Category Archives: Yugoslavia

Ikarus 453MW

Cold War, Yugoslavia, , ,

Yugoslavia flag Federal People’s Republic of Yugoslavia (1952)
Experimental Glider – 1 Prototype Built

The experimental Ikarus 453MW glider. [airwar.ru]
Following the end of the Second World War, the newly created Jugoslovenska Narodna Armija JNA (Yugoslav People’s Army) initiated a series of experimental aircraft design programs. These were intended for testing and gaining valuable experience in new jet propulsion technologies. From this initial work, an unusual new glider project, designated Ikarus 453MW, would emerge. Little is known about the purpose of this glider and its defined role.

The Unusual Glider

After the war, the once-proud Yugoslavian aviation industry was in ruin. Most of its firms had been either looted or destroyed, and many of the pre-war designers and engineers had been killed by the Germans during their retreat. The Allied bombing of Belgrade also inflicted further damage to the Yugoslavian industry’s infrastructure.  However, as the Yugoslav Partisans began liberating the country, some production facilities were slowly restored, as was the case with Ikarus in late 1944. The initial steps of the revitalization effort of the shattered Yugoslavia aviation industry were undertaken in late 1945 by the newly established Yugoslavian Air Force Command. A series of aircraft design teams were set up with the aim of creating a base for the new air force.

By the early 1950’s the overall situation changed to the extent that the Yugoslavian Army officials were ready to test various new technologies and designs. During this time, the Generalna Direkcija Vazduhoplovne Industrije GDVI (Directorate General of the Aviation Industry) led by Dragoljub Bešlin produced a series of experimental aircraft intended to test new design concepts. In 1952, work on an unusual inverted gull “M” shamed wing design began. The design team was also supported by the engineer Levačić. He was an experienced designer who worked with the British Royal Air Force during the war .

In the 1950s a series of experimental aircraft were produced including (from the left to the right side) Ikarus 452-2, 451M jet aircraft, and two prone-operated aircraft the Ikarus 451 and 232  acesflyinghigh.wordpress.com

The precise reasons for its commissioning and its history are not clear, but it appears that the Yugoslav army officials wanted to test a design that could offer a small and fast ground attack aircraft. When the design was ready, Ikarus was asked to construct the first glider prototype. If the glider design proved to have merit, the next step would be to equip this aircraft with a fully functional jet engine. It was designated the Ikarus 453MW, but it is also sometimes referred to as Р-453MW or GDVI-9. To avoid confusion this article will use the Ikarus 453MW designation. The MW  designation was used as the wings highly resemble these letters.

Technical Characteristics 

The Ikarus 453MW was a single-seat, mixed-construction experimental glider. Its fuselage was made of a metal base covered with metal sheets. The wings and tail assembly were made out of wood. The most noticeable characteristic of this glider was the use of unusual inverted gull m-shaped wings. The inverted gull wing design was used during the war by famous aircraft such as the German Ju 87 Stuka Japanese Aichi B7A and the American F4U Corsair. The Ikarus 453MW wings consisted of four parts. The part where the wings folded down was separated by two round-shaped gondolas. The wings were equipped with flaps and ailerons. The rear tail unit consisted of a simple rudder on the vertical stabilizer and did not have horizontal stabilizers.

The retractable landing gear consisted of four wheels. Two smaller wheels were located inside the fairly large wing gondolas. In the lower part of the fuselage, an additional and larger pair of landing wheels was located.

The cockpit was placed to the front of the central fuselage. The canopy was made of plexiglass but besides that, little is mentioned of the cockpit design.

While the experimental glider was unpowered, if successful it was planned to add two unspecified jet engines inside the wing gondolas.

 

The side and top drawing of the Ikarus 453MW. The wing design while unusual was not used on any other Yugoslavian aircraft design. Source: www.vazduhoplovnetradicijesrbije.rs
The Ikarus 453MW had a landing gear consisting of three landing wheels units. Two smaller ones are located in the wing gondolas and one in the central fuselage. Source: www.vazduhoplovnetradicijesrbije.rs

Testing and Cancellation of the Project

The Ikarus 453MW prototype was completed and ready for testing by November 1952. On the 28th of November, the first test flight was made by Metodije Bojković. The test flight was undertaken at the Batajnica Airfield near the capital of Belgrade. Unfortunately for all present, an accident occurred. During take-off, the glider veered off the runway. While the pilot was unharmed the glider was damaged and the test flight had to be temporarily postponed.

