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・ Ilyushin Il-112
・ Ilyushin Il-114
・ Ilyushin Il-12
・ Ilyushin Il-14
・ Ilyushin Il-16
・ Ilyushin Il-18
・ Ilyushin Il-18 (1946)
・ Ilyushin Il-2
・ Ilyushin Il-20 (1948)
・ Ilyushin Il-22
・ Ilyushin Il-28
・ Ilyushin Il-30
・ Ilyushin Il-32
・ Ilyushin Il-38
・ Ilyushin Il-4
Ilyushin Il-40
・ Ilyushin Il-46
・ Ilyushin Il-54
・ Ilyushin Il-6
・ Ilyushin Il-62
・ Ilyushin Il-76
・ Ilyushin Il-78
・ Ilyushin Il-8
・ Ilyushin Il-80
・ Ilyushin Il-86
・ Ilyushin Il-96
・ Ilyâs ibn Sâlih
・ Ilyés
・ Ilyās Farhāt
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Ilyushin Il-40 : ウィキペディア英語版
Ilyushin Il-40

The Ilyushin Il-40 (NATO reporting name: Brawny〔) was a two-seat Soviet jet-engined armored ground-attack aircraft. The first prototype flew in 1953 and was very successful except when it fired its guns, as their combustion gasses disturbed the airflow into the engines and caused them to flameout or hiccup. Remedying this problem took over a year and involved the radical change of moving the engine air intakes all the way to the very front of the aircraft and repositioning the guns from the tip of the nose to the bottom of the fuselage, just behind the nose wheel. The aircraft, now resembling a double-barreled shotgun from the front, was ordered into production in 1955. Only five production aircraft had been completed before the entire program was canceled in early 1956 when the VVS discarded its close air support doctrine in favor of tactical nuclear weapons on the battlefield.
==Development==
Sergey Ilyushin had begun design studies during 1950–51 for a jet-engined ground-attack aircraft possessing better performance characteristics than was possible with piston-engined aircraft. By the end of 1951 the Ilyushin design bureau had prepared a technical proposal for a two-seat armored aircraft using two Mikulin AM-5 axial-flow turbojets rated at at maximum power (without afterburner) and with afterburner. In January 1952 Ilyushin sent this proposal to the government, which was quickly accepted, and he was directed to design and build one prototype.〔Gordon, pp. 67–68, 74〕
The Il-40 had wings set low on the fuselage, swept back at an angle of 35°, and a tricycle undercarriage. The two AM-5 engines were in pods adjacent to the fuselage. As was traditional for Ilyushin ground-attack aircraft the core of Il-40's structure was a load-bearing armored shell that protected both crew positions, six fuel tanks and part of the radio and electrical equipment. The thickness of the shell ranged from in thickness. The armored bulkhead protecting the pilot from the front was thick. The cockpit glazing was also bulletproof and the pilot was given an armored headrest to protect him against shells fired from above and behind. The gunner was protected by armor thick. The total weight of the armored shell and the bulletproof glass was . Ejection seats were provided for both crewmembers. Three perforated airbrakes were fitted on the rear fuselage, one on each side and one underneath, to enhance the aircraft's maneuverability during a dive.〔Gordon, pp. 68, 73–74〕
The initial armament was six Nudelman-Rikhter NR-23 autocannons mounted in the nose, three on each side, each with 150 rounds, with their muzzles protruding into the slipstream. One NR-23 was mounted in a remotely controlled Il-K10 tail barbette with 200 rounds. It had a maximum elevation of 55°, a maximum depression of 40° and could traverse 60° to either side. The Il-K10 could traverse at a rate of 42° per second and elevate at a rate of 38° per second. Four small bomb bays were fitted in the wings with a maximum capacity of each. Alternatively four bomb racks could be fitted under the wings that could carry bombs up to , TRS-82 or TRS-132 rockets, or drop tanks with a total capacity of . The normal bomb load was , but could be carried at overload. Under overloaded conditions a maximum of twelve TRS-82 or eight TRS-132 rockets could be carried. Two cameras were fitted in the rear fuselage for day and night damage-assessment photos.〔Gordon, p. 74〕
First flown on 7 March 1953,〔 flight tests revealed no serious shortcomings in the air. The operational CG was too far aft, but this was only a minor problem when landing, taking off and taxiing, especially when coupled with the rather short wheelbase. The biggest problem proved to be the guns and their effect on the engines. During the first aerial test of the cannons at the end of March 1953 the muzzle flash temporarily blinded the pilot and both engines flamed out.〔 The pilot was able to restart the engines and made it back safely, but Sergey Ilyushin immediately started an investigation into the cause of the engine problems. Ground tests with high-speed cameras revealed that none of the muzzle brakes or blast suppressors tested made any difference; the engines would hiccup even if only a single gun fired just five to ten rounds.〔Gordon, p. 68〕
A decision was made to replace the six NR-23 guns in the nose with four AM-23 cannon with 225 rounds per gun that had a rate of fire 50% greater than that of the NR-23 and to totally revise the gun installation. The guns were moved to the very tip of the nose in a separate compartment made of heat-resistant steel and provided with a special blast deflector chamber to deflect the blast gasses away from the engine inlets. Two doors were provided at the bottom of the chamber to ventilate the chamber while firing. One problem occurred almost immediately during testing when the blast gases accumulated in the section where spent cartridges and links were saved and sometimes ignited.〔Gordon, p. 69〕 Occasionally this was strong enough to actually deform the chamber. The spent shell case section was thoroughly ventilated and muzzle brakes were introduced to successfully cure the problem.〔Gordon, pp. 68–69〕
Resolving the problem with the guns had prevented the aircraft from undergoing its State acceptance trials in July 1953 as stipulated and a special commission was appointed to conduct the trials on 31 December 1953. After the manufacturer's trials were successfully concluded in January 1954 the aircraft was turned over and the State acceptance trials lasted from 21 January — 15 March 1954. The tests were generally successful with the Il-40 proving to be easy to fly, maneuverable enough to be a handful for the MiG-15bis and MiG-17 fighters opposing it and considerably superior to the piston-engined Ilyushin Il-10M ground-attack aircraft then in service. However fight tests did reveal blast gas ingestion when firing in a sideslip by the engine on the side opposite the sideslip. Several solutions were evaluated to cure the problem, but Ilyushin pushed for the more radical solution of extending the air intakes for the engines all the way to the nose of the aircraft and moving the guns to the bottom of the nose, behind the air intakes.〔Gordon, pp. 70–71〕
The change in position of the guns and the extension of the air intakes, which looked "uncannily like a double-barreled shotgun,"〔Gordon, p. 71〕 allowed the nose wheel to be moved forward to lengthen the wheelbase. The guns were mounted behind the nose wheel well and a special shield was added to protect the gun barrels from debris thrown up by the nose wheel; it was mechanically linked to the nose wheel and extended when it did. Other changes included the replacement of the original AM-5F engines by the Tumansky RD-9V, an improved version of the AM-5F, the normal bomb load was increased to 1,000 kg and in overloaded condition, and a rear-view mirror was added to allow the pilot to better observe the rear upper hemisphere.〔Gordon, pp. 71–72〕

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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