[meteorite-list] NASA Parachute Engineers Have Appetite for Destruction

Ron Baalke baalke at zagami.jpl.nasa.gov
Wed Oct 8 19:01:41 EDT 2014



http://www.jpl.nasa.gov/news/news.php?feature=4329

NASA Parachute Engineers Have Appetite for Destruction
Jet Propulsion Laboratory
October 8, 2014

Engineers from NASA's Jet Propulsion Laboratory in Pasadena, California, 
are bound and determined to destroy a perfectly good parachute this week 
during the latest test for the Low-Density Supersonic Decelerator (LDSD) 
project. The parachute to be tested at the China Lake Naval Air Weapons 
Station in California is the same 100-foot (30.5-meter) parachute design 
that flew during the first supersonic flight of LDSD this past summer. 
That test took place in June in Kauai, Hawaii, at the U.S. Navy's Pacific 
Missile Range Facility.

The upcoming test, employing a Navy Seahawk helicopter, almost 4,000 feet 
(1,200 meters) of synthetic rope and a rocket sled packing four solid 
rocket motors with 280,000 pounds (127,000 kilograms) of thrust, is scheduled 
to take place on Thursday, October 9, weather permitting.

"Whenever you get to see a rocket sled in action, that is a good day," 
said Mark Adler, project manager for NASA's LDSD project at JPL. "When 
you watch the sled rip apart something you worked very hard in creating, 
and be happy about it, that is a great day."

The goal of the LDSD project's Parachute Design Verification test 1-1B 
is to place stresses on NASA's Supersonic Disksail Parachute that will 
cause the 8,000 square feet (740 square meters) of synthetic fiber and 
ripstop nylon to fail structurally. It is the latest in a series of tests 
developed to evaluate two new landing technologies for future Mars missions.

"Our parachute has a not-to-exceed load during normal operations of 80,000 
pound-force of pull," said Adler. "Then there is another load rating well 
beyond that, where we expect the chute to fail. That is 120,000 pounds-force 
of pull. Well, to ensure we get to see how the chute fails and at what 
load, we configured the sled so it can get up to 162,000 pounds-force 
of pull when all the rockets kick in. The details of the failure will 
be used to calibrate our models, and if the failure is earlier or in a 
different place than expected, we will address that in the parachute design 
before our supersonic flights this coming summer."

When the test begins, a Navy helicopter crew will lift the still-packed 
parachute, trailing on a very long, very sturdy rope and a chunk of ballast 
known as the "bullet," to about 4,000 feet (1,200 meters) and then drop 
it.

At this point, a 300-horsepower winch -- connected to the other end of 
the rope -- begins pulling. The parachute inflates, and the whole setup 
-- rope, bullet and inflated parachute -- descends toward the surface 
and the rocket sled at about 15 mph (24 kilometers per hour).

Near the surface, the bullet will enter a funnel, which guides it into 
a latching mechanism on the rocket sled. When this latch-up occurs, the 
first two of four 70,000-pound (32,000-kilogram) thrust solid rocket motors 
fires. A few seconds later the second set of rockets kicks in. The test 
is expected to apply the full load on the parachute canopy in about five 
seconds.

The parachute is the same design used during the first high-altitude supersonic 
flight test of the LDSD project last June, which was launched from Kauai. 
During the Kauai test, which was a shakeout flight designed to explore 
the capabilities of LDSD's saucer-shaped test vehicle, the test parachute 
shredded during its deployment at nearly 2,000 mph (3,200 kilometers per 
hour).

"That test was such a blessing to this program," said JPL's Ian Clark, 
principal investigator for the LDSD project. "We got an early look at 
the parachute we were going to test in 2015 and found we needed to go 
back and rethink everything we thought we knew about supersonic parachute 
inflation. When we combine what we learned there with the data set from 
this test, we should have a new working model on how to build large supersonic 
parachutes."

A new supersonic parachute design is expected to be ready in time for 
the next round of Kauai flight tests scheduled for the summer of 2015.

"This is going to be fun," said Adler. "Basically, we