The Messerschmitt Me 262 was a German World War II fighter aircraft built by Messerschmitt in the later stages of the war, and under license by Avia post-war.
Messerschmitt began work on a single-seat jet-powered fighter before the start of World War II. The initial design was known as Projekt 1070 (P.1070). A twin-engined straight-wing design, the P.1070 was canceled in favor of the similar P.65. [1] The P.65 was designed with a straight wing, similar to the P.1070, as well as an unswept vertical stabilizer. The prototypes were to be powered by two BMW 003 (P.3302) turbojet engines, while production aircraft would have had two BMW P.3304 engines. Messerschmitt later redesigned the P.65 with swept wings and tail surfaces as the P.1065, which was to have conventional landing gear and be armed with three MG 151 cannons with 250 rounds each. [1] [2] As of July 1940, the RLM ordered 20 prototypes of the P.1065 and planned to take delivery of the first aircraft by September of that year. [2] However, delays with the BMW 003 engines meant that no P.1065 prototypes had been built by the end of the year.
In February 1941, Messerschmitt began work on the P.1065 V1, which was powered by a single Junkers Jumo 210G piston engine driving a two-bladed propeller. The V1 prototype made its first flight on April 18, 1941, ten days after the P.1065 was assigned the designation Me 262. [2] In September 1941, BMW delivered the P.3302 engines to Messerschmitt, which were fitted to the Me 262 V1 after it had flown 47 times under piston power. The BMW-powered V1, which retained its Jumo engine, made its first take-off under jet power on March 25, 1941. Both engines suffered a compressor blade failure during the flight, forcing test pilot Fritz Wendel to land under piston power alone. [2]
Following the successful test flights of the rival Heinkel He 280, the RLM cut back its initial order for 20 prototypes to just five on May 29, 1942. However, only three days later, Messerschmitt took delivery of two Junkers Jumo 004A turbojet engines. These were fitted to a new prototype, the Me 262 V3, which, after a failed first take-off attempt, took off on the second attempt and flew without problems on June 18. Following the success of the V3, the V2 prototype (which was intended to be powered by the BMW 003) was fitted with these engines and a new V4 prototype was built to this configuration. The conventional landing gear of the first four prototypes caused exhaust from the engines to deflect off the runway and caused the tail to be caught in the turbulence, making take-off difficult. To remedy this, the V5 prototype was built with fixed tricycle landing gear, and the definitive V6 was built with retractable tricycle gear. [3]
Engine troubles continued to plague the Me 262 even after the switch to the Jumo 004. While airframe modifications were completed in 1942, a lack of engines meant that serial production did not begin until 1944. [4]
Messerschmitt released a report on September 11, 1943 featuring drawings of multiple proposed variants and derivatives of the production Me 262. Some of these proposals were later built in prototype form. [2]
Sixteen pre-production aircraft were ordered before the V6 prototype first flew. Delivery of these aircraft, designated Me 262A-0, were delayed by a shortage of engines. They were eventually delivered in April 1944, with an additional seven being delivered the following month for a total of 23 aircraft. [5] The Me 262A-0s were sent to Erprobungsstelle Rechlin for evaluation. Pilots were satisfied with the Me 262's flight characteristics, and the Me 262 was ordered into full-scale production. [5]
The first production variant, the Me 262A-1a, entered service in July 1944. This variant, nicknamed Schwalbe (German: "Swallow"), was powered by two 8.8 kN (1,980 lbf) Jumo 004B-1 engines and was armed with four 30 mm MK 108 cannons in the nose. [8]
A single Me 262A-1a/U1 was built with an increased nose armament of two 20 mm (0.787 in) MG 151 cannons, two 30 mm (1.181 in) MK 103 cannons, and two 30 mm (1.181 in) MK 108 cannons. [9] A single night fighter prototype was built at the Me 262A-1a/U2 with FuG 220 Lichtenstein SN-2 90 MHz radar transceiver and a Hirschgeweih (stag's antlers) antenna array. [9] The Me 262A-1a/U3 was a reconnaissance modification built in small numbers with either Rb 20/30 cameras or one Rb 20/20 and one Rb 75/30 camera. Two Me 262A-1a/U4 bomber destroyer prototypes were built with a single 50 mm (1.969 in) anti-tank gun in the nose. The /U4 was originally intended to be armed with the MK 214A cannon, but a lack of availability meant that it was fitted with a Rheinmetall BK-5 in the interim. The MK 214A was eventually fitted to the /U4 in February 1945, but the aircraft was not accepted for production. [9] [10] The Me 262A-1a/U5 was a heavy fighter prototype with six MK 108 cannons in the nose. [6]
The Me 262A-1b was a modification of the A-1a with BMW 003A engines in place of the Jumo 004s. Only three such aircraft were built.
