, it was open with a simple windshield placed in front of the pilot, with Later models having a sliding canopy.
The armament was changed throughout the He 112’s production, and the last series was equipped with two 7.92 mm MG 17 machine guns and two 2 cm MG FF cannons. The ammunition load for each machine gun was 500, with 60 rounds for each of the cannons. If needed, two bomb racks could be placed under the wings.
Conclusion
The He 112, although few in number, provided the Hungarian Air Force with one of its first modern fighter aircraft. Despite the Hungarian attempts to acquire over 30 aircraft from Germany, this was never achieved. In the end, the Hungarians only had three operational He 112, and one was lost in an accident during testing. While these were stationed on the front line on two occasions they never saw actual combat action. By 1941 due to a lack of spare parts, they were allocated for training purposes. The Hungarians eventually got a production license for the Messerschmitt Bf 109G making the few available He 112 unnecessary.
He 112B-1 Specifications
Wingspans
29 ft 10 in / 9.1 m
Length
30 ft 2 in / 9.22 m
Height
12 ft 7 in / 3.82 m
Wing Area
180 ft² / 17 m²
Engine
One r 680 hp Jumo 210E liquid-cooled engine
Empty Weight
3,570 lbs / 1,620 kg
Maximum Take-off Weight
4,960 lbs / 2,250 kg
Climb Rate to 6 km
In 10 minutes
Maximum Speed
317 mph / 510 km/h
Cruising speed
300 mph / 484 km/h
Range
715 miles / 1,150 km
Maximum Service Ceiling
31,170 ft / 9,500 m
Crew
1 pilot
Armament
Two 20 mm (1.8 in) cannons and two machine guns 8 mm (0.31 in) machine guns and 60 kg bombs
Credits
Article written by Marko P.
Edited by Henry H.
Ported by Marko P.
Illustrated By Godzilla
Illustrations
Source:
Duško N. (2008) Naoružanje Drugog Svetsko Rata-Nemаčaka. Beograd
G. Punka (1994) Hungarian Air Force, Squadron Publication
J. R. Smith and A. L. Kay (1990) German Aircraft of the Second World War, Putnam
D. Monday (2006) The Hamlyn Concise Guide To Axis Aircraft OF World War II, Bounty Books
D. Bernard (1996) Heinkel He 112 in Action, Signal Publication
R.S. Hirsch, U, Feist and H. J. Nowarra (1967) Heinkel 100, 112, Aero Publisher
C. Chants (2007) Aircraft of World War II, Grange Books
S. Renner. (2016) Broken Wings The Hungarian Air Force, 1918-45, Indiana University Press
Kingdom of Hungary (1939)
Fighter Aircraft – One prototype
In their search for a new fighter, the Magyar Királyi Honvéd Légierő MKHL (English: Royal Hungarian Home Defence Air Force), approached the Germans for help. Initially, a deal was made with the German Heinkel company for the delivery of new He 112 fighters and a production license. However, nothing came of this deal, which led to the Hungarians attempting to develop their own fighter, partially based on the He 112.
The He 112 In Hungary
In the late 1930s, the Hungarian Air Force was slowly in the process of rebuilding its combat strength by the acquisition of new aircraft. For a modern air force, they needed better fighter designs, which they were then seriously lacking. Luckily for them, they began to improve their relations with Germany, so it was possible to acquire new equipment from them. In June 1938, a Hungarian delegation was sent to the Heinkel company, and the pilots that accompanied this delegation had a chance to fly the He 112 fighter. This aircraft was Heinkel’s response to the Reichsluftfahrtministerium’s (English: German Ministry of Aviation) request for a new fighter. While generally a good design, it ultimately lost to Messerschmitt Bf 109. While the He 112 project was canceled by the RLM, to compensate for the huge investment in resources and time to it, Heinkel was permitted to export this aircraft to foreign buyers. Several countries such as Austria, Japan, Romania, and Finland showed interest, but only a few actually managed to procure this aircraft, and even then, only in limited numbers.
The Hungarians were impressed with the He 112 and placed an order for 36 such aircraft. For a number of logistical and political reasons, the decision to sell these aircraft to Hungary was delayed. A single He 112 was given to Hungary in February for evaluation but was lost on its first flight. Realizing that the Germans would not deliver the promised aircraft, the Hungarians instead decided to ask for a license. This was granted and Heinkel also delivered two more He 112 B-1s. When the license arrived in Hungary in May 1939, a production order for the 12 first aircraft was given to Weiss Manfréd aircraft manufacturer.