After repairs were made, additional aerodynamic wind testing was undertaken to test the overall design shape. As these proved satisfying, another test flight was to take place. The Ikarus 453MW was towed up to 3 km of altitude by an Ikarus 213 and then released. While the flight itself was without problems, another accident occurred during landing. After analysis of available data, it was concluded that the pilot was not to blame as he was not properly instructed on how to fly the Ikarus 453MW which had an unusual wing design. Following the second accident, an order was given by the Yugoslav Army officials to cancel the Ikarus 453MW project.

A Nuclear Carrier

Author  N. Đokić (Projektat Jugoslovenskog Strategijskog Bombardera) gives us an interesting reason for the Ikarus 453MW design. It is a generally lesser-known fact, but during this time, the JNA was highly interested in developing nuclear weapons. The JNA’s involvement in Yugoslavian nuclear research development is to this day still not completely clear. This source mentioned that according to some secret JNA documents, the Ikarus 453MW was intended to be an aircraft that could quickly deliver a nuclear warhead to enemy targets. For this reason, the final aircraft was to be able to carry one 2-ton nuclear warhead at a speed of 850 km/h. The operational range was to be some 2,000 km, and the maximum service ceiling was 11,000 meters. In the meantime, a contingent of F-84G jet aircraft was acquired from the United States. As these were capable of carrying nuclear weapons there was no need to further proceed with the Ikarus 453MW project.

Whether there is any truth to the nuclear weapons plans is difficult to determine. The JNA and the Yugoslavian political hierarchy were publicly known to be quite interested in developing nuclear capability. Of course, this would demand a massive amount of resources, highly trained personnel, and well-developed industrial capacity, all of which Yugoslavia simply lacked in these early years of its existence. Its industrial capacity and infrastructure were almost completely destroyed during the war, and it would likely, if at all possible, take decades of commitment and investment to actually build a nuclear weapon. Hypothetically, even if Yugoslavia was able to develop nuclear weapons in the following decades, all research and experience gained on the Ikarus 453 would be outdated by that time. In conclusion, it could not be ruled out that the JNA had overzealous and ambitious plans to test the concept of using a swift aircraft to deliver this weapon. In reality, Yugoslavia simply lacked any means to actually produce such weapons. Despite this, testing this unusual wing design, albeit in a limited manner, at least provided Yugoslav aircraft engineers with additional experience.

Surviving Model

While unfortunately the Ikarus 453MW glider was not preserved, a small model replica is on display at the Nikola Tesla Serbian Aviation Museum near Belgrade.

The Ikarus 453MW wooden replica is located in the Belgrade Aviation Museum. Source: www.vazduhoplovnetradicijesrbije.rs

Conclusion

The Ikarus 453MW was quite an interesting design mostly due to its unusual wing shape. Its overall history, especially the trials is somewhat obscure. While the prototype was involved in two accidents, this was not the fault of the design but rather poor communication with the pilot, who was not informed of its flight characteristics.

Specification Ikarus 453MW
Wingspan 7.5 m /  24 ft 7 in
Length 5.85 m / 19 ft 2  in
Height 2.01 m /  6 ft 7 in
Maximum Takeoff Weight 1,720 kg / 3,792lbs
Crew One pilot
Armament
  • None

 

Experimental Ikarus 453MW

Credits

  • Written by Marko P.
  • Edited by Henry H. & Ed J.
  • Illustrated by Carpaticus

Sources:

Modli J.M. 8

Cold War, Yugoslavia, , ,

Yugoslavia flag Yugoslavia (1939-1950)
Trainer – 2 Prototypes

The Modli-8 in use with the Yugoslav Aviation after the war. www.paluba.info

The Modli J.M. 8 was designed in the Kingdom of Yugoslavia, built by the Independent State of Croatia (NDH), and after World War II, operated by the Federal People’s Republic of Yugoslavia (FPRY). It was an inexpensive training aircraft that would be used in this role up to 1950.