Based on the Jäger u.Jabo proposal from the September 1943 report, the Me 262A-2a, nicknamed Sturmvogel (German: "Storm Bird"), was the definitive fighter-bomber version of the Me 262. While similar to the Me 262A-1a, the A-2a featured bomb racks capable of carrying two 250 kg (550 lb) or 500 kg (1,100 lb) bombs under the fuselage, and the upper pair of guns was deleted for balance, though some aircraft retained their empty upper gun ports. [9] [11]
One aircraft was fitted with a TSA bombsight as the Me 262A-2a/U1. [6] Two Me 262A-2a/U2 prototypes were built with a glazed nose for a bombardier. [9]
The Me 262A-3a was a proposed low-level ground-attack variant of the Me 262A. Based on the Panzerflugzeug concepts from the September 1943 report, the A-3a would have had increased armor for the pilot, ammunition, air intakes, and fuel. The increased armor was expected to bring a decrease in range and performance, and no prototypes were built before the end of the war. [1]
The Me 262A-4a was an interim unarmed reconnaissance variant of the Me 262A. It was replaced by the armed Me 262A-5a, which had two MK 108 cannons as well as drop tanks. [9]
Several Rüstsätze field modification kits were made for the Me 262. These kits, denoted by /R numbers, differed from the Umrüst-Bausätze kits (/U numbers) in that they could be fitted in the field rather than being installed in the factory. The following Rüstsätze were made for the Me 262A: [12]
The need for a jet-powered trainer for the Luftwaffe led Messerschmitt to develop the dual-control Me 262B-1a. The B-1a was similar to the A-1a, but had a second seat in place of the rear fuel tank. [13] Provisions for external fuel tanks were provided to extend the range. [5] [6] [14] Only 15 B-1a trainers were built, with some being modified as Me 262B-1a/U1 night fighters. The B-1a/U1 was equipped with a FuG 218 Neptun radar and was armed with two MK 108 and two MG 151 cannons. Operationally, the radar's antenna proved to be a source of drag, but the B-1a/U1 could still outrun the de Havilland Mosquito. [14]
The success of the Me 262B-1a/U1 led to the development of the Me 262B-2a, a dedicated night fighter. The B-2a had a stretched fuselage with increased fuel capacity and was to be armed with two upward-facing MK 108 cannons in a Schräge Musik configuration behind the cockpit. Early models were to have been fitted with a Neptun radar with "antler" antennas, but later production aircraft would have been fitted with a FuG 240 Berlin with an internal antenna. Only one prototype was built before the war ended. [5] [14]
The Me 262C home defense fighter was developed from the Interzeptor series of proposals from the September 1943 report. The first variant was the Me 262C-1a, also known as Heimatschützer I, which was developed from Interzeptor I. The C-1a was similar to the A-1a, but had a Walter HWK 109-509A-1 rocket engine housed in the tail. A single prototype was built from an A-1a, which first flew under turbojet power on October 16, 1944. The first flight under rocket power was conducted on February 27, 1945. The C-1a prototype piloted by Major Heinrich Bär reportedly intercepted and shot down a Republic P-47 Thunderbolt. However, the internal mounting of the rocket engine limited internal fuel storage for the turbojets and made servicing the rocket difficult. [15] [16]