A New Fighter
Despite the best Hungarian attempts to put the He 112 in production, this was prevented by the war between Poland and Germany. At the start of the Second World War, RLM officially prohibited the export of any German aircraft engines and equipment. This meant that the vital Jumo 210 and DB 601 engines would not be available. Based on this fact, all work on the Hungarian He 112 had to be canceled.
As the Hungarians had the license for the He 112, some parts could still be domestically produced. In essence, this offered the Hungarians the chance to develop a new fighter, based on the He 112 blueprints. Not wanting to waste this opportunity, the Hungarian Ministry of War Affairs issued a directive to commence developing a new domestic fighter by reusing some components from the He 112. The whole project was undertaken by WM’s own chief designer Bela Samu, who began development in early 1939. To speed up development, the He 112 wing design was copied, but given the comparatively underdeveloped Hungarian aircraft industry, the wing was to be built of wooden materials instead of metal, as it was on the He 112. Other differences included using an oval-section fuselage, different armament, a new engine, and a cockpit redesign.
The first prototype was completed quickly by the end of 1939. In its prototype stage, the aircraft was painted in a light gray livery, earning it the nickname Ezüst Nyíl (English: Silver arrow) from the personnel that worked on it. Once it was issued to the Air Force for testing, it received the standard Hungarian camouflage scheme, and the designation V/501 was also allocated to it. The maiden test flight was undertaken close to Budapest on the 23rd of February 1940. The flight proved successful and a maximum speed of 530 km/h (330 mph) at a height of 5 km (16.400 ft) was achieved. Some issues were detected, the most problematic proved to be the strong vibration caused by the exhaust system. Despite this, the project development pressed on.
Short Service Life
Despite the time and effort put into the project, it all went for nothing as the prototype was lost in an accident in February, or April, depending on the source, 1942. During a test flight at high speeds, one of the ailerons simply broke off. The pilot lost control of the aircraft and had to bail out. The uncontrolled plane hit the ground and was utterly destroyed, and with it, the whole project was canceled.
Beyond this major setback, another reason why this project was canceled was the start of the license production of the German Bf 109G fighter. It was much easier, and faster, to commence production of this aircraft, thanks to German technical support, than to completely develop new tooling and equipment for the WM 23.
Technical Characteristics
The WM 23 was a mixed-construction single-engine fighter heavily inspired by the German He 112. Given its somewhat obscure nature, not much is mentioned in the sources about its overall construction. Given the urgency of the project, instead of the monocoque fuselage, the Hungarian engineers decided to use a simpler oval-section fuselage which consisted of welded steel tubes and then covered with plywood. The wings, as mentioned, were taken from the He 112, but had one huge difference, being made of wood, including its control surfaces.
The landing gear was another part more or less taken directly from the He 112. They consisted of two larger landing wheels that retracted into the wings, and one semi-retractable tail wheel. But based on the photographic evidence, their overall design changed during the prototype’s development. On the prototype, possibly at an early stage, a V-shaped front landing gear strut was used. This was later replaced by a large single-leg landing gear. The cockpit was equipped with a sliding canopy that slid to the rear.
The WM 23 was powered by a 1,030 hp WM K-14B (sometimes marked as 14/B) engine. This engine was developed based on the license of the French Gnome and Rhone 14K engine, a fourteen-cylinder radial engine equipped with a single-stage, single-speed supercharger. As mentioned, during the fifth test maximum achieved speed was 530 km/h (330 mph).
While the prototype was never fitted with an offensive armament, the Hungarians had plans for a potential armament In the wing, two 8 mm (0.33 in) machine guns were to be installed. In addition, two 12.7 mm (0.5 in) heavy machine guns were to be added atop the engine compartment. Lastly it was to have a payload of two 20 kg bombs (44 lbs).
Conclusion
The WM 23 was an interesting Hungarian attempt to domestically develop and build a fighter aircraft that was greatly influenced by the He 112. It showed to be a promising design, with the prospect of entering serial production. However, the loss of the single prototype put an end to this project. By 1942, the Hungarians simply did not have the time to start over again with the WM 23, so they abandoned it in favor of the license production of the German Bf 109G.
WM 23 prototype Specifications
Wingspans
31 ft 5 in / 9.6 m
Length
29 ft 10 in / 9.1 m
Height
10 ft 9 in / 3.3 m
Wing Area
199 ft² / 18.5 m²
Engine
One 1,030 hp strong WM K-14B
Empty Weight
4,850 lbs / 2,200 kg
Maximum Take-off Weight
5,733 lbs / 2,600 kg
Maximum Speed
330 mph / 530 km/h
Crew
1 pilot
Proposed Armament
Two 12.7 mm (0.5 in) heavy machine guns and two machine guns 8 mm (0.33 in) machine guns plus a bomb load of 20 kg (44 lbs)
Credits
Article written by Marko P.
