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Mikoyan-Gurevich MiG-15bis : ウィキペディア英語版
Mikoyan-Gurevich MiG-15


The Mikoyan-Gurevich MiG-15 ((ロシア語:Микоян и Гуревич МиГ-15); NATO reporting name: "Fagot") is a jet fighter aircraft developed by Mikoyan-Gurevich OKB for the Soviet Union. The MiG-15 was one of the first successful jet fighters to incorporate swept wings to achieve high transonic speeds. Introduced in combat over the skies of Korea, it outclassed straight-winged jet day fighters which were largely relegated to ground attack roles, and was quickly countered by the similar American swept-wing F-86 Sabre. The MiG-15 is often mentioned, along with the North American F-86 Sabre, as the best fighter aircraft of the Korean War, and among the best fighter aircraft of all time.〔(Minnesota Air National Guard Museum." ) ''mnangmuseum.org.'' Retrieved: 20 September 2013.〕
When refined with an afterburner into the more advanced MiG-17, the basic design would again surprise the West when it proved effective against supersonic fighters such as the F-105 Thunderchief in the Vietnam War of the 1960s. The return of subsonic daylight dogfights would spur the next generation of fighter design and tactics, and the use of subsonic fighters as aggressor simulators.
The MiG-15 is believed to have been one of the most widely produced jet aircraft ever made; in excess of 12,000 were manufactured. Licensed foreign production may have raised the production total to over 18,000.〔("Mikoyan-Gurevich MiG-15 (Ji-2) Fagot B." ) ''Smithsonian National Air and Space Museum.'' Retrieved: 27 August 2011.〕 The MiG-15 remains in service with the North Korean Air Force as an advanced trainer.
==Design and development==

The first turbojet fighter developed by Mikoyan-Gurevich was the Mikoyan-Gurevich MiG-9 (NATO reporting name: Fargo) which appeared in the years immediately after World War II. It used a pair of reverse-engineered German BMW 003 engines.〔Belyakov and Marmain 1994, pp. 81, 88.〕 The MiG-9 was a troublesome design which suffered from weak, unreliable engines and control problems. Categorized as a first-generation jet fighter, it was designed with the straight-style wings common to piston-engined fighters.
The Germans just failed to have their turbojets with thrust over running at the time of the capitulation in May 1945 which limited the performance of immediate Soviet postwar jet aircraft designs. They did inherit the technology of the very advanced axial compressor Junkers 012 and BMW 018 Jets that, in the class of the later Rolls-Royce Avon were some years ahead of the currently available British Rolls-Royce Nene engine. The Soviet aviation minister Mikhail Khrunichev and aircraft designer A. S. Yakovlev therefore suggested to Premier Joseph Stalin that the USSR buy the conservative but fully developed Nene engines from Rolls-Royce for the clandestine purpose copying them in a minimum of time. Somewhat logically, Stalin is said to have replied, "What fool will sell us his secrets?"〔
However, he gave his consent to the proposal and Mikoyan, engine designer Vladimir Klimov, and others traveled to the United Kingdom to request the engines. To Stalin's amazement, the British Labour government and its Minister of Trade, Sir Stafford Cripps, were perfectly willing to provide technical information and a license to manufacture the Rolls-Royce Nene. Sample engines were purchased and delivered with blueprints. Following evaluation and adaption to Russian conditions, the windfall technology was tooled for mass-production as the Klimov RD-45 without any compensation to be incorporated into the MiG-15.〔 Rolls-Royce later attempted to claim £207 million in license fees, under the expectation of which the original sale was made.
To take advantage of the new engine, the Council of Ministers ordered the Mikoyan OKB to build two prototypes for an advanced high-altitude daytime interceptor to defend against bombers. It was to have a top speed of and a range of .〔("MiG-15." ) ''Military Factory.'' Retrieved: 11 July 2012.〕
Designers at MiG's OKB-155 started with the earlier MiG-9 jet fighter. The new fighter used Klimov's British-derived engines, swept wings, and a tailpipe going all the way back to a swept tail. The German Me 262 was the first fighter fitted with an 18.5° wing sweep, but it was introduced merely to adjust the center of gravity of its heavy engines. Further experience and research during World War II later established that swept wings would give better performance at transonic speeds. At the end of World War II, the Soviets seized most of the assets of Germany's aircraft industry. The MiG team studied many of these plans, prototypes and documents, particularly swept-wing research and designs. The swept wing later proved to have a decisive performance advantage over straight-winged jet fighters when it was introduced into combat over Korea.
