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Fighter aircraft From Wikipedia, the free encyclopedia
The Yakovlev Yak-9 (Russian: Яковлев Як-9; NATO reporting name: Frank)[2] is a single-engine, single-seat multipurpose fighter aircraft used by the Soviet Union and its allies during World War II and the early Cold War. It was a development of the robust and successful Yak-7B fighter, which was based in turn on the tandem-seat advanced trainer known as the Yak-7UTI. The Yak-9 started arriving in Soviet fighter regiments in late 1942 and played a major role in retaking air superiority from the Luftwaffe's new Focke-Wulf Fw 190 and Messerschmitt Bf 109G fighters during the grand Battle of Kursk in summer 1943.
Yak-9 | |
---|---|
General information | |
Type | Fighter |
National origin | Soviet Union |
Designer | A.S. Yakovlev Design Bureau |
Built by | Plant No.153 (Novosibirsk), Plant No.166 (Omsk), Plant No.82 (Moscow) |
Primary users | Soviet Air Forces |
Number built | 16,769[1] |
History | |
Manufactured | October 1942 – December 1948 |
Introduction date | October 1942 |
First flight | 6 July 1942 (Yak-7DI) |
Retired | 1950 (Soviet Air Forces), 1951 (Korean People's Army Air and Anti-Air Force), 1955 (Bulgarian Air Force) |
Developed from | Yakovlev Yak-7 |
The Yak-9 had a cut down rear fuselage with an unobscured canopy. Its lighter metal structure allowed for an increased fuel load and armament over previous models built from wood.[3] The Yak-9 was manoeuvrable at high speeds when flying at low and medium altitudes and was also easy to control, qualities that allowed it to be one of the most produced Soviet fighters of World War II.[citation needed] It was produced in different variants including the Yak-9T with the 37 mm (1.5 in) cannon and the "large-calibre" Yak-9K with a 45 mm (1.77 in) cannon firing through the propeller hub, which were used for antitank duty and as potent aircraft destroyers, the fighter-bomber Yak-9B with an internal bomb bay behind the cockpit for up to 400 kg (880 lb) worth of bombs, the long-range Yak-9D and the Yak-9DD with additional wing fuel tanks to escort bombers over Eastern Europe, and the Yak-9U with a more powerful engine and improved aerodynamics. The Yak-9 remained in production from 1942 to 1948, with 16,769 built (14,579 during the war).[4]
After World War II, the Yak-9 also was used by the North Korean Air Force during the Korean War.[5]
The Yak-9 represented further development of the successful Yakovlev Yak-7 fighter, a production version of the lightened Yak-7DI, taking full advantage of the combat experience with its predecessor. Greater availability of duralumin allowed for lighter construction which in turn permitted a number of modifications to the basic design. Yak-9 variants used two different wings, five different engines, six different fuel tank configurations and seven different armament setups.
During December 1943, the new airframe (Yak-9U) was able to use the M-107A engine, which was more powerful than the previous VK-105PF. The engine installation was new and included individual faired exhaust pipes. The oil cooler intake was moved from beneath the nose to the port wing root as well as an enlarged radiator bath being moved further aft under the fuselage. The supercharger intake was centered on the top decking of the engine cowling. The rear antenna cable was moved inside a lengthened rear canopy which provided the pilot with a better view to the rear, while the rear fuselage was cut down and the horizontal tail surfaces were slightly reduced in size. The wings and fuselage structure were made of metal which was then skinned with Bakelite. The Yak-9U was typically armed with a 20 mm (0.79 in) ShVAK cannon firing through the hollow propeller shaft, and two 12.7 mm (0.50 in) Berezin UB machine guns.[6]
