Summary and Key Points: In the 1980s, NASA, DARPA, and Grumman developed the experimental X-29 aircraft featuring innovative forward-swept wings.
-Designed to test advanced aerodynamics, the X-29 demonstrated impressive capabilities, such as supersonic level flight reaching Mach 1.6.
-However, the forward-swept wings ultimately proved too unstable, hindering practical military applications.
-Despite this, the program provided invaluable insights into flight stability, vectoring maneuvers, and aerodynamic control methods.
-These insights likely influenced subsequent groundbreaking aircraft, such as the F-22 Raptor, and may continue informing aerodynamic research—especially in areas critical to today’s advanced hypersonic weapon systems, where precise control of airflow remains vital to maintaining stable trajectories and improving performance.
Inside the X-29: NASA’s Radical Forward-Swept Wing Experiment
In the 1980s, NASA, DARPA, and Grumman began to experiment with a novel forward-swept wing design for the experimental X-29 aircraft, an ambitious platform that brought certain air-attack advantages but eventually proved unstable.
In total, two Air Force X-29 prototype demonstrator planes flew 242 times from 1984 to 1991, according to Jim Winchester’s 2005 book, X-Planes and Prototypes.
Did the X-29 Succeed?
The intent was to discover and introduce aerodynamic advantages that both NASA and the U.S. Air Force wanted to apply to various commercial and military uses. Available specs on the aircraft claim it was capable of F-35-like speeds of Mach 1.6, and a range of 350 nautical miles.
An X-29 fact sheet published in 2014 by NASA details a number of sought-after technological advantages associated with the platform, to include new uses of existing technologies such as “aeroelastic tailoring to control structural divergence.”
This refers to efforts to stabilize aircraft flight and, among other things, enable a high angle of control. Aeroelastic tailoring is meant to minimize oscillation, or unstable movements during flight. Part of this involves what scientists refer to as “vortex control,” or control of circular patterns of rotating air surrounding the wings.
Higher Angle of Attack
The X-29 experimented with enterprising aerodynamic approaches and sought new capabilities in aerial maneuver and vectoring.
One sought-after advantage involved efforts to achieve a higher angle of attack in aerial combat.
However, available reports indicate the design proved too unstable.
Nonetheless, the X-29 did become the first forward-swept wing to fly at supersonic speed in level flight—it did this as far back as 1985.
The fate of the X-29 might be less significant than the lessons learned from the experiment.
The craft experimented with aerodynamic phenomena—those related to the air flow surrounding an aircraft and its wings and tails, forces that generate lift and enable vectoring, or aerial maneuver.
Directing air flow controls the pace and angle at which a fighter jet can maneuver.
It is worth wondering, then, whether the X-29 informed breakthroughs in the realm of aerodynamics.
For instance, the F-22 emerged in the following years, and the Raptor is widely considered the best air-dominance and air-to-air platform ever to exist.
Parallel to Hypersonics?
The science of air flow is also critical to the development of hypersonic weapons, as it pertains greatly to flight stability, guidance and control.
Air Force Research Laboratory scientists working on hypersonic weapons have told me they are working on what is called “boundary layer phenomenology.”
This refers to the layer of air surrounding a hypersonic projectile. Developers seek to ensure “laminar,” or smooth, airflow surrounding the weapon to ensure a stable flight trajectory. Should a “turbulent” or unstable air flow surround the hypersonic projectile, it can result in temperature changes and alterations in flight path.
About the Author: Kris Osborn
Kris Osborn is the Military Technology Editor of 19FortyFive and President of Warrior Maven – Center for Military Modernization. Osborn previously served at the Pentagon as a highly qualified expert in the Office of the Assistant Secretary of the Army—Acquisition, Logistics & Technology. Osborn has also worked as an anchor and on-air military specialist at national TV networks. He has appeared as a guest military expert on Fox News, MSNBC, The Military Channel, and The History Channel. He also has a Masters Degree in Comparative Literature from Columbia University.