The Beginning

The story of the Modli J.M. 8 began in 1938, when an aircraft engineer from the 1st Air Force Regiment (stationed at Novi Sad), Josip Modli, finished work on a new light training aircraft design. He originally intended to design and build a single seat trainer that was cheap and simple to manufacture by using mostly wood. He also intended to gain the interest of amateur aviators and aeroclubs with a low price. The J.M. 8 designation comes from the initials of the designer’s name. Due to its small size and low price, it earned the nickname Komarac/komaрац (Mosquito).

The following year, Modli actually began building this aircraft. He reused the small 18 hp engine taken from a damaged French HM.14 Pou du Ciel (Nebeska Vaš/Небеска Ваш in Serbian). Four had been bought from France in 1935 but, due to construction problems, their use was limited and all were damaged during test flights. One was tested at Novi Sad, where the 1st Air Force Regiment was stationed.

Modli reused the engine from a damaged HM.14 Pou du Ciel for his first prototype. Four of these small aircraft were bought from France. www.vazduhoplovnetradicijesrbije.rs

At that time, word of his design and work reached the Yugoslavian Air Force Headquarters. Headquarters then instructed (or ordered, depending on the sources) aircraft engineer Tišma, who was co-owner of the Albatros aircraft manufacturer from the cit of Sremska Mitrovica, to contact Modli. After short negotiations, Tišma and Modli reached an agreement that Albatros should finish the construction of the J.M. 8.  If the design received any mass production orders, Modli agreed to provide Albatros with a license for its production.

The J.M. 8 was completed in early 1941, with testing scheduled to begin in March. Due to bad weather, Albatros’ main airport at Ruma was flooded during March and early April, so no tests flights were conducted. During the outbreak of the April War (Axis invasion of Yugoslavia), all finished and partially constructed planes from Albatros were loaded on a train on the 10th of April. Because of the great confusion due to the outbreak of war and the lack of documentation, the fate of this train and its cargo is unknown to this day.

After the end of  the April War, the Serbian Air Force Commission made estimates of all unpaid pre-war designs, including the Modli J.M. 8, in order to arrange for future payments for military contracts. The commission, after analysis of the Modli J.M. 8 documentation, concluded that the aircraft did not meet any military requirements and was suitable for civilian use only.

Technical Characteristics 

The Modli J.M. 8 was designed as a single engined, high wing, mixed construction (but mostly wood) training aircraft. Its fuselage had a simple design made of plywood. The high wings and the rear tail were made of a wooden structure covered with fabric. For better flight controls, Modli used two modified Gottingen 426 longerons. The wings were connected to the fuselage with three “N” shaped metal bars on both sides and with two additional ones in the centre. The tail had a large rudder and elevators made of wood.

It was powered by the two cylinder Aubier & Dunne 18 hp engine. The engine compartment was covered with duralumin. The two-bladed propeller was made of walnut. A fuel tank with a capacity of 16 liters was placed in the center of the wing.

The Aubier & Dunne 18 hp engine was reused for the first prototype. Source: www.vazduhoplovnetradicijesrbije.rs

The landing gear was fixed, but was equipped with rubber shock absorbers for greater comfort and control during  landing. There was no rear wheel, being instead equipped with a small skid and shock absorber.

The pilot’s cockpit was fully open with a small windshield at the front. The cockpit had a simple design and was equipped with basic controls and instrumentation. These flight instruments included an airspeed indicator, fuel level, tachometer, and altimeter. As the first prototype was never adequately tested, details about its flying performance are not known.

During World War II

After the Yugoslavian capitulation, its territories were divided between the Axis forces. The Germans created the Independent State of Croatia (Nezavisna Država Hrvatska) puppet state. Despite promises of sending military equipment, weapons and aircraft, the NDH was mostly supplied with older or captured equipment. The NDH aviation industry was heavily dependent on supplies from Germany and Italy, as it lacked any major production capacity or industrial development, meaning domestic production was not possible. The only attempt at domestic production was with the Modli aircraft.

In 1941, Modli joined the new NDH Air Force with the rank of Flight Captain as a flight school instructor. He immediately began working on his second prototype, now simply called Modli-8. Unlike his first prototype, the second one was powered by a stronger four-cylinder Praga-B giving 40 hp. As this engine was too strong for the prototype, its power was reduced to just 20 hp. For the landing gear, two smaller rear wheels from a German Me-109 were reused. The Modli-8 was also shorter in comparison to the first prototype by 0.94 ft (15 cm).