State trials were carried out from January to April 1944 and revealed that the Yak-9U had a better top speed compared to fighters in service on the Eastern front at 6,000 m (20,000 ft). Unlike the I-185 the Yak-9U was stable and easy to fly. However, the M-107A engine inherited the problems of the VK-105PF and was prone to overheating, oil leaks, loss of engine pressure during climbs, spark plugs constantly burning out, and intense vibrations which would fatigue assembly bolts leading to a short engine life. These defects forced the first production batches starting during April 1944 to be powered by the more reliable M-105 PF-3 engine. Further changes were made, like increasing the fuel capacity to 400 L (88 imp gal; 110 US gal) and in order to re-balance the aircraft, the wings were moved 9.9 cm (3.9 in) forward and the aircraft's VIsh-107LO propeller being replaced with the older VIsh-105S. A total production of 1,134 aircraft were constructed by December 1944.[6]
The first Yak-9 entered service in October 1942 and saw combat the same year. The Yak-9 operated with a wide variety of armament for use in anti-tank, light bomber and long-range escort roles. At low altitude, in which it operated predominantly, the Yak-9 was more maneuverable than the Bf 109. A series of improvements in performance and armament did not degrade the handling characteristics. Soviet pilots regarded the Yak-9's performance as being comparable to the Bf 109G and Fw 190A-3/A-4.[7] However, at the beginning of the German invasion of the Soviet Union Yak-9's performed poorly against the Luftwaffe because of a lack of training, although by the Battle of Stalingrad they began to perform better.[8] After the Battle of Smolensk, in the second half of 1943, the famed Free French Normandie-Niémen unit became a Groupe and was equipped with the Yak-9.[9]
The first unit to use the Yak-9U, between 25 October and 25 December 1944, was 163.IAP. Pilots were ordered not to use the engine at combat speed since this reduced its life to two or three flights only. Nevertheless, in the course of 398 sorties, the unit claimed 27 Focke-Wulf Fw 190As and one Bf 109G-2, for the loss of two Yaks in dogfights, one to flak and four in accidents. The Yak-9U contributed greatly toward the Soviets gaining air superiority, and the Germans learned to avoid the Yaks “without antenna mast”.[10]
A large formation of the Yak-9DD version was transferred to Bari (the capital of Apulia, in Italy) to help Yugoslav partisans in the Balkans.[11]
One of the top-scoring Yak-9 pilots was First Lieutenant A.I. Vybornov. Flying a type-T (equipped with a 37mm NS-37 cannon in the nose) he achieved 19 air victories, plus nine shared and was awarded the Gold Star Medal of the Hero of the Soviet Union in June 1945.[12] At the end of the war, on 22 March 1945, Lieutenant L.I. Sivko from 812th IAP achieved an air victory against a Messerschmitt Me 262 jet fighter, but he was killed soon afterward by another Me 262, probably piloted by Franz Schall, a top-scoring Me 262 pilot.[13]
Fighter units with this aircraft suffered lower losses than average. Of 2,550 Yak-9s manufactured up the end of 1943, only 383 were lost in combat.[14]
At the beginning of the Cold War, Yak-9 fighters began buzzing American, British, and French flights in the air corridors to West Berlin. During the Berlin Blockade, Yak-9 fighters interfered with the U.S. Air Force-Royal Air Force airlift.[15][16] During 1949, the Soviet Union provided surplus Yak-9P (VK-107) aircraft to some satellite states in the Soviet bloc to help them rebuild their air forces following the West Berlin blockade. A section of the aircraft's operating manual was accidentally omitted from the translation from Russian into some languages: before starting the Yak-9, it was necessary to hand-crank a small cockpit-mounted oil pump 25 times to provide initial lubrication to the Klimov V12 engine, unlike World War II German and Western fighters equipped with forced closed-cycle lubrication systems. Skipping this unusual but vital step resulted in frequent engine seizures during the takeoff roll and initial climb, causing several fatalities during 1950.[citation needed]
This section needs additional citations for verification. (October 2016) |
Yakovlev OKB created 22 modifications of the Yak-9, of which 15 saw mass production. The most notable of these include:
The first production version, with a Klimov M-105PF engine with 930 kW (1,250 hp), 1 × 20 mm (0.79 in) ShVAK cannon with 120 rounds, and 1 × 12.7 mm (0.50 in) UBS machine gun with 200 rounds.
A prototype with the Klimov M-106-1SK engine with 1,007 kW (1,350 hp). It did not advance to production because of problems with the engine.
