In 1967, William “Pete” Knight made history at the stick of his North American X-15A-2 rocket-powered aircraft when he reached a speed of Mach 6.7, or around 5,140 miles per hour, at an altitude of some 102,000 feet.
While this particular flight was one for the record books, it was no fluke. Over nine years, 12 pilots would take the stick of the X-15 for a total of 199 flights, 13 of which even met the Air Force’s criteria for spaceflight, earning eight pilots their astronaut wings.
A total of three X-15s were built and while they were indeed hypersonic aircraft, they were a long way from operational platforms.
In order to achieve its incredible speeds, the X-15 relied on a liquid-propellant rocket engine that would only burn for between 80 and 120 seconds – but in that short time it made wonders. The aircraft’s XLR99 rocket engine produced an incredible 600,000 horsepower and 70,400 pounds of thrust.
In order to make the most of that short burn, the X-15 was carried aloft under the wing of a B-52 Stratofortress and dropped at a speed of around 500 miles per hour before hitting the throttle and dumping fuel into the idling rocket engine.
During atmospheric flight, the X-15 used conventional aerodynamic control, relying on rudder surfaces on the vertical stabilizers to control yaw (or movement of the nose from the left to right) and canted horizontal surfaces on the tail to control pitch (aiming the nose up and down). However, once the X-15 left the atmosphere, it would transition to using hydrogen peroxide thrust rockets on its nose and wings to orient itself.
Although the United States had already experimented with the idea of using aircraft like the B-36 Peacemaker as flying aircraft carriers, the Air Force and NASA had no illusions about the practicality of the X-15 as a tactical platform. Its purpose was testing the limits of the technology of the day, and in that regard, it was a resounding success.
The X-15’s 199 successful flights forever changed how the United States saw high-speed aviation.
“The fallout was far-reaching in numerous crucial areas . . . The X-15’s survival encouraged extensive use of comparatively exotic alloys, such as titanium and Inconel-X, which led to machining and production techniques that became standard in the aerospace industry,” NASA historian, Dr. Roger Bilstein wrote in his book, Testing Aircraft, Exploring Space.
“The chance of accidental loss of pressurization prompted development of the first practical full-pressure suit for pilot protection in space. The X-15 was the first to use reaction controls for attitude control in space; re-entry techniques and related technology also contributed to the space program, and even earth science experiments were carried out by the X-15 in some of its flights,” Bilstein continued.
On October 24, 1968, NASA’s William H. Dana brought the final X-15 flight to a close after touching down on a dry lake bed at around 200 miles per hour.
In just nine years, the X-15 changed the shape of high-speed aviation, and there are good chances that we’ll continue to see lessons learned throughout the X-15 program manifest in new efforts as the world shifts its focus toward hypersonics.
Editor’s Note: This article was originally published in December 2021. It has been edited for republication.
Feature Image: The X-15 aircraft in flight. (U.S. Air Force)
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