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The X-15 launches away from the B-52 Mothership with it's rocket engine ignited.
The X-15
Late in the year of 1954, the National Advisory Committee for Aeronautics (NACA) issued a requirement for an air-launched manned research vehicle with a maximum speed of more than Mach 6 and a maximum altitude of more than fifty miles. North American Aviation Incorporated was awarded the contract for the new research vehicle, the X-15.
Developed under USAF Project MX-1226, three X-15s were built and together made 199 flights during a research program which lasted from 1959 to 1968, exceeding all speed and altitude goals set. The X-15 was designed to fly at speeds of Mach 6 and altitudes up to 250,000 feet. The aircraft went on to reach a maximum speed of Mach 6.7 and a maximum altitude of 354,200 feet. Mach 6 is about one mile per second and flight above 265,000 feet qualifies an Air Force pilot as an astronaut.
The X-15 made its public appearance on 15 October 1958 at North American's Los Angeles facility and the first of the three X-15s arrived at Edwards AFB two days later. On 10 March 1959, with project pilot A. Scott Crossfield at the controls, the X-15 made its first captive-carry flight under the right wing of a B-52 carrier aircraft. On 8 June 1959, it made its first glide flight, reaching a speed of 522mph (Mach 0.79) from a release altitude of 52,341 feet.
During a test flight, the X-15 would be air-launched by NASA's converted B-52 at an altitude of 45,000 feet and a speed of 500 mph. Generally, there were two types of flight profiles: high-speed or high-altitude. High-speed flights were usually conducted below an altitude of 100,000 feet and flown as a conventional airplane using aerodynamic controls. High-altitude flights began with a steep, full-power climb to leave the atmosphere. This was followed by up to two minutes of "coasting up" to peak altitude after the engine was shut down. High-altitude flights usually lasted for 2-5 minutes as it made a ballistic arc before reentering the atmosphere. A reaction control system, employing hydrogen peroxide thrusters located on the nose and wings, was used to maintain attitude above the atmosphere.
A typical research flight lasted about 10 or 11 minutes while covering nearly 400 miles along a course that stretched from Smith Ranch, Nevada to Edwards Air Force Base.
Accomplishments
The X-15 program made many accomplishments, here is list of some of its contributions to space flight:
- First use of a full-pressure suit for spaceflight.
- First use of reaction controls for maneuvering in space.
- First use of a flight control system that automatically blended aerodynamic and reaction controls.
- Development of thermal protection for hypersonic reentry.
- Development of the first large, restartable, and throttleable rocket engine.
- Development of an inertial guidance system.
- Demonstration of a pilot's ability to operate in "micro-gravity".
- Demonstration of the first piloted reentry-to-landing from space.
- Acquisition of hypersonic acoustic measurements, which influenced structural design criteria for Mercury capsule.
- Verification of the validity of hypersonic wind tunnel data, which were later used in the design of the Space Shuttle.
Characteristics
| Description |
| Manufacturer: |
North American |
| Designation: |
X-15 |
| Type: |
X Plane
(Special Research/Experimental A/C) |
| First Flew: |
Jun 8 1959 |
| Specifications |
| Length: |
50' 3" |
15.32 M |
| Height: |
11' 7" |
3.53 M |
| Wingspan: |
22' 4" |
6.81 M |
| Empty Weight: |
11374.0 lbs |
5158.00
Kg |
| Gross Weight: |
31275.0 lbs |
14183.0
Kg |
| Propulsion |
| No. of Engines: |
1 |
| Powerplant: |
Reaction
Motors XLR-99 rocket engine |
| Thrust: |
57000 lbs |
| Performance |
| Range: |
275 miles |
442.00 Km |
| Max Speed: |
4104.00 Mph |
6608.00 Km/H |
3571.89 Kt |
| Ceiling: |
314750 Ft |
95931.0
M |
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