Edited by Henry H.
Ported by Marko P.
Illustrated By Carpaticus
Illustrations
Source:
D. Monday (2006) The Hamlyn Concise Guide To Axis Aircraft OF World War II, Bounty Books
D. Bernard (1996) Heinkel He 112 in Action, Signal Publication
G. Punka, Hungarian Air Force, Signal Publication
R.S. Hirsch, U, Feist and H. J. Nowarra (1967) Heinkel 100, 112, Aero Publisher
C. Chants (2007) Aircraft of World War II, Grange Books
J. R. Smith and A. L. Kay (1990) German Aircraft of the Second World War, Putnam
Kingdom of Hungary (1938)
Reconnaissance Aircraft & Light Bomber – 128 Built
The Hungarian Aviation industry was rather small in scope in comparison to many in Europe. Regardless, it managed to introduce a number of domestic development projects. One of these was the Weiss Manfréd from WM 21, a two-seat reconnaissance aircraft of which some 128 were produced during the Second World War.
History
In the years after the First World War, Hungary was strictly forbidden from developing combat aircraft. To overcome this limitation, the Hungarians did what the Germans did and began developing a civil aircraft industry to help gain valuable experience in aircraft design. One of these companies that would emerge during the late 1920s was Weiss Manfréd, from Csepel near Budapest. In 1928 this company began working on the design and construction of gliders and engines.
Due to an initial lack of funds, the Hungarian Air Force was forced to rely on foreign aircraft that were bought in relatively small numbers. For example, by 1937 Hungarians had only around 255 operational aircraft. To help gain more experience, Weiss Manfrédfrom began producing Fokker F.VIII and C.V aircraft under license. When sufficient funds and experience were gained, Weiss Manfrédfrom engineers in 1935 began working on a new reconnaissance biplane design. They decided on a simple design, reusing some components that were already in production, and it would be a further development of the already produced WM 16 model, which was heavily based on the D version of the Fokker C.V.
When the prototype of the new short-range reconnaissance aircraft, WM 21 “Sólyom” (Falcon) was completed, it was presented to Hungarian Air Force officials, who were generally satisfied with its performance and gave an order for some 36 WM 21 in 1938. At that time, massive funds were being allocated to the development of the aircraft industry. In addition, Hungarian Air Force officials wanted to decentralize aircraft production. For this reason, the WM 21 was to be built by various other companies, including twelve to be built by MÁVAG and MWG
It was estimated that the production would commence during April and March 1939. It took longer to do so, with the first aircraft being available at the end of 1939. While the aircraft was slowly put into production, the Hungarian Air Force asked for more aircraft to be built.
In Combat
The WM 21 was primarily designed as a reconnaissance aircraft but due to a general lack of other aircraft types, it would be adopted for other roles. Its first combat use was during the so-called Transylvanian Crisis. Namely, in June 1940 Hungarian government demanded that Romania return the Transylvania region to them. Since it looked like war was coming, Hungarian Air Force began relocating its aircraft close to the Romanian border. Thanks to the commencement of negotiations, no war broke out. But by late August the Hungarians ordered a complete mobilization as the negotiation led nowhere.
Germany did not want to lose its vital Romanian oil supply and forced both countries to begin new negotiations under German and Italian supervision. While the negotiations were underway, some smaller air skirmishes occurred. On the 27th of August, a Romanian He 112 attacked a Hungarian Ca 135 aircraft, which was heavily damaged and one crew member was killed. The following day a WM-21 piloted by Captain János Gyenesin, dropped bombs on the Romain Szatmárnémeti airfield in retaliation for the lost airman. On its way back it crash-landed, damaging the aircraft. In the end, Hungary emerged as the victor, gaining large territorial concessions over the Romanians.
When the April War broke out on the 6th of April 1941, between the Kingdom of Yugoslavia and the Axis, the Hungarians joined the offensive. They employed their 1st Air Brigade which had some 60 aircraft. By the 17th of April, the war was over, and the Hungarian Air Force had lost 6 aircraft including one WM 21.
On the 26th of June 1941, the Hungarian town of Kassa was bombed by three aircraft. The circumstance of this incident is not clear even to this day, but the Hungarian government asserted that it was a Soviet attack. The decision was made to declare war on the Soviet Union as a response. For the initial operation in the war against the Soviets, the Hungarian Air Force allocated 25 bombers (Ju 86 and Ca 135), 18 CR 42 fighters, and the 8th and 10th reconnaissance squadrons each equipped with 9 WM 21.
