Profile image

Sternschnuppen: Messerschmitt Me 163B Komet

26.5k Dracul0Anderson  1.2 years ago

The start of a series of planes covering the development of the me 163.

The Messerschmitt Me 163 Komet is a rocket-powered interceptor aircraft primarily designed and produced by the German aircraft manufacturer Messerschmitt. It is the only operational rocket-powered fighter aircraft in history as well as the first piloted aircraft of any type to exceed 1,000 kilometres per hour (620 mph) in level flight.
imagename
Development of what would become the Me 163 can be traced back to 1937 and the work of the German aeronautical engineer Alexander Lippisch and the Deutsche Forschungsanstalt für Segelflug (DFS). Initially an experimental programme that drew upon traditional glider designs while integrating various new innovations such as the rocket engine, the development ran into organisational issues until Lippisch and his team were transferred to Messerschmitt in January 1939. Plans for a propeller-powered intermediary aircraft were quickly dropped in favour of proceeding directly to rocket propulsion. On 1 September 1941, the prototype performed its maiden flight, quickly demonstrating its unprecedented performance and the qualities of its design. Having been suitably impressed, Nazi officials quickly enacted plans that aimed for the widespread introduction of Me 163 point-defence interceptors across Germany. During December 1941, work began on the upgraded Me 163B, which was optimized for large-scale production.

During early July 1944, German test pilot Heini Dittmar reached 1,130 km/h (700 mph), an unofficial flight airspeed record that remained unmatched by turbojet-powered aircraft up until 1953. That same year, the Me 163 began flying operational missions, being typically used to defend against incoming enemy bombing raids. As part of their alliance with Empire of Japan, Germany provided design schematics and a single Me 163 to the country; this led to the development of the Mitsubishi J8M. By the end of the conflict, roughly 370 Komets had been completed, most of which were being used operationally. However, some of the aircraft's shortcomings were never addressed, and the type was not as effective in combat as had been hoped. Being only capable of a maximum of seven and a half minutes of powered flight, its range fell short of projections and greatly limited its potential. Efforts to improve the aircraft were made (most notably the development of the Messerschmitt Me 263), but many of these did not see actual combat due to the sustained advancement of the Allied powers into Germany in 1945.

For a dedicated interceptor aircraft that achieved operational status, the track record of the Me 163 is somewhat underwhelming, having been credited with the destruction of between nine and 18 Allied aircraft against ten losses. Aside from the actual combat losses incurred, numerous Me 163 pilots had been killed during testing and training flights. This high loss rate was, at least partially, a result of the later models' use of rocket propellant, which was not only highly volatile but also corrosive and hazardous to be around. One noteworthy fatality was that of Josef Pöhs, a German fighter ace and Oberleutnant in the Luftwaffe, who was killed in 1943 through exposure to T-Stoff in combination with injuries sustained during a failed takeoff that ruptured a fuel line. Besides Nazi Germany, no nation has ever made operational use of either the Me 163 specifically, or rocket planes in general; however, a few captured Me 163s were flown for evaluation and research purposes.

Takeoff instructions: Full throttle, wait for it the lift off, then activate AG2 to detach the wheels. AG1 to open cockpit.
imagename
imagename

Spotlights

General Characteristics

  • Created On Android
  • Wingspan 29.3ft (8.9m)
  • Length 18.6ft (5.7m)
  • Height 9.3ft (2.8m)
  • Empty Weight 6,334lbs (2,873kg)
  • Loaded Weight 6,803lbs (3,085kg)

Performance

  • Power/Weight Ratio 5.945
  • Wing Loading 50.6lbs/ft2 (246.9kg/m2)
  • Wing Area 134.5ft2 (12.5m2)
  • Drag Points 1164

Parts

  • Number of Parts 163
  • Control Surfaces 5
  • Performance Cost 637