• PT Youtube
  • CW Facebook
  • CW Linkedin
  • CW Twitter
10/29/2012 | 1 MINUTE READ

SpaceX Dragon safely returns NASA cargo from International Space Station

Facebook Share Icon LinkedIn Share Icon Twitter Share Icon Share by EMail icon Print Icon

The Oct. 28 Pacific Ocean splashdown marks the successful end of the NASA's first commercially contracted ISS resupply flight.

Sunday, Oct 28, at 12:22 p.m. (PT), Space Exploration Technologies Corp.'s (SpaceX, Hawthorne, Calif.) Dragon spacecraft returned to Earth from the International Space Station (ISS), safely splashing down approximately 250 miles off the coast of southern California. Composites fly on both the Falcon 9 launch vehicle, particularly in its interstage section, and on the Dragon spacecraft.

"This historic mission signifies the restoration of America's ability to deliver and return critical space station cargo," said SpaceX CEO and chief technical officer Elon Musk. "The reliability of SpaceX's technology and the strength of our partnership with NASA provide a strong foundation for future missions and achievements to come."

Dragon departed the station early Sunday morning with 1,673 lb/759 kg of return cargo, including hardware, supplies, and a GLACIER freezer packed with scientific samples. Dragon is the only commercial spacecraft, thus far, that is capable of returning a significant quantity of cargo to Earth from the ISS, and this mission marks the first time since the Space Shuttles were retired that NASA has been able to return research samples from ISS to Earth for analysis.

The SpaceX recovery team is now transporting Dragon by boat to a port near Los Angeles, where early cargo will be delivered to NASA. Dragon then will be transported to SpaceX's facility in McGregor, Texas, for processing. There, the remaining cargo will be delivered to NASA.

The mission, called CRS-1, began Oct. 7, when the Falcon 9 rocket launched Dragon from Cape Canaveral Air Force Station. SpaceX and NASA are currently investigating an anomaly that occurred with one of Falcon 9's first-stage engines during the launch. Analysis to date supports initial findings: The engine experienced a rapid loss of pressure and Falcon 9's flight computer immediately commanded shutdown, as it is designed to do in such cases. The team will continue to meticulously analyze all data in an effort to determine root cause and will apply those findings to future flights.

This mission is the first of at least 12 to the International Space Station that SpaceX will fly under NASA's Commercial Resupply Services (CRS) contract.

For more information, visit the SpaceX Web site: www.spacex.com.


  • Advanced materials for aircraft interiors

    Applications aren't as demanding as airframe composites, but requirements are still exacting — passenger safety is key.

  • Boeing 787 Update

    Approaching rollout and first flight, the 787 relies on innovations in composite materials and processes to hit its targets

  • Composites 101: Fibers and resins

    Compared to legacy materials like steel, aluminum, iron and titanium, composites are still coming of age, and only just now are being better understood by design and manufacturing engineers. However, composites’ physical properties — combined with unbeatable light weight — make them undeniably attractive. 

Related Topics