By 1942 most WM 21’s were allocated for use by training schools and as liaisons. Some would be used in later years for anti-partisan operations. By the end of the war, some WM 21 pilots managed to reach Austria where they hoped to surrender to the Western Allies.
Technical Characteristics
The WM 21 was a mixed-construction, biplane aircraft, designed to fulfill multiple roles. The fuselage and the wings were of metal construction which was covered in fabric. The lower and the upper wings were connected with each other by one “N” shaped metal strut on each side. In addition, there were two “V” shaped metal brackets that were connected with the fuselage and the upper wing. Lastly, there were two larger metal struts on each side that connected the landing gears to the top wing.
The landing gear consisted of two fixed road wheels and a rear-positioned landing skid. Partly-covered front wheels were connected to the aircraft fuselage by three large metal bins.
Initially, the WM 21 was powered by an 870 hp Weiss WM K-14A radial piston engine. With this engine, the WM 21 could reach a maximum speed of 320 km/h. Later produced aircraft were equipped with a stronger 1,000 hp WM K-14B engine. With this engine, the maximum speed was increased to 380 km/h.
The pilot and the observer/machine gunner were placed in two separate open cockpits, the front for the pilot, and the rear for the observer. For better downward visibility the observer was provided with two fairly large glass panels, placed just under him on both fuselage sides.
The WM 21 was armed with two forward-firing 7.92 mm Gebauer machine guns. One additional defensive machine gun was placed in a flexible mount which was installed in the rear cockpit. Additionally, the offensive capabilities of the aircraft could be increased by adding bombs. The bomb bay was placed between the two crew members. To release the bomb the crews would use a release mechanism. The bomb load could consist either of 12 10kg anti-personnel bombs, or 60 1kg incendiary bombs. Later versions increased the bomb load to around 300 kg.
Production and Modifications
The WM 21 was produced in four small series. When the production ended in 1942 some 128 aircraft would be constructed. While designed by Manfred Weiss, this factory produced only 25 aircraft. The MAVAG produced 43 with the 60 being built by MWG. Due to the relatively low production numbers, only one modification of the original aircraft was ever made:
WM 21A – Powered with an 870 hp Weiss WM K-14A engine,
WM 21B – Slightly improved version powered by 1.000 hp WM K-14B engine
Conclusion
The WM 21 was a Hungarian reconnaissance aircraft that would see service on several different fronts. While initially used in its intended role, it quickly became obsolete and was allocated to secondary missions, as a training aircraft or for liaison missions. Due to a lack of adequate aircraft, some WM 21would even see service as combat aircraft against Partisans forces, mostly in the Soviet Union.
WM-21A Specifications
Wingspan
12.9 m / 42 ft 4 in
Length
9.65 m / 31 ft 8 in
Height
3.5 m / 11 ft 5 in
Wing Area
32.75 m² / 352.53 ft²
Engine
One 870 hp (649 kW) Weiss WM K-14A radial piston engine
Empty Weight
2,450 kg / 5,400 lb
Maximum Takeoff Weight
7,606 kg / 3,450 lb
Maximum Speed
320 km/h / 200 mph
Cruising Speed
275 km/h / 170 mph
Range
750 km / 466 mi
Maximum Service Ceiling
8,000m / 26,245 ft
Climb speed
Climb to 6,000 m (19,700 ft) in 7 minutes and 30 seconds
Crew
One pilot
Armament
Three 7.92mm machine guns
Total bomb load of some 100-300kg
Gallery
Credits
Written by: Marko P.
Edited by:
Illustrations by Carpaticus
Sources:
D. Monday (1984, 2006) The Hamlyn Concise Guide To Axis Aircraft Of World War II, Aerospace Publishing Ltd.
G. Sarhidai, G. Punka, and V. Kozlik (1996) Hungarian Eagles, Hikoki Publication
G. Punka (1994) Hungarian Air Force, Squadron Publication
S. Renner. (2016) Broken Wings The Hungarian Air Force, 1918-45, Indiana University Press
Kingdom of Hungary (1939)
Fighter aircraft – Number used: 70 brought and 185 to 203 built under license
Despite not being adopted by the Italian Air Force, the Re.2000 would see some export success. Hungary bought a production license and 70 new aircraft for its Air Force. These would be supplemented by locally produced planes, both of which would see action during the Second World War. In Hungarian service, the Re.2000 would be known under the ‘Héja’ (Hawk) nickname.