In 1943 Modli was transferred to the technical workshop of the 1st Air Base in Zagreb, where he continued to develop his plane. In 1944, the Modli-8 was completed and introduced to NDH operational service according to authors T. Lisko  and D. Čanak. Unfortunately, they do not give more information on its service history. According to authors B. Nadoveza and N. Đokić on the other hand, noted that Modli deliberately delayed the production of the Modli-8 and it was never fully completed for use by the NDH.

On 26th October 1944, Josip Modli fled to Slovenia at the helm of a Bücker Bü 131 “Jungmann” in hopes of joining the Yugoslav Communist Partisans. Meanwhile, his assistants and friends in Zagreb hid the Modli-8 prototype in the attic of an old shed. Due to the chaos and confusion caused by the war, it was easy to hide the small and lightweight prototype. The Modli-8 would survive the war intact.

The Modli-8 was the only NDH domestically-built aircraft during the War. These two pictures may be the only ones of the Modli-8. Source: www.paluba.infok

In NDH service, the Modli-8’s lower fuselage, wings, and tail were painted in silver. The upper part of the fuselage and vertical stabilizer was blue. The wings struts were painted in red, while the middle of the fuselage wore a red stripe on both sides with a white outline. There were NDH markings with a large “JM8” painted on the tail. The color scheme would remain the same after the war but the NDH marking would be replaced with the Communist Star.

After the War

After the collapse of the NDH and the German forces in Yugoslavia, Modli, now Captain in the Yugoslav People’s Army, moved his prototype from Zagreb to Skopje, where it was completed in an army workshop. Modli himself flew the prototype during the summer of 1945. Surprisingly , he did not report this flight to his superiors and an alarm was raised, with several fighters launched to intercept him. Modli was lucky, as this incident did not affect his military career. The Modli-8 was, by order of Air Force Command, moved to Belgrade for further tests. The aircraft proved to be a good design, as it was easy and pleasant to fly according to test pilot Vasilije Vračević. There were some issues with the sensitivity of the large rudders and elevators during flight. For take off, it only needed a very short 170 m (558 ft) runway, and could land on a 125 m (410 ft) airfield. The maximum speed was around 100 km/h 223 mph at an altitude of 1 km.

The Modli-8 was then given to Aircraft Center Vršac, where it was used for training and propaganda flights. It was used operationally up to 1950, when it was removed from Army service. During its operational service, the Modli-8 was also used as a glider trainer. Under the right conditions it could be used as a glider with the engine shut off, which was useful for glider training.

Josip Modli later (date unknown) designed a two-seater version named Modli-9, but it was never fully completed. Both the Modli-8 and the unfinished 9 were given to the Croatian Technical Museum (Zagreb)  after the death of Josip Modli in 1974.

Production and Modifications

Despite being cheap, easy to build, and pleasant to fly, the Modli-8 was never adopted for military or civilian service. The first prototype was never fully tested due to the outbreak of the war and was lost (precise fate unknown). The second prototype was built during the war and was in use up to 1950. Despite the good feedback for its flight performance from the military, the Modli-8 was rejected for production, mostly due to the recent adoption of the BC-3 Trojka.

Modli J.M.8 – First prototype powered with Aubier & Dunne engine, lost in WW2.

Modli-8 – Second prototype powered by Praga-B engine and with other minor improvements, in service until 1950.

Modli-9 – Two-seater version, never fully completed.

Conclusion

Despite the few number of built aircraft, the Modli J.M. 8 had a small but interesting development history, changing owners several times. It had the honor of being the only aircraft built in Croatia during World War II. Despite its simplistic nature, it saw extensive use as a trainer after the war.

Operators

  • Kingdom of Yugoslavia – One built prototype
  • Independent State of Croatia (NDH) – Constructed one prototype but never tested
  • Federal People’s Republic of Yugoslavia (FPRY) – Operated the Modli-8 up to 1950.

