Maintenance window scheduled to begin at February 14th 2200 est. until 0400 est. February 15th

(e.g. yourname@email.com)

Forgot Password?

    Defense Visual Information Distribution Service Logo

    NASA Landing and Impact Research Facility: To the moon and beyond

    NASA Landing and Impact Research Facility: To the moon and beyond

    Photo By Staff Sgt. R. Alex Durbin | Test mannequins are used at the National Aeronautics and Space Administration Langley...... read more read more

    HAMPTON, VIRGINIA, UNITED STATES

    06.26.2013

    Story by Airman 1st Class R. Alex Durbin 

    Joint Base Langley-Eustis

    HAMPTON, Va. - “We choose to go to the moon in this decade … not because [it is] easy, but because [it is] hard, because that goal will serve to organize and measure the best of our energies and skills, because that challenge is one that we are willing to accept, one we are unwilling to postpone, and one which we intend to win.”

    In a speech in 1961, then-President John F. Kennedy famously proclaimed the United States would successfully land a man on the moon by the end of the decade. The task of achieving this lofty goal fell on the shoulders of the engineers and researchers of the National Aeronautics and Space Administration.

    As a monument to Kennedy’s challenge, a structure worn by weather and time sits tucked away among the lush trees in a hidden corner of NASA’s Langley Research Center in Hampton, Va. Towering above the rapidly-evolving world around it, the 240 foot-tall facility remains unchanged in appearance, but has undergone several functional transformations in its long life. It all began more than 50 years ago with Kennedy’s vision.
    While planning the Apollo space program, NASA determined its success ultimately depended on whether astronauts could learn to safely land on the moon’s surface and return to orbit.
    However, a major obstacle presented itself as the NASA scientists designed a viable training plan for the astronauts. The scientists realized a manned capsule would handle drastically differently in the moon’s gravitational atmosphere, which is a mere sixth of that felt on Earth. Tackling the problem of how to reproduce a low-gravity environment became NASA’s first step in its journey to the moon.

    “The astronauts needed simulations to determine landing conditions while in the moon’s gravity,” said Richard Boitnott, NASA Langley Research Center senior aerospace engineer. “It was imperative to learn everything possible before sending the astronauts to space.”

    In an effort to overcome this obstacle, William Hewitt Phillips, a respected NASA aircraft specialist, conceived an innovative solution. Phillips proposed the construction of the Lunar Lander Research Facility, a training simulator that allowed NASA engineers to study landing processes while giving Apollo astronauts critical hands-on training.

    Completed in 1965, the facility located at NASA’s Langley campus featured an A-frame steel structure able to simulate the final 150 feet of the descent. The gantry, an overhead suspension system that counteracted all weight but the gravity felt on the moon’s surface, subjected astronauts to a realistic experience of lunar gravity.

    “Analytical simulations cannot always translate into real-world results, making physical testing important,” said Boitnott. “Real-world tests show results that we may not have ever thought of. We use this data with analytical results to identify potential shortfalls.”

    To understand all potential variables, the facility used unique methods to accurately simulate the moon’s gravitational force. Engineers were able to use the gantry to create a lunar-walking simulator.

    This was achieved by suspending an astronaut by a system of slings and cables and placing him on an inclined plane. By walking on the plane parallel to the ground while suspended, engineers were able to mimic the conditions experienced while walking on the moon.

    In another effort to make the training as realistic as possible, engineers created a “moonscape,” complete with craters, using dust thought to closely resemble the material found on the moon’s surface.

    On July 16, 1969, the world watched in anticipation as three men rocketed skyward in the culmination of nearly a decade’s worth of research and planning. Just four days later, Neil Armstrong and Ed “Buzz” Aldrin Jr. were the first humans to step foot on the moon.

    By the time the Apollo program ended three years later and the astronaut training facilities were moved to the Lyndon B. Johnson Space Center in Houston, the LLRF had trained 24 astronauts for lunar missions.

    With the end of manned-moon missions, it seemed the research facility was no longer needed. However, NASA found a new use for the facility by converting it into a full-scale aircraft crash test facility.

    The gantry is the only structure of its kind in the United States, and only one of two worldwide offering a pendulum-style test center that allows researchers to control vertical and horizontal velocities, making it uniquely suited to recreate crash scenes.

    The structure was redesignated the Impact Dynamics Research Facility in 1972. Engineers used data from the center’s research as baseline information and recommendations to institute safety regulations in both military and civilian organizations including the Federal Aviation Administration.

    The research team uses state-of-the-art analysis tools and test mannequins to model crashes, determine structural integrity and identify the “crash pulse,” or the time it takes for the tested object to decelerate after impact.

    “[The facility] has been a national resource for conducting crash tests for airplanes, helicopters and other manned vehicles,” said Boitnott. “[The researchers] can control the exact conditions of a crash, as well as gather a great deal of post-test information that contributes to safety worldwide.”
    In 1985, the LLRF was designated a National Historic Landmark to preserve its significance and contributions to the space program.

    With a multitude of testing complete and foreseeable need for the IDRF, NASA decided to finally close the historic facility in 2003, and it was placed on a NASA list of structures planned for demolition.

    With President George W. Bush’s announcement of the Vision for Space Exploration in 2004, the facility was once again adapted to be used in support of the agency’s new Constellation Program, aimed to gain experience in operating outside of Earth's atmosphere and to develop technologies needed for exploring space.

    The facility was reopened in 2005 to conduct landing tests on the newly-developed exploration vehicle, Orion. Its new mission closely resembled the original space mission of the facility.
    It was renamed the Landing and Impact Research Facility. Minor modifications were made to include installation of a new support system to facilitate full-scale Orion testing.

    In an effort to analyze all possible outcomes, NASA determined it was necessary to test Orion’s capabilities and determine if it was structurally sound to touchdown on land or water upon return to Earth’s atmosphere. To gather the data, a new hydro-impact basin was installed to fully test the Orion’s capabilities. The basin, a 115 foot-long, 90 foot-wide pool reaching 20 feet deep, was completed in January 2011.

    Although the Constellation Program was cancelled, Boitnott and the facility’s team continue to test the Orion capsule, as it is planned to be used as an escape capsule on the International Space Station. The Orion capsule was recast as a “Multi-Purpose Crew Vehicle,” and became NASA’s vehicle for manned flight beyond low earth orbit.

    “We constantly strive to innovate practical experiments during testing because our research can save lives,” said Boitnott.

    The team’s constant drive and dedication are testament to Kennedy’s famous words.

    “Those who dare … can achieve greatness.”

    As humanity reaches further into the cosmos and surpasses the dream sparked by Kennedy decades ago, the NASA Landing and Impact Research Facility remains, ready to adapt to new challenges set before it.

    NEWS INFO

    Date Taken: 06.26.2013
    Date Posted: 06.26.2013 09:56
    Story ID: 109278
    Location: HAMPTON, VIRGINIA, US

    Web Views: 213
    Downloads: 0

    PUBLIC DOMAIN