Hungarian-Italian cooperation
During 1939, Hungarian Air Force (Magyar Királyi Honvéd Légierő) military officials were concerned with the need of acquiring more modern aircraft designs. As, during the 1930s, Hungary was a regular customer of Italian aviation equipment and planes (like the Fiat CR.32, for example), it was logical for the Hungarian Air Force military officials to turn to Italy for the acquisition of new aircraft.
By the end of 1939, Hungary sent a military delegation to purchase 70 fighter and 70 bomber planes. The Italians presented a number of different designs to this delegation, which included the Re.2000, Savoia-Marchetti S.M.79, and Ca.135bis. After a demonstration, the Hungarians were satisfied with the Re.2000’s performance. On 27th December 1939, a contract for the purchase of 70 new aircraft of this type was signed. This contract also included weapons, spare parts, onboard equipment, and a small number of airframes. Radios were not bought, as the Hungarians planned to equip them with domestically built R-13 ones. In addition, a license for domestic production was also obtained. The domestic production of the Re.2000 was to be carried out by MAVAG (Magyar Állami Vas, Acél és Gépgyárak/ Hungarian State Iron and Steel Works). The Re.2000s built-in Hungary were to be powered by domestically produced W.M. (Weiss Manfred) K-14 engines. The Italians were to deliver the first specimens by 15th January 1940.
As there were delays with the shipment of the first planes, the Hungarian Air Force sent a new delegation in April 1940 to Italy to determine what the problem was. To their astonishment, only one Re.2000 had been completed by this time. The Reggiane factory could not produce more planes due to a constant lack of raw materials. This single plane was flown to Hungary in May 1940. In Hungarian service, the first Héja received the serial number V-401 or V.401 (the V stands for Vadász/fighter). The remaining Héjas supplied by the Italians received the serial numbers V-402 to 470.
By the end of 1940, only 7 Héjas had been delivered to Hungary. The slow delivery rate was due to the shortage of materials, but also due to the fact that the Italian Air Force confiscated 9 planes for their own use. These would later be replaced by 9 newly built aircraft. The sources are not clear when the last aircraft arrived in Hungary. According to Gianni C., this happened at the end of 1941, but according to George P., this was on 29th May 1943!
The name
As already mentioned, the Re.2000 was known in Hungary under the Héja nickname. The origin of this name can be traced back to the Italian name given to this plane, “Falco”. In some sources, possibly in order to distinguish between the Italian and Hungarian built planes, the first were marked as Héja I and those built-in Hungary as Héja II. This article will use these two designations (when the precise model is noted by sources) but, for the sake of simplicity, the Héja I will be simply called Héja.
In Hungary
As the first Italian built Héja planes began to arrive in Hungary, they were intended to be given to different pilot training schools. Immediately after the arrival of the Héjas, the Hungarians noted a number of technical or structural problems with these planes. A great issue was the poor state and design of the throttles. These faulty throttles caused a number of accidents, with one Héja being lost in a fire during a landing accident. This issue with the throttles, despite efforts from Hungarian engineers, could not be solved until the end of 1941. Other issues with the Héjas were the poor state of the machine guns, which often jammed during firing or were misaligned, the instability of the canopy panels, and the lower quality of the wing skin. All this caused the Hungarians to make many modifications to the Héja in order to put them into service.
The Hungarian Héja II
With the contract to purchase 70 new fighters, the Hungarians also bought a license for production. The production of new planes was to be done by MAVAG. In order to avoid being dependent on Italian engines and to lower the overall price of the Re.2000, the Hungarians decided to upgrade this fighter with a domestically built engine. The initially planned new engine was a radial 14-cylinder air-cooled WMK-14 giving out 950 hp (or 930 hp, depending on the source). This engine was, in fact, a license-built version of the Gnome-Rhône Mistral Major K 14. One WMK-14 engine was sent to Reggiane to be installed in a Re.2000 in order to see if this modification was possible, but also to test its performance. The Italians, on the other hand, were never interested in this idea and preferred to sell the Re.2000 with its original engine. Due to the low interest and slow production rate of the Re.2000, nothing came from the Hungarian proposal. For this reason, the Hungarians decided that MAVAG should make these modifications.
In order to improve the potential flight performance of the plane, the Hungarian Ministry of Defence decided to use the stronger WMK-14B 1085 hp engine. For this reason, the manufacturer, Weiss Manfred, was to produce 329 new WMK-14B engines, of which 247 were to be used on Héja’s and the other 82 as spare engines.