A Yak-9 armed with a 37 mm (1.5 in) Nudelman-Suranov NS-37 cannon with 30 rounds instead of the 20 mm (0.79 in) ShVAK. The cockpit was moved 0.4 m (1 ft 4 in) back to compensate for the heavier nose. A problem corrected during prototype tests was poor quality control that led to multiple oil and coolant leaks from cannon recoil.[17] Recoil and a limited supply of ammunition required accurate aiming and two- or three-round bursts. The Yak-9T was widely used against enemy shipping on the Black Sea and against tanks – the cannon could penetrate up to 40 mm (1.6 in) armor from 500 m (1,600 ft) – but was also successful against aircraft: a single cannon hit was usually sufficient to tear apart the target. Virage (constant altitude and speed turn) time was 18–19 seconds. 2748 were produced.[18]
A Yak-9T modified with a 45 mm (1.8 in) NS-45 cannon with 29 rounds and a distinctive muzzle brake to deal with the massive recoil. Firing the cannon at speeds below 350 km/h (220 mph) caused a dramatic loss of control and tossed the pilot back and forth in the cockpit; however, accurate shooting was possible at higher speeds and in two- to three-round bursts. The recoil also caused numerous oil and coolant leaks. The heavy cannon decreased performance dramatically, especially at high altitudes, to the point that Yak-9Ks were relegated to heavy fighter duty and had to be escorted by Yak-3s. The Yak-9K saw only limited use due to the unreliability of the NS-45 and to airframe performance issues caused by the NS-45 and by the larger fuel tanks used on the Yak-9K; it also saw little use because of a reduced number of German bombers.
A long-range version of the Yak-9 with fuel capacity increased from 440 to 650 L (97 to 143 imp gal; 120 to 170 US gal), giving a maximum range of 1,400 km (870 mi). Its combat usefulness at full range was limited by a lack of radio navigation equipment, and a number of aircraft were used as short-range fighters with fuel carried only in inner wing tanks. The time to complete a circle was 19–20 seconds. The weight of fire was 2 kg/s (260 lb/min).
A Yak-9D with an NS-37 cannon and provision for 4 × 50 kg (110 lb) FAB-50 bombs under the wings.
A fighter-bomber version of the Yak-9D (factory designation Yak-9L) with four vertical tube bomb bays aft of the cockpit with capacity for up to 4 × 100 kg (220 lb) FAB-100 bombs or 4 PTAB cassettes with 32 × 1.5 kg (3.3 lb) bomblets each, although normally only 200 kg (440 lb) of weapons were carried in the front bomb bays. Poor handling with a full bomb and fuel load and lack of special aiming equipment limited its combat usefulness.
A Yak-9D or Yak-9T modified for longer range by a larger fuel capacity of 845 L (186 imp gal; 223 US gal) which increased the maximum range to 2,285 kilometres (1,420 mi). Radio navigation equipment for night and poor weather flying was added. The Yak-9DD was used primarily to escort Petlyakov Pe-2 and Tupolev Tu-2 bombers although it proved less than ideal for this role due to an insufficient speed advantage over the bombers. In 1944, several Yak-9DD fighters were used to escort B-17 Flying Fortress and B-24 Liberator bombers attacking targets in Romania using the Ukraine-Romania-Italy routes.
A Yak-9D with the cockpit moved 0.4 m (1 ft 4 in) to the rear like the Yak-9T, as well as numerous fixes and improvements based on experience with previous versions.
A Yak-9M with slightly reduced fuel capacity, the Klimov VK-105PF2 engine with 970 kW (1,300 hp), and radio and navigational equipment for night and adverse weather flying for PVO Strany.
A single-seat night fighter aircraft, equipped with a searchlight and an RPK-10 radio compass.
A Yak-9M with a Klimov VK-105PF engine, a new propeller, and armament consisting of 1 × 23 mm (0.91 in) Nudelman-Suranov NS-23 cannon with 60 rounds, and 2 × 20 mm (0.79 in) Berezin B-20 cannons with 120 rounds. It did not enter production due to its poor performance compared to the Yak-3 and Yak-9U.
A single-seat tactical reconnaissance aircraft.