Modli-8 (second prototype) Specifications
Wingspans 31 ft 2 in / 9.5 m
Length 19  ft 7 in / 6 m
Height 6 ft  / 1.85 m
Wing Area 36.25 ft² / 11.05 m²
Engine One four cylinder Praga-B 40 hp engine
Empty Weight 474 lbs / 215 kg
Maximum Takeoff Weight 705  lbs / 320 kg
Fuel Capacity 16 l
Climb Rate to 1 km In 10 minutes
Maximum Speed at 1 km 223 mph / 100 km/h
Take of run 558 ft / 170 m
Landing run 410 ft / 125 m
Range 124 mi / 200 km
Maximum Service Ceiling 5578 ft / 1,700 m
Crew 1 pilot
Armament
  • None

Gallery

Illustrations by Carpaticus

Modli Croatia
Modli Yugoslavia

Sources:

  • T. Lisko  and D. Čanak (1998), The Croatian Air Force In The WWII, Nacionalna i sveučilišna knjižnica, Zagreb
  • Vojislav V. Mikić, (2000) Zrakoplovstvo Nezavisne države Hrvatske 1941-1945, Vojno  istorijski institut Vojske Jugoslavije
  • B. Nadoveza and N. Đokić (2014), Odbrambena Privreda Kraljevine Jugoslavije, Metafizika Beograd.
  • Nebojša Đ.and Nenad M. (2002), IPMS Yugoslavia and Yugoslavian Aviation Special Interest Group Bulletin No 1-4, 

 

 

Ikarus 214

Cold War, Yugoslavia, , ,

Yugoslavia flag Federal People’s Republic of Yugoslavia (1948-1967)
Multi-Role Twin Engined Aircraft – 23 Built

The Ikarus 214 [otpisani.niceboard.com]
After World War Two, the new Communist Yugoslavian Air Force Command began a long process of restoring the destroyed aviation industry. The first attempts were made in the late 1940s, when several new and experimental designs were built, including the Ikarus 214. While most of these would remain prototypes or be built in small numbers, they would serve as a base for future developments and the experience gained would be used in the following years.

History

The first steps towards rebuilding the new Communist Yugoslav aviation industry were made during the war on 24th October 1944. Negotiations with representatives of many pre-war aircraft manufacturers about the possibility of reviving the devastated aircraft industry were held at Zemun near the capital city of Belgrade. Many pre-war aircraft industry designers and engineers would survive the war, and would be used to form the base of the future Yugoslav aviation industry.

Ikarus 214 D Prototype in Flight [paluba.info]
Two years later (23rd February 1946), the Aeronautical Technical Institute created a competition for the development of four new designs. One was for a flying school and tourism aircraft, while the others were for a two-seater basic trainer, an advanced trainer, and a multi-seat trainer version that could potentially be used as a transport plane. The Aeronautical Technical Institute was a pre-war institution which was responsible for placing orders and monitoring new aircraft development. During the period of 1947 to 1952, several different designs, including the maritime role, what would become the Ikarus 214, were produced. 

Constructor Group No.5, under the leadership of the aircraft engineer and professor Sima Milutinović, received orders to design a light two-engined transport and bomber crew trainer aircraft under the military designation 214. After the calculations and drawings were completed, the production of the first prototypes began in 1948 at the Ikarus factory. By 1949, two prototypes were completed and were designated 214P and 214D.

Name

The original military designation of this plane was simply 214. After the first two prototypes were built, the manufacturer’s name, Ikarus, was added to the designation. However, some sources call it the type 214 or simply the 214. This article will use the 214 designation for the sake of simplicity.

Technical Characteristics

The 214 was designed as a low wing, twin engine, mixed construction plane. Despite being primarily intended as a transport and trainer plane, the 214’s fuselage was designed to be able to withstand bomber duties. The fuselage had an unusual design and was built by combining two monocoque “sandwiches” (two light skins placed around a thick core) shell construction (same as on the British de Havilland Mosquito which was in use with the Yugoslavian Air Force.) The 214’s fuselage was large and had plenty of room for use as a transport or passenger aircraft.  The 214 passenger version had 7 seats placed behind the pilot’s cockpit. On both sides of the fuselage, there were two rounded and two elongated windows. The 214 (except the later built 214PP and AM-2) had a large and fully glazed round shaped nose with good all round forward visibility.

The Improved 214AM-2 Anti-Submarine Variant
The 214 prototypes were powered by the weaker Ranger SVG-770C engines.