The first plane to be powered with this engine was the Héja (V-401) supplied by the Italians. It was modified by MAVAG and then tested. The tests were successful and the order for 100 Héja II was given. The production was to be divided into two batches, a first one of 25 planes and a second with 75 planes after the first one was completed.
The Italians sent the needed documents for the production of the Re.2000 to Hungary in October 1940, which caused some delays for the Héja II production run. The first operational Héja II was built in June 1941 and was successfully tested the same month. By this time, the Hungarians also obtained a license production for the German Me-109 fighter. This plane was much better than the Héja II, but it was estimated that the production of Me-109s in any larger numbers could not be achieved until 1943. For this reason, it was decided to continue Héja II production as a temporary solution.
The preparations for the production of the first 25 Héja IIs began in November 1941. Despite the extra spare parts and airframes supplied by the Italians, the start of production could take place immediately. The reason for this was the lack of proper machine tools and production capacities of MAVAG, but also due to various testing and modifications. The second Héja (V-402) was reequipped with the stronger engine for testing purposes. It was flight tested at the Experimental Institute near Csepel. After a series of test flights, some modifications were required, like improving throttle controls and modifying the rear tailwheel.
Production of the Héja II began only in July 1942. Immediately at the start of production, problems with the Reggiane fuel tank seal were noted. The Hungarian engineers simply replaced it with 22 smaller 20-25 l fuel tanks. To their surprise, this modification actually improved the Héja II’s stability during flight, as it reduced fuel sloshing in the tank. The production of the first 25 planes (with the modified fuel tanks) was completed by October 1942. Before the start of the second series of 75 aircraft, an order for 100 additional Héja IIs was placed. The last Héja II would be built in early March 1944. Officially, the Héja II was accepted for service in late September 1942 by the Hungarian Air Force.
A Héja II (V-495) from the first batch was tested by test pilot Tibor T. in March of 1943. The production of the later series was slowed down due to difficulties with obtaining necessary parts from abroad (due to the Italian capitulation and the desperate state of the German economy). In addition, the WM factory was bombed in early April 1944. The factory was almost completely destroyed, with the loss of nearly all equipment and spare parts. For this reason, the Hungarians were forced to stop the production of the WMK-14 engine. WM was finally destroyed in another bombing raid in July 1944. For this reason, the production of a group of nearly 30 new Héja IIs could not be completed.
Technical characteristics
The Héja I was a regular Re 2000, the characteristics of which will not be repeated.
The Héja II was a low wing, metal construction, single-seat fighter plane. The fuselage consisted of a round frame covered with metal sheets held in place by using flush-riveting. The Héja II wings had a semi-elliptical design, with five spars covered with stress skin. The original Re.2000 fuel tanks, placed in the central part of the wing, were replaced with 22 smaller 20-25 l fuel tanks. The wings were equipped with fabric-covered Frise type ailerons. The rear tail had a metal construction with the controls covered with fabric.
The landing gear system was unusual. When it retracted backward, it rotated 90° before it fell into the wheel bays. For better landing, the landing gear was provided with hydraulic shock absorbers and pneumatic brakes. The smaller rear wheel was also retractable and could be steered if needed.
The Héja II was powered by one WMK-14B 1085 hp engine. With the stronger engine, the Héja II could achieve a maximum speed of 323 mph (520 km/h). A larger 10.5 ft (3.2 m) Weiss Manfred three-bladed and hydraulically controlled variable pitch propeller were used. Due to the installation of the new engine, the front fuselage design had to be changed and extended by 1.3 ft (40 cm). As the new engine had a somewhat smaller diameter, the pilot front field of view was increased. In addition, the engine cowling design was changed.
The pilot cockpit canopy opened to the rear and gave a good overall view of the surroundings. The Hungarian Héja II was not originally provided with the 0.3 in (8 mm) thick armor plate placed behind the pilot seat. The Hungarians tested domestically built ones, but the results of these tests are not clear. Most interior equipment, except the radio, was provided by the Italians.
The two 0.5 in (12.7 mm) Breda-SAFAT heavy machine guns were replaced with Hungarian Gebauer MGs of the same caliber. The Gebauer gun had a firing rate of 1000 rounds per minute. The ammunition for each machine gun was 300 rounds stored in a box magazine. With the installation of these machine guns, the upper part of the front fuselage had to be redesigned.