A single prototype of the Me 262C-2b (Heimatschützer II) was converted from an A-1a. Based on the Interzeptor II proposal, the C-2b was powered by two BMW 003R mixed-power turbojets; a combination of a BMW 003A turbojet and a BMW 109-718 rocket engine. The C-2b, piloted by Karl Baur, made its only flight in March 1945. [15]
There were two versions of the Me 262C-3. The first, Heimatschützer III, was derived from the Interzeptor III proposal and would have replaced the turbojets of the A-1a with Walter HWK RII-211 rocket engines. [17] The second, Heimatschützer IV or Me 262C-3a, retained its turbojets and was to be fitted with a jettisonable Walter HWK 109-509S-2 and fuel tanks under the fuselage. Construction of the prototype was started before the end of the war, but problems with the installation of the rocket engine meant that it could not be finished before the factory was overrun by Allied forces in April 1945. [18]
In April 1941, Adolf Busemann proposed that a 35° swept wing be fitted to the Me 262. Although this was not implemented, it did lead to the development of the Hochgeschwindigkeit ("high-speed") project to improve the Me 262's speed. [7] In 1944, the Me 262 V9 prototype was modified with a low profile canopy, known as the Rennkabine ("racing cabin"), as the Hochgeschwindigkeit I, or Me 262 HG I. [7]
The more radical Hochgeschwindigkeit II (Me 262 HG II) proposal was to feature a new 35° swept wing with engines moved closer to the fuselage and a V-tail, though this was changed back to a conventional tail after wind tunnel tests showed that the V-tail was unstable. The Hochgeschwindigkeit III (Me 262 HG III) was to have a 45° swept wing and Heinkel HeS 011 engines in the wing roots. [7] Neither of these projects were built.
The Me 262D-1 was a proposed Zerstörer variant. It was to be armed with twelve SG 500 Jagdfaust recoilless rifles in the nose, which were meant to be fired from under an enemy bomber. [6]
The Me 262E-1 was to be fitted with a 50 mm MK 114 cannon in the nose, similar to the Me 262A-1a/U4. The project was abandoned because the cannon flash and smoke limited visibility, but not before four prototypes were converted from Me 262A-1a airframes. [6] [19] The Me 262E-2 was a proposed rocket-armed variant with a total of 48 R4M rockets; 12 on each wing and 24 in the nose. [6] [19]
The Me 262W-1 was a proposed pulsejet-powered variant with two 2.7 kN (610 lbf) Argus As 014 engines. The similar Me 262W-3 proposal was to be fitted with two 4.90 kN (1,102 lbf) "square-intake" Argus As 044 engines. One of the more radical proposals was the ramjet-powered Me 262 Lorin. This variant was to be fitted with two Lorin ramjets (named after ramjet inventor René Lorin) mounted over the wings; one over each turbojet, resulting in a four-engined aircraft. Performance was expected to increase dramatically, but at the cost of range, which would have been reduced by about 80%. [20]
Proposed in January 1944 as a multirole development of the Me 262, the P.1099 was based on the Schnellbomber Ia concept from 1943. [21] Two variants were proposed, the P.1099A and P.1099B. The P.1099A was to have the wings and tail of the Me 262A-2a, but with an enlarged fuselage and two-wheel main undercarriage. Two crew were to sit in an enlarged cockpit in the front of the aircraft, and it was to be powered by two Jumo 004C engines. A total of five different armament configurations were proposed, which are detailed in the table below.
