Death of DARPA's Superfast Hypersonic Glider Explained

An artist's illustration of DARPA's Hypersonic Technology Vehicle 2 (HTV-2) travelling at 13,000 mph, or Mach 20, during its Aug. 11, 2011 test flight.
An artist's illustration of DARPA's Hypersonic Technology Vehicle 2 (HTV-2) travelling at 13,000 mph, or Mach 20, during its Aug. 11, 2011 test flight. (Image credit: DARPA)

An ultra-fast U.S. military drone that streaked across the sky at 13,000 mph and met its demise in the Pacific was doomed by the excessive heat of hypersonic travel, which literally peeled away the drone's metal skin, military officials have revealed.

A seven-month study by the military's Defense Advanced Research Projects Agency, or DARPA, has found that the so-called Hypersonic Technology Vehicle 2 (HTV-2) amazingly recovered from shockwaves that forced it to roll while traveling at Mach 20 (about 20 times the speed of sound) in an August 2011 test. But the unmanned aircraft was unable to cope with damage to its exterior caused by its extreme speed, DARPA officials said.

According to DARPA, "a gradual wearing away of the vehicle's skin as it reached stress tolerance limits was expected. However, larger than anticipated portions of the vehicle’s skin peeled from the aerostructure." [Photos: DARPA Hypersonic Mach 20 Test]

The entire HTV-2 test flight lasted nine minutes, with HTV-2 actually flying in a controlled manner for three minutes, DARPA officials said.

DARPA launched the arrowhead-shaped HTV-2 flight on Aug. 11 in the second of two tests of a prototype for a hypersonic glider as part of the advanced Conventional Prompt Global Strike weapons program, which is aimed at developing a bomber capable of reaching any target on Earth within an hour. The first test occurred in 2010.

"The initial shockwave disturbances experienced during second flight, from which the vehicle was able to recover and continue controlled flight, exceeded by more than 100 times what the vehicle was designed to withstand," DARPA Acting Director Kaigham J. Gabrielsaid in a statement. "That's a major validation that we’re advancing our understanding of aerodynamic control for hypersonic flight."

The HTV-2 launched atop a rocket from California's Vandenberg Air Force Base, then came streaking back to Earth at hypersonic speeds. Hypersonic flight is typically defined as any flight that surpasses the speed of Mach 5.

The Falcon hypersonic HTV-2 aircraft emerges from its payload fairing before gliding back to Earth. (Image credit: DARPA)

When HTV-2 reached Mach 20, it experienced temperatures of nearly 3,500 degrees Fahrenheit. NASA's space shuttles, for comparison, flew at speeds of up to Mach 25 when they re-entered Earth's atmosphere. 

A DARPA engineering review board found"most probable cause of the HTV-2 Flight 2 premature flight termination was unexpected aeroshell degradation, creating multiple upsets of increasing severity that ultimately activated the Flight Safety System."

That safety system, once it realized the HTV-2 was in an unrecoverable situation, destroyed the vehicle by pitching it into the ocean.

"The result of these findings is a profound advancement in understanding the areas we need to focus on to advance aerothermal structures for future hypersonic vehicles. Only actual flight data could have revealed this to us," said Air Force Maj. Chris Schulz, DARPA program manager.

DARPA officials said that more analysis on the HTV-2 test flight will continue via ground tests and will be used as a resource for future Conventional Prompt Global Strike weapons technology efforts.

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Tariq Malik
Editor-in-Chief

Tariq is the Editor-in-Chief of Space.com and joined the team in 2001, first as an intern and staff writer, and later as an editor. He covers human spaceflight, exploration and space science, as well as skywatching and entertainment. He became Space.com's Managing Editor in 2009 and Editor-in-Chief in 2019. Before joining Space.com, Tariq was a staff reporter for The Los Angeles Times covering education and city beats in La Habra, Fullerton and Huntington Beach. In October 2022, Tariq received the Harry Kolcum Award for excellence in space reporting from the National Space Club Florida Committee. He is also an Eagle Scout (yes, he has the Space Exploration merit badge) and went to Space Camp four times as a kid and a fifth time as an adult. He has journalism degrees from the University of Southern California and New York University. You can find Tariq at Space.com and as the co-host to the This Week In Space podcast with space historian Rod Pyle on the TWiT network. To see his latest project, you can follow Tariq on Twitter @tariqjmalik.