During the war
With the German attack on the Soviet Union in June 1941, Hungary, together with other Axis allies, joined this offensive. For the attack on the Soviet Union in early August 1941, the Hungarians dispatched the Independent Fighter Group, which consisted of two fighter squadrons equipped with CR.42 planes. The first Héja fighter squadron with seven (or six, depending on the source) planes was formed on 7th August 1941. It was stationed at Sutyska airfield near Vinnytsia, in Ukraine. A few days later, it was moved to Pervomayks and was put in a fighter escort role for Hungarian bombers. The first operational mission was to escort a group of Ca.135 bombers in attacking Nikolayev on the 11th of August. The first air victories were achieved in late August when three Héja fighters engaged a group of five Soviet I-16 fighters near Dniepropetrovsk. The Hungarian fighters managed to shoot down three I-16s with no losses. By the end of August, the Héja fighters had made in 151 sorties with five achieved victories. The Héja would see action on the Eastern front up to late October 1941, when they were recalled to Hungary. One aircraft was lost during the flight back to Hungary when it crashed somewhere over the Carpathian mountains. During its first year of service, the Héja’s were mostly used in bomber escort and occasional ground attack missions. As most of the Soviet Air Force was destroyed early on, there were few air encounters with enemy planes. In total, three Héja were lost, with one additional being damaged.
In preparation for the new German campaign on the Eastern Front in 1942, the Hungarian Air Force formed the 1st Fighter Group. This Fighter Group had a Squadron equipped with 12 Héja fighter planes commanded by Colonel K Csukas. This Squadron was combat-ready by 5th July 1942. As there were cases of Germans mistaking the Héja for Soviets planes, one Héja and also a CR.42 were sent to several German airfields in order to familiarize German pilots with these planes. Initially, the Germans gave the Hungarian fighters the task of patrolling and escorting reconnaissance and bomber planes near the front. On 13th July, the Héjas were tasked with defending the ground forces concentrating for the attack on Soviet positions.
By the end of July 1942, a second unit equipped with 11 Héja was deployed to the front. Both Héja units were moved to Ilosvoskoye in early August. The first squadron was tasked with a bomber escort mission, while the second with a reconnaissance escort mission. The 1st Fighter Group was in really bad shape due to maintenance problems, with only four Héja being operational by the 8th of August. This forced the Hungarians to ask the Germans for fighter cover for their troops.
In early August 1942, the Héja fighters were hard-pressed to stop the increasing number of Soviet bombing raids into Axis lines. On 7th August, a Soviet IL-2 managed to shoot down a Héja fighter which crashed into the ground. On the same date, Héja fighters intercepted a group of three German He-111 bombers which were accidentally bombing Hungarian lines and managed to shoot down one.
On 20th August, while making a take-off from an airfield near Ilosvoskoye, István Horthy (son of Miklós Horthy) lost his life in an accident. Author Maurizio D. T. notes that the accident was possibly caused due to the installation of a 0.98 in (25 mm) thick armor plate behind the pilot seat. There are also claims that the plane was sabotaged by the Germans due the Miklós Horthy allegedly showing sympathy for the English people, but this is improbable. The Germans were in no position to sacrifice trained fighter pilots or planes. Horthy probably simply crashed due to a pilot error or miscalculation.
By late August, the 1st Fighter Group lost four planes either due to enemy action or accidents and six more were damaged but in a state that could be repaired. By the end of August, Héja pilots managed to shoot down five enemy aircraft, with three more in September. By October 1942, most Héja pilots were recalled to Hungary to begin training on the new Me-109 planes. The remaining 13 Héjas were used on the Eastern Front up to late December, with only six still being operational.
During the Soviet attack on Axis positions around Stalingrad, the Hungarians sent all available planes, including the few working Héja fighters, to stop these attacks. The following days, a pair of Héja fighters sent to escort German bombers were attacked by Soviet fighters but managed to escape. By 15th January, the Héja performed mostly escort missions. The surviving Héjas met their fate when they were destroyed by their crew in order to avoid being captured, as they could not make an escape due to the harsh Russian winter.
No improved Héja IIs were used on the Eastern Front, as these were kept in reserve. As a shipment of more advanced Me-109G arrived in Hungary from Germany in late 1943, the Héja was mostly used for training. But, due to the increase of Allied bombing runs, they were put into action for the defense of Hungary skies.
By March 1944, Germans sent forces to occupy Hungary, as there was information that Hungarian politicians were negotiating with the Soviets for an armistice. During this occupation, the Germans prevented any further work or training on the Héja II. In April, the Allies made major bombing raids against Hungarian factories. This affected the supply of new spare parts, but, despite this, a group of 30 newly built Héja II was tested in April.