The design that emerged had a mid-mounted 35-degree swept wing with a slight anhedral and a tailplane mounted up on the swept tail. Western analysts noted that it strongly resembled Kurt Tank's Focke-Wulf Ta 183, a later design than the Me 262 that never progressed beyond the design stage. While the majority of Focke-Wulf engineers (in particular, Hans Multhopp, who led the Ta-183 development team) were captured by Western armies, the Soviets did capture plans and prototypes for the Ta-183. The MiG-15 bore a much stronger likeness than the American F-86 Sabre which also incorporated German research. The new MiG retained the previous straight-winged MiG-9's wing and tailplane placement while the F-86 employed a more conventional low-winged design. To prevent confusion during the height of combat the US painted their planes with bright stripes to distinguish them.〔Fitzsimons 1985, p. 11.〕 It has been argued that the MiG-15 design team drew some limited inspiration from the Ta-183, but it is disputed that it was heavily influenced. What is indisputable is that had the German designers been ordered to adapt the Ta-183 to the dimensions of the Nene engine a very similar aircraft to the Mig-15 would have come out, like Kurt Tank's later Pulqui II in Argentina. One conclusion is that the MiG-15 is a design benefiting from German research, but conceived, designed, engineered, and produced by the Soviets with an undefined amount of German assistance. Indeed, all the development work by German scientists was overseen by an appointed Soviet personality, whose Slavic name was to take credit for the formally "all-Soviet" design.〔Gordon, Yefim. ''Mikoyan-Gurevich MiG-15''. Leicester, UK: Midland Publishing, 2001. ISBN 1-85780-105-9.〕〔(The Mikoyan-Gurevich MiG-15 ). plane-crazy.net〕 The MiG-8 ''Utka'' experimental canard aircraft, built right at the conclusion of World War II by the MiG design bureau also lent experience in the use of swept wings on later Mikoyan designs. In Germany, the famed Heinkel designer Siegfried Günter is sometimes cited as having had a major influence. The Mig 15 was certainly the best aircraft ever to use the Nene engine. Given the same quality pilots, contemporary British applications for the Nene such as the Supermarine Attacker and the more elegant Hawker Seahawk would have been lame ducks by comparison.
The resulting prototypes were designated as I-310.〔Belyakov and Marmain 1994, pp. 112, 114.〕 The I-310 was a swept-wing fighter with 35-degree sweep in wings and tail, with two wing fences fitted to each wing to improve airflow over the wing. The design used a single Rolls-Royce Nene fed by a split-forward air intake. A duct carried intake air around the cockpit area and back together ahead of the engine.〔〔Gunston 1995, p. 188.〕 Its first flight was 30 December 1947,〔Gunston 1995, p. 189.〕 some two months after the American F-86 Sabre had first flown. It demonstrated exceptional performance, reaching at .〔Belyakov and Marmain 1994, p. 120.〕
The Soviet Union's first swept-wing jet fighter was actually the underpowered Lavochkin La-160 which was otherwise more similar to the MiG-9. The Lavochkin La-168, which reached production as the Lavochkin La-15, used the same engine as the MiG but used a shoulder mounted wing and t-tail; it was the main competitive design. Eventually, the MiG design was favored for mass production. Designated MiG-15, the first production example flew on 31 December 1948. It entered Soviet Air Force service in 1949, and subsequently received the NATO reporting name "Fagot." Early production examples had a tendency to roll to the left or to the right due to manufacturing variances, so aerodynamic trimmers called "''nozhi''" (knives) were fitted to correct the problem, the knives being adjusted by ground crews until the aircraft flew correctly.〔
An improved variant, the MiG-15''bis'' ("second"), entered service in early 1950 with a Klimov VK-1 engine, an improved version of the RD-45/Nene, plus minor improvements and upgrades.〔 Visible differences were a headlight in the air intake separator and horizontal upper edge airbrakes. The 23 mm cannons were placed more closely together in their undercarriage. Some "bis" aircraft also adopted under-wing hardpoints for unguided rocket launchers or bombs. Fighter-bomber modifications were dubbed "IB", "SD-21", and "SD-5". About 150 aircraft were upgraded to SD-21 specification during 1953–1954. An unknown number of aircraft were modified to "IB" specification in the late 1950s.
The MiG-15 arguably had sufficient power to dive at supersonic speeds, but the lack of an "all-flying" tail greatly diminished the pilot's ability to control the aircraft as it approached Mach 1. As a result, pilots understood they must not exceed Mach 0.92, where the flight surfaces became ineffective. Additionally, the MiG-15 tended to spin after it stalled, and often the pilot could not recover.〔Joiner, Stephen, MiG! Air & Space, December 2013/January 2014, p.45〕 Later MiGs incorporated all-flying tails.
The MiG-15 was originally intended to intercept American bombers like the B-29. It was even evaluated in mock air-to-air combat trials with a captured U.S. B-29, as well as the later Soviet B-29 copy, the Tu-4 "Bull". To ensure the destruction of such large bombers, the MiG-15 carried cannons: two 23 mm with 80 rounds per gun and a single 37 mm with 40 rounds. These weapons provided tremendous punch in the interceptor role, but their limited rate of fire and relatively low velocity made it more difficult to score hits against small and maneuverable enemy jet fighters in air-to-air combat. The 23 mm and 37 mm also had radically different ballistics, and some United Nations pilots in Korea had the unnerving experience of 23 mm shells passing ''over'' them while the 37 mm shells flew ''under''. The cannons were fitted into a simple pack that could be winched out of the bottom of the nose for servicing and reloading, allowing pre-prepared packs to be rapidly swapped out. (Some sources mistakenly claim the pack was added in later models.)〔
Many MiG-15 variants were built, but the most common was the MiG-15UTI (NATO reporting name "Midget") two-seat trainer.
Because Mikoyan-Gurevich never mass-produced the transition training versions of the later MiG-17 or MiG-19, the MiG-15UTI remained the sole Warsaw Pact advanced jet trainer well into the 1970s, the primary training role being fulfilled exclusively by Czechoslovak Aero L-29 ''Delfin'' and the L-39 Albatros jet trainers (save for Poland, which used their indigenous TS-11 ''Iskra'' jets). While China produced two-seat trainer versions of the later MiG-17 and MiG-19, the Soviets felt that the MiG-15UTI was sufficient for their needs and did not produce their own trainer versions of those aircraft.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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