The wings were made of wood and consisted of two box shaped longerons. The whole wing was covered with birch glue. The twin tail vertical and horizontal stabilizers were also made of wood. The rudder and the elevator were made of duralumin and covered with canvas.

The first engine used by the two prototypes was the air-cooled Ranger SVG-770C providing 520 hp, with the two-bladed Hamilton standard type propellers. The second prototype, and all subsequent aircraft were equipped with the stronger nine-cylinder air-cooled Pratt & Whitney R-1340-AN-1, which delivered 600 hp. Four fuel tanks were placed in the wing longerons, with a total fuel load of 780 liters (206 gallons.) The 214 used B-95 gasoline as its main fuel.

The Ranger SVG-770C Engine [vazduhoplovnetradicijesrbije.rs]
The landing gear retracted (except on the first prototype) into the rear engine nacelles but was not completely covered. The rear tail wheel was fixed but was provided with a brake system. The landing gear was hydraulically driven.

The pilot’s cockpit was positioned above the front fuselage and provided a good all-around view. In the cockpit there were positions for two crew members (pilot and assistant) and dual controls which were connected with the rudders and elevators with wire. However, this flight control system was flawed, because it took a few seconds before the plane responded to the command given by the pilot, for example during turns, climbs, or descending maneuvers. This made the 214 particularly difficult to fly during harsh and bad weather. 

The front glazed nose provided a good all around forward view.

Inside the cabin were several flight instruments, such as the airspeed and altitude indicators (type Teleoptik 456-6 and 452, the 214AS version had two altitude indicators), two variometers (type Teleoptik 26B), a turn and slip indicator (type 441-0), a horizontal situation indicator (type Teleoptik 32C, the 214AS version was equipped with two), a magnetic compass (type 443-0), two engine tachometers, fuel and oil gauges, landing gear indicator, and thermometer. Additional equipment for the crew’s safety included parachutes, fire extinguishers, oxygen bottles, and heating & ventilation. In the first series of aircraft produced in 1958, a SCR-522 radio unit was installed This radio had 8 watts of power with a range of 50-290 km (30-180 mi) depending on altitude. The 214F version was equipped with a Rudi Čajevac radio-telephone.

One of the prototypes was armed with three 7.92 mm MG-15 machine-guns, one forward fixed, one on the side (not specified whether  it could be aimed) and one in the rear facing turret. The decision to use older captured German MG-15s was most likely based on the fact that the 214 was to be used as a trainer aircraft, with better and more modern armament reserved for front  line aircraft. The 214 could also be equipped with a bomb load of four 50 kg (110 lb) bombs. Weapons were rarely installed on the production versions, as they were used mostly for transport.

First Test Flights

The 214 made its first flight on 7th August 1949, at the Zemun airfield near Belgrade. Immediately, there were problems with the lack of an adequate retractable landing gear. As a temporary solution and to speed up the testing process, the engineers simply reused the landing gear from an Il-2 (which was in use by the Yugoslav Air Force), but for technical reasons it was not retractable and remained fixed. There were also problems with inadequate propellers, as the 214 prototypes had to use propellers designed for a single engine aircraft. Despite the fact that it was never intended to be used with a fixed landing gear, military officials demanded that the flight tests begin as soon as possible. During its first test flight, one of the two engines simply stopped working. The pilot made a turn back towards the airfield, but the 214 could not maintain altitude and the plane crashed killing the test pilot Lieutenant Sima Nikolić.

An investigation that was subsequently conducted found that the fixed landing gear and the poor choice of propellers created too much drag. The single working engine could not overcome this drag. In addition, the vertical tail surfaces proved to be inadequate.

Prior to this accident, the engineers and designers predicted, at least in theory, that the 214 could maintain a constant altitude with only one working engine. In case of such a scenario, the test pilots were instructed to fly to the large and open Borča field,  Belgrade, and land there. Why the pilot decided to return to Zemun airfield instead of proceeding to the instructed field was impossible to determine. Despite this accident, the development of the 214 would go on.

