The X-15 Rocket Plane: North America’s Speed King, Clocking 4000 mph!

The X-15: A Hypersonic Pioneer

The X-15, a remarkable hypersonic rocket aircraft, stands as a testament to human ingenuity and technological advancement. Designed and constructed by North American for NACA (later NASA) testing, the X-15 achieved groundbreaking accomplishments in the 1960s that continue to be unrivaled even after six decades. This ambitious project yielded invaluable data that profoundly influenced the design of future aircraft.

Maximum Speed Aspiration

In the late 1940s, aircraft designers began to dream of achieving speeds that surpassed the sound barrier and ventured into the realm of hypersonic flight. One early endeavor in this pursuit was the Douglas X-3 Stiletto, designed to reach twice the speed of sound—a remarkable feat for the early 1950s. However, by 1954, the demand emerged for an aircraft capable of testing a new engine type, flying at Mach 5 or higher, and reaching altitudes previously unexplored.

Jet engines of the era struggled to propel aircraft beyond Mach 2 due to their limited power. In a simplified explanation, turbojet engines rely on air intake, mixing with fuel, and combustion to generate thrust. They are optimized for specific altitudes to achieve peak performance.

The Challenge of Drag

Another critical factor influencing top speed is aerodynamic drag or air resistance. As an object accelerates, air resistance increases. This phenomenon is palpable when sticking one’s hand out of a moving car window; the air exerts noticeable pressure. Consequently, even modern jet fighters cannot attain their claimed top speeds at low altitudes.

However, at higher altitudes, the atmosphere thins, reducing air resistance and making high-speed travel more feasible. Conversely, jet engines require air to function efficiently, so flying too high can lead to significant decreases in engine performance.

Rocket Power Solution

To overcome the limitations imposed by diminishing air density at high altitudes, rocket motors offer a straightforward solution. Rockets burn fuel without relying on atmospheric oxygen; instead, they carry liquid oxygen separately. Thus, the higher the altitude, the greater the potential for achieving higher speeds.

The Heinkel He-176 marked the world’s first rocket-powered aircraft, but the Messerschmitt Me-163 Komet is more widely recognized. In 1944, the Komet reached an impressive 620 mph in level flight, unofficially setting a flight speed record at 700 mph—a record unbroken until 1953.

Post-World War II, as military powers sought any advantage in potential conflicts, rocket-powered aircraft garnered significant attention.

The Birth of the X-15

In 1955, North American was awarded the contract for the X-15’s airframe. Reaction Motors was tasked with building the engines, and merely four years later, in June 1959, the X-15 conducted its maiden flight.

The X-15 deviated from traditional aircraft designs in that it was never meant to take off under its own power. Similar to other experimental aircraft like the M2-F3 Lifting Body, the X-15 relied on a “mothership” for its initial ascent.

NACA/NASA utilized an aging B-52A aircraft retired in 1969 and a B-52B, both modified with pylons on the right wing to carry test vehicles. These were designated NB-52A “The High and Mighty One” and NB-52B “Balls 8.”

“Balls 8” first took flight in June 1955 and remained in service until December 2004, making it the oldest flying B-52 and the only B model still in operation at the time.

Design Constraints and Sleek Profile

Design considerations included the need for the X-15 to fit beneath a B-52’s wing, necessitating a relatively compact design. The X-15 was designed for a single crew member and boasted a length of 50 feet 9 inches and a wingspan of only 22 feet 4 inches.

The X-15’s sleek profile was tailored for hypersonic speeds, classifying it as a high-performance machine. Hypersonic speeds typically begin at Mach 5, which is equivalent to speeds exceeding 3,836 mph.

Three X-15 aircraft were constructed—X-15-1, -2, and -3—each participating in various flight missions. X-15-1 completed an impressive 81 flights, while X-15-2 soared through the skies 53 times.

Tragically, X-15-3 met with an accident on its 65th test flight in 1967, spiraling out of control at hypersonic speeds during descent, resulting in a catastrophic breakup that scattered debris across 50 square miles. Pilot Michael Adams lost his life in this tragic accident.

The only other accident occurred in 1962 when X-15-2 crashed upon landing, causing substantial damage to the aircraft. After extensive repairs, modifications were made, including the addition of liquid hydrogen storage and a 2.4-foot fuselage extension, along with auxiliary fuel tanks for extended range.

Rocket Powerhouse

The powerplant was a pivotal aspect of the initial design, as the X-15 had to accommodate two XLR11 rocket motors and fuel tanks capable of propelling it to the edge of space. Every aspect of the X-15’s design was geared toward making it the fastest and highest-flying aircraft ever.

The Reaction Motors’ XLR11 rocket motor, producing 6,000 pounds of thrust, was initially used, but an incredible upgrade was developed by the end of 1960—the XLR99. This vastly superior rocket motor delivered approximately ten times the thrust per motor and was of similar size. Generating 57,000 pounds of thrust, the XLR99 powered the X-15 for the remainder of its service life. This remarkable performance was achieved through the use of anhydrous ammonia and liquid oxygen.

Remarkably, the X-15 could burn through 15,000 pounds of fuel in just 80 seconds.

Historic Achievements

In 1967, the X-15 reached astonishing altitudes, soaring to 102,000 feet (19.34 miles) and achieving a top speed of 4,520 mph. To put this into context, 1967 was the year of the inaugural Super Bowl game.

The X-15’s prowess was not limited to speed alone; it also set numerous altitude records. In 1963, test pilot Joseph Walker reached an astounding altitude of 67 miles, surpassing 353,000 feet, at a speed of 3,794 mph (Mach 4.98). Any flight exceeding 264,000 feet qualified the pilots as astronauts.

A Legacy of Achievement

Despite a tragic accident resulting in the loss of life with the crash of X-15-3, the X-15 project, spanning from 1955 to its final flight in October 1968, stands as an enormous success. A total of 199 flights were completed, yielding some of the highest and fastest flights ever recorded, many of which remain unbeaten.

Today, two surviving X-15s are on display in museums, serving as a reminder of humanity’s capacity to achieve the extraordinary. The era between the end of World War II and the 1980s witnessed remarkable advancements in aviation, transforming the way we design and perceive aircraft.

Specifications:

  • Crew: One
  • Length: 50 ft 9 in (15.47 m)
  • Wingspan: 22 ft 4 in (6.81 m)
  • Height: 13 ft 3 in (4.04 m)
  • Wing area: 200 sq ft (19 m2)
  • Empty weight: 14,600 lb (6,622 kg)
  • Gross weight: 34,000 lb (15,422 kg)
  • Powerplant: 1 × Reaction Motors XLR99 liquid-fueled rocket engine, 70,400 lbf (313 kN) thrust
  • Maximum speed: 4,520 mph (7,270 km/h, 3,930 kn)
  • Range: 280 mi (450 km, 240 nmi)
  • Service ceiling: 354,330 ft (108,000 m)
  • Rate of climb: 60,000 ft/min (300 m/s)

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