The similar P.1099B featured a redesigned cockpit housing two or three crew. Three armament configurations were proposed, including some with defensive armament in barbettes.
| P.1099A | ||
|---|---|---|
| Fighter I | Configuration A |
|
| Configuration B |
| |
| Configuration C |
| |
| Fighter II | Configuration A |
|
| Configuration B |
| |
| P.1099B | ||
| Fighter I | Configuration A |
|
| Configuration B |
| |
| Fighter II | Configuration A |
|
Based on the P.1099, the P.1100 was a proposed bomber development of the Me 262. Two different designs were proposed, with the P.1100/I sharing the same layout as the P.1099 but with an internal bomb bay capable of carrying a 2,000 kg (4,400 lb) bomb. It was to be crewed by a pilot and a navigator/bombardier, with the pilot sitting in an offset cockpit. Power was to be provided by two Jumo 004C turbojets, with plans to upgrade to Heinkel HeS 011 engines later on. No defensive armament was planned for this variant.
The P.1100/II was to have the swept wings and engines of the Me 262 HG III and be crewed by two in the cockpit. Multiple defensive armament configurations were proposed. Despite interest from the RLM, both the P.1099 and P.1100 were canceled in 1945 due to fears that they would be underpowered.
During the later stages of the war, production of the Me 262 was carried out by factories in German-occupied Czechoslovakia. After the end of the war in Europe, no airworthy Me 262s were left in the country, with all either being destroyed by retreating German forces or confiscated by the former Allied powers. However, the Czech factories still had the necessary equipment to build new aircraft. Although there was initially insufficient documentation to replicate the Me 262, the missing plans were obtained from an American aviation magazine. Avia was charged with continuing production of the Me 262 post-war under the designation S-92, nicknamed "Turbina".[ citation needed ]
The Turbina was built in two variants; the single-seat S-92 and the two-seat CS-92. The first two prototypes were designated S-92.1 and S-92.2, with the former making its first flight on October 24, 1946. Most Turbina aircraft were powered by a pair of Avia M-04 turbojets (locally produced Jumo 004s), though one prototype, S-92.7, was powered by a pair of BMW 003s. Only nine S-92s and three CS-92s were built, and by the early 1950s they were outclassed by more modern fighters and were soon replaced by newer Soviet jets.
Five Me 262 reproductions were built by the Me 262 Project. These reproductions are faithful to the original aircraft, but have several upgrades to improve safety. These upgrades include strengthened landing gear and improved brakes, and power was provided by two modern General Electric CJ610 turbojets in place of the less reliable Jumo 004. [22] The change in engine led to these reproductions using the "c" suffix in place of the "a" and "b" suffixes used for Jumo 004-powered and BMW 003-powered wartime variants, respectively. [23] The aircraft were built in three models; the single-seat Me 262A-1c, the two-seat Me 262B-1c, and the interchangeable one/two-seat Me 262A/B-1c. The first reproduction, an Me 262B-1c, made its first flight on December 20, 2002. [24]
The Messerschmitt Me 262, nicknamed Schwalbe in fighter versions, or Sturmvogel in fighter-bomber versions, is a fighter aircraft and fighter-bomber that was designed and produced by the German aircraft manufacturer Messerschmitt. It was the world's first operational jet-powered fighter aircraft.
JATO is a type of assisted take-off for helping overloaded aircraft into the air by providing additional thrust in the form of small rockets. The term JATO is used interchangeably with the term RATO, for rocket-assisted take-off.
The Arado Ar 234 Blitz is a jet-powered bomber designed and produced by the German aircraft manufacturer Arado. It was the world's first operational turbojet-powered bomber, seeing service during the final years of Second World War.
The Junkers Jumo 004 was the world's first production turbojet engine in operational use, and the first successful axial compressor turbojet engine. Some 8,000 units were manufactured by Junkers in Germany late in World War II, powering the Messerschmitt Me 262 fighter and the Arado Ar 234 reconnaissance/bomber, along with prototypes, including the Horten Ho 229. Variants and copies of the engine were produced in Eastern Europe and the USSR for several years following the end of WWII.
The BMW 003 is an early axial turbojet engine produced by BMW AG in Germany during World War II. The 003 and the Junkers Jumo 004 were the only German turbojet engines to reach production during World War II.
The Messerschmitt Me 264 was a long-range strategic bomber developed during World War II for the German Luftwaffe as its main strategic bomber. The design was later selected as Messerschmitt's competitor in the Reichsluftfahrtministerium's Amerikabomber programme, for a strategic bomber capable of attacking New York City from bases in France or the Azores.