The second prototype was fully completed by December 1949. In order to avoid accidents, the second prototype spent almost two years being redesigned and tested. Unfortunately, there is no information about any flights made during this period, but it is possible that some were conducted. This plane received larger vertical tail surfaces and a new landing gear. More intense flight tests were made from 1951 on. During this time, different trainer configurations were tested. These were basic training variants with three crew members and no armament, a bomber training variant with four crew members with up to three machine guns and bombs, and as a passenger transport variant with two crew members, six passengers, and no armament.

The Pratt & Whitney R-1340-AN-1 became a standard production engine on the 214. [vazduhoplovnetradicijesrbije.rs]
During 1954 and 1955, the second 214 prototype was equipped with Pratt & Whitney R-1340-AN-1 engines. It made its first flight with these engines on the 16th of September 1955 without any problems. In 1957, the second prototype was modified for use as a photo-reconnaissance aircraft (serving as the basis for the later 214F variant). This prototype would be used in this role until September of 1959, when the plane was lost in an accident. 

In 1955, it was decided to put the 214 into limited serial production. It  began in 1957 (or 1958 depending on the sources) and, by the time it ended in 1960, a total of 21 (or 20 depending on the source) 214 planes were produced. 

Anti-Submarine role

In 1958, a decision was made by the Yugoslavian Air Force for the adaptation of the 214 for anti-submarine operation. The first series of 214s produced was allocated to the 97th Air Regiment (this unit was renamed into the 97th Anti-Submarine Regiment in November 1958). The first group of pilot officers from the 97th Air Regiment was moved to Zemun airfield for training on the 214 in October 1958. All pilots from the 97th Air Regiment (which was equipped with British de Havilland Mosquitos) completed training by July 1959. In the period of 1959 to 1960, there were 41 pilots in training, but the number was reduced to 25 in 1961 and 1962. The entire training process was carried out under the leadership of World War II veteran Captain Okanović i Semolić.

As the 214 lacked any equipment for anti-submarine operations, it could be used only in reconnaissance missions, and only weather permitting where visibility was good. In 1960, there were plans to improve the 214’s anti-submarine performance by adding the necessary equipment. One modified aircraft, under the new 214PP (No. 61004) designation, was tested by Captain Petar Savić on the 6th of May 1960. Two years later, a new anti-submarine version, 214AM2 (No.61015), also known as 214M-2, was tested in June 1962 by pilot Aleksandar Prekrasov. Both versions had a fully enclosed nose instead of the standard glazed one (the sources are not clear, but it appears that other 214  were also equipped with an enclosed nose). In addition, the 214AM2 was provided with a radar placed below the front nose. However, this improved version was still not up to the task of anti-submarine duties. Even if the crew spotted an enemy submarine, it could hardly do anything. Due to equipment delays, more extensive testing was not possible before 1963. The 214AM2 was tested in Batajnica (near Belgrade) and later in Pula on the Croatian coast. The tests of the 214AM2 were completed by 1965, and the results of these tests assessed the variant as partially successful. 

Even before these tests were completed, in May 1964, by the order of the Secretary of National Defense, the 97th Anti-Submarine Regiment was reorganized as 97th Auxiliary and Support Regiment and supplied with C-47 transport planes. The 214 was still in use with this unit but mostly in a transport role. This decision to remove the 214 from the anti-submarine role was based on the fact that they were not sufficiently equipped, and could not effectively engage submarines. The 214 would be used by this unit up to 1966, when they were removed from service.

The 214F 

Front view of the 214F version.

In 1960, three aircraft, designated as 214F, were built in the Ikarus factory to be used as photo-reconnaissance planes. The main difference was the removal of the seats inside the plane’s fuselage and replacing them with positions for a cameraman, his assistant, and  camera equipment. 

Limited Operational Service Life

Despite being designed to fulfill several different roles, the 214 (beside the two anti-submarine modifications) was mostly used as a light transport and sometimes for day and night bomber crew training. The aircraft that were used in this role received the 214AC or 214P designations and, in total, 18 were built of this version. The basic transport and training variant had 7 seats placed behind the cockpit, with four on the right, and three on the left side. In some sources, the passenger number is listed as 8. The idea to use the 214 as a light bomber was rejected due to the rapid development of more advanced fighter-bombers. The 214 had many technical problems during its operational use, such as inadequate radio equipment, problems with the control of the wing flaps, inadequate electric equipment for night flights, and cracks that would appear in the propeller spinners after extensive use. 