During the Allied Bombing raid by the 15th Air Force on Budapest (13th April 1944), the P-38 escort fighters were attacked by a group of Héja II fighters. During this engagement, one Héja II was damaged. Another group of 8 Héja II was sent to support the defense of Budapest. Four of these attacked Allied bombers but, due to heavy defensive fire, the attack had to be aborted. Two Héja II fighters were damaged and one had to make an emergency landing. The second group of four fighters failed to reach the bombers but ran into a group of P-47s. After a short engagement, one Héja II was shot down and one was damaged.
Due to the lack of spare parts, some 30 Héja II fighters could not be completed. The Hungarians tried to salvage any parts from damaged aircraft, but this was insufficient. In December 1944, there were six operational planes with the training unit ‘Puma’ Fighter Wing. The last Héja II was lost in early 1945 in an accident.
Héja wartime improvements and modifications
Based on the front line experience, in order to provide the pilots with better protection, the Hungarians asked the Italians for the design blueprints of the Re.2000 and Re.2001 0.3 in (8 mm) armored plates. The Re.2001 version was preferred, as it was much lighter at 110 lbs (50 kg), while the Re.2000 one was heavier, at 200 lbs (90 kg). The Italians, for some reason, did not agree to give these blueprints, so the Hungarians were forced to develop their own design. Author Maurizio D. T. mentions that a 0.98 in (25 mm) armor plate was added behind the pilot seat, which affected plane performance.
An additional fuel tank with 100 l was added into the fuselage in order to increase the operational range. It was equipped with a self-sealing coating in order to avoid any fuel leaks which could lead to a fire accident.
In the late part of the war, two planes were modified and equipped with dive brakes and bomb racks for 550 lbs (250 kg) or 1100 lbs (500 kg), in order to be tested for use as dive bombers. For further testing, one additional Héja II was modified for this. The tests appear to have been unsuccessful, as no production order followed for this modification.
By the end of 1942, there were plans to form a Night Fighter Squadron equipped with German radio equipment. As the promised equipment never arrived, no such unit was ever formed.
Production
The production of the first Héja II began in July 1942, with the first 25 completed by October 1942. Before the start of the second series of 75 aircraft, an order for 100 additional Héja IIs was placed. The last Héja II would be built in early March 1944. Depending on the sources used, the production numbers are different. The numbers go from 185, 192 to 203 planes. The difference in number may be caused by the fact that some sources include also the last 30 unfinished airframes.
Héja I – 70 planes were purchased from the Italians
Héja II – Hungarian built version
Prototypes
Héja II dive bomber – Three Héja IIs were modified for the role of dive bombers but were not accepted for service
Héja II night fighter – There were plans to use the Héja II as a night fighter but due to the lack of necessary equipment no plane was ever used in this role.
Conclusion
The Héja provided the Hungarians with a much needed modern fighter plane. While it did see service, it was never used in any larger numbers due to problems with the delivery of new planes from Italy. Even when the improved Héja II was produced in Hungary, it was also plagued with slow production and distribution to combat units. By the time the Héja II was built in larger numbers, it was already outdated by late-war standards.
Héja II Specifications
Wingspans
36 ft 1 in / 11 m
Length
26 ft 6 in / 8.4 m
Height
10 ft 4 in / 3.15 m
Wing Area
220 ft² / 20.4 m²
Engine
One WMK-14B 1085 hp engine
Empty Weight
4560 lbs / 2.070 kg
Maximum Takeoff Weight
5550 lbs / 2,520 kg
Fuel Capacity
500 + 100 l
Climb to 6 km (19,700 ft)
6 minutes 10 seconds
Maximum Speed
323 mph / 520 km/h
Cruising speed
255 mph / 410 km/h
Range
560 mile / 900 km
Maximum Service Ceiling
25.700 ft / 8.140 m
Crew
1 pilot
Armament
Two 0.5 in (12.7 mm) heavy machine guns
Gallery
Heja, Illustration by Pavel Alexe
Heja II, Illustration by Pavel Alexe
Source
Nešić, D. (2008). Naoružanje Drugog Svetsko Rata-Italija. Beograd
David M. (2006). The Hamlyn Concise Guide To Axis Aircraft OF World War II, Bounty Books
Maurizio D.T. (2002). Reggiane RE 2000 Falco, Heja, J.20, Instituto Bibliografico Napoleone
G. Punka (1994), Hungarian Air Force, Signal Publications
George P. Reggiane Fighters In Action. Signal Publication
Jonathan T. (1963) Italian Civil And Military Aircraft 1930-1945, Aero Publisher
Gianni C. (1966) The Reggiane Re.2000, Profile Publication Ltd.
John F.B. (1972) Caproni Reggiane Re 2001 Falco II, Re 2002 Ariete and Re 2005 Sagittario, Profile Publications