The Heinkel He 280 was an early turbojet-powered fighter aircraft designed and produced by the German aircraft manufacturer Heinkel. It was the first jet fighter to fly in the world.
The Junkers Ju 287 was an aerodynamic testbed built in Nazi Germany to develop the technology required for a multi-engine jet bomber. It was powered by four Junkers Jumo 004 engines, featured a novel forward-swept wing, and, apart from the wing, was assembled largely from components scavenged from other aircraft. It was one of the very few jet propelled aircraft ever built with fixed landing gear.
The Messerschmitt Me 328 was a prototype pulsejet-powered fighter aircraft designed and produced by the German aircraft manufacturer Messerschmitt AG.
The Henschel Hs 132 was a World War II dive bomber and interceptor aircraft of the German Luftwaffe that never saw service. The unorthodox design featured a top-mounted BMW 003 jet engine and the pilot in a prone position. The Soviet Army occupied the factory just as the Hs 132 V1 was nearing flight testing, the V2 and V3 being 80% and 75% completed.
The Messerschmitt Me 323 Gigant ("Giant") was a German military transport aircraft of World War II. It was a powered variant of the Me 321 military glider and was the largest land-based transport aircraft to fly during the war. In total, 213 were made, with 15 being converted from the Me 321.
Wunderwaffe is a German word meaning "wonder-weapon" and was a term assigned during World War II by Nazi Germany's propaganda ministry to some revolutionary "superweapons". Most of these weapons however remained prototypes, which either never reached the combat theater, or if they did, were too late or in too insignificant numbers to have a military effect.
The Heinkel HeS 011 or Heinkel-Hirth 109-011(HeS - Heinkel Strahltriebwerke) was an advanced World War II jet engine built by Heinkel-Hirth. It featured a unique compressor arrangement, starting with a low-compression impeller in the intake, followed by a "diagonal" stage similar to a centrifugal compressor, and then a three-stage axial compressor. Many of the German jet-powered aircraft designs at the end of the war were designed to use the HeS 011, but the HeS 011 engine was not ready for production before the war ended in Europe and only small numbers of prototypes were produced.
The Messerschmitt P.1101 was a single-seat, single-jet fighter project of World War II, developed as part of the 15 July 1944 Emergency Fighter Program which sought a second generation of jet fighters for the Third Reich. A prominent feature of the P.1101 prototype was that the sweep angle of the wings could be changed before flight, a feature further developed in later variable-sweep aircraft such as the Bell X-5 and Grumman XF10F Jaguar.
Due to the Messerschmitt Bf 109's versatility and time in service with the German and foreign air forces, numerous variants were produced in Germany to serve for over eight years with the Luftwaffe. Additional variants were produced abroad totalling in 34,852 Bf 109s built.
The Messerschmitt P.1095 was a German military aircraft designed by Rudolf Seitz at the end of 1943. The aircraft used the wings, cockpit, and controls of the Me 262 and the tail surfaces and landing gear of the Me 309. The design was to have been powered by a turbojet engine located under the fuselage, and it was to have been armed with two nose-mounted MK 108 cannon.
The Messerschmitt P.1099 was a two-seat prototype jet plane designed by Messerschmitt for the Luftwaffe before the end of the Second World War.
The Focke-Wulf Volksjäger, meaning "People's Fighter" in German, was a German emergency fighter project for the Luftwaffe. It was designed by Focke-Wulf industries towards the end of World War II as part of the defense effort against the devastating Allied bombing raids.
The Gotha Go P.60 was a jet-powered flying wing fighter proposed during World War II by Gothaer Waggonfabrik (Gotha). It was conceived as an improved derivative of the single-seat Horten Ho 229, which Gotha had begun to manufacture as the Go 229. The initial concept a two-seat multi-role fighter that was subsequently developed into a three-seat night and all-weather fighter, but no variant was ever built.
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