A parachute group in front of a 214 prior to take-off. [vazduhoplovnetradicijesrbije.rs]
Rear view of a 214. The Yugoslav flag (blue, white and red with a red star in the middle) was often painted on the tail. [otpisani.niceboard.com]

The 214 was mostly used by the Yugoslavian Air Force as a transport plane.

In Civilian Service

By 1966, only six 214 transport versions were still operated by the Yugoslavian Air Force. The next year, these six were withdrawn from service and given to the Aeronautical Association of Yugoslavia for use. They were registered as passenger planes with two crew members and seven passengers. These received the following civilian markings based on their stations: YU-ABN in Ljubljana, YU-ABO in Vršac, YU-ABT in Novi Sad, YU-ABS in Zagreb, YU-ABR in Sarajevo and YU-ABP in Skopje.

In 1968, only four were listed as operational and, by 1970, they were removed from the civilian registers. While they remain stored, some parachute flights were carried out after 1970. In the following years, all except one were scrapped. This aircraft (No.60019) was given to the Yugoslav Aviation Museum near the Capital of Belgrade in 2001. The plane is in a poor state of repair and is waiting for restoration. Due to the financial difficulties of the museum, there is only a small chance that it will be restored in the near future.

This is a civilian 214 stationed in Sarajevo. [paluba.info]
The only surviving 214 (No.60019) aircraft can be seen in the Belgrade Aviation Museum. [Wikipedia]

Production Run

As previously mentioned, the decision for the production of the 214 was made in 1955. By the time the production ended in 1960, a small series of 21 aircraft was produced (excluding the two prototypes.) Many sources state that around 20 were built but, according to Č. Janić. and O. M. Petrović, 21 were built (18 214AC and 3 214F). The problem with determining the exact number of produced aircraft lies in the fact that, in some sources, the three produced 214F include the prototype which was modified for this role. Despite the fact that the production began during 1957 (by Ikarus), the whole process was slow and, by the 1st of January 1959, only six 214 were built. Only one was built in 1957 and an additional five during 1958. By January 1st 1962, there were 21 aircraft in service with the Yugoslavian Air Force, with 17 fully operational. In the following years, there were no accidents and an average of between 15 and 18 were fully operational at any given time. In order to increase the 214’s operational service life, one additional factory (Vazduhoplovno-Tehnicki Remontni Zavod) was opened in Zagreb for the production of spare parts and repairs. The Ikarus factory, due to its  involvement  in other projects, was  exclusively involved in the production of spare parts from 1962 to 1964.

Due to the small numbers built, the 214 had only a few different variants.

  • 214P and 214D prototypes – Two prototypes built and tested with different engines.
  • 214F – 3 built as photo-reconnaissance planes. 
  • 214AC (214P)Main production version. 18 were built as trainer/passenger planes.
  • 214PPOne production aircraft was modified for anti-submarine operation.
  • 214AM-2One production aircraft was modified as an improved anti-submarine variant.

Conclusion 

Despite not being a successful design, the 214 did see operational use in the Yugoslav Air Force. As only small numbers were built, the model’s role was limited. The 214’s greatest success was that it helped rebuild the destroyed Yugoslavian aircraft industry and the designers and engineers gained additional experience in working with more modern aircraft designs.

Ikarus 214 Specifications
Wingspan 53 ft 2 in / 16.2 m
Length 38 ft 9 in / 11.2 m
Height 13 ft  / 3.95 m
Wing Area 320 ft² / 29.8 m²
Engine Two nine cylinder air-cooled P&W R-1340-AN-1 with 600 hp
Empty Weight 3,740 lbs / 3,970 kg
Maximum Takeoff Weight 11,080 lbs / 5,025 kg
Fuel Capacity 780 l
Maximum Speed 227 mph / 365 km/h
Cruising speed 186 mph / 300 km/h
Range 670 mi / 1,080 km
Maximum Service Ceiling 23,000 ft / 7,000 m
Crew One pilot and One copilot
Armament
  • Three 7.92 mm MG-15 Machine Guns
  • Bomb load of four 50 kg bombs

Gallery

Illustrations by Carpaticus

Ikarus 214
Ikarus 214AM-2 Anti-Submarine Variant
Ikarus 214 in Civilian Service

Credits