This aircraft was the last and the most advanced version of the Yak-9 fighter, which became the pinnacle of development among A. S. Yakovlev's piston-engined fighters. The Yak-9P (Product P) that appeared in 1946 was a modification of the Yak-9U fighter of composite construction. Unlike its predecessor, it had all-metal wings with elliptical tips. By this time, the manufacture of high-strength aluminum alloys was established in the Soviet Union, simplifying aircraft operation and increasing aircraft service life.
A Yak-9U with an all-metal wing. "Yak-9P" in this case was a factory designation different from the Yak-9P with two ShVAKs described above.
A high-altitude interceptor (unrelated to the two other Yak-9P variants described above) with the Klimov M-105PD engine, designed specifically to intercept Luftwaffe Junkers Ju 86P high-altitude reconnaissance aircraft overflying Moscow in 1942–1943. Poor performance due to the unreliable engine dramatically improved with adoption of the Klimov M-106PV with water injection, with the aircraft reaching 12,500 m (41,000 ft) during testing. The armament was reduced to the ShVAK cannon only to save weight.
A Yak-9T with the Klimov VK-105PF2 engine and numerous aerodynamic and structural improvements introduced with the Yak-3. The main visual difference from the Yak-9T was in the oil coolers in the wing roots, like on the Yak-3, and in that plywood covered the fuselage, instead of fabric. It differed visually from the Yak-3 only by the main landing gear covers. The armament increased to 1 × 23 mm (0.91 in) VYa cannon with 60 rounds and 2 × 12.7 mm (0.50 in) UBSs with 170 rounds each. The VYa cannon could be replaced by a ShVAK, B-20, or NS-37, the latter requiring removal of the starboard UBS machine gun. It did not enter production because the VYa was considered unsatisfactory and because the one cannon, one machine gun armament seen on previous models offered a significant increase in range.
The definitive Yak-9 variant, the Yak-9U (VK-105) was equipped with the new 1,230 kW (1,650 hp) Klimov VK-107A engine, and with the 20 mm (0.79 in) ShVAK with 120 rounds replacing the VYa cannon. The weight of fire was 2.72 kg/s (6.0 lb/s). Early test flights in 1943 indicated that the only comparable Soviet fighter was the Polikarpov I-185 prototype which was more difficult to fly and less agile due to higher weight. The prototype's top speed of 700 km/h (430 mph) at 5,600 m (18,400 ft) was faster than any other production fighter aircraft in the world at the time, other than the P-51B that could reach up to 710 km/h (441 mph) on military power.[19] Early problems with overheating were fixed by enlarging the radiators and production aircraft had further improved aerodynamics. The time to complete a circle was 23 seconds. It was the best Soviet fighter at high altitude.
A two-seat trainer version of the Yak-9U (VK-107) with armament reduced to a single Berezin B-20 cannon with 100 rounds. It did not enter production due to the introduction of jet aircraft.
A Yak-9U (VK-107) armed with 1 × 37 mm (1.5 in) Nudelman N-37 cannon with 30 rounds and 2 x 20 mm (0.79 in) Berezin B-20 cannons with 120 rounds each, giving a total one-second burst mass of 6 kg (13 lb). Similarly to the Yak-9TK, it could be converted to replace the N-37 with a 20 mm (0.79 in) B-20, 23 mm (0.91 in) NS-23, or 45 mm (1.8 in) N-45. Production aircraft carried the NS-23 instead of the N-37 cannon as the default armament.
The Yak-9-57 was a one-off conversion of a Yak-9UT armed with a 57 mm cannon.[20] The large caliber cannon did not protrude from the spinner cone like the Yak-9-37/45 models.
A two-seat trainer version of Yak-9M and Yak-9T with the Klimov VK-105PF2 engine and with armament reduced to 1 × 20 mm (0.79 in) ShVAK with 90 rounds.
In the early 1990s, Yakovlev started limited production for the warbird market of Yak-9 and Yak-3 replica aircraft using original World War II equipment and Allison V-1710 engines. These modern-built replicas using the Allison engines, have counterclockwise-rotation props, unlike the originals which strictly used clockwise-rotation Soviet V12 powerplants.
General characteristics
Performance
Armament
Related development
Aircraft of comparable role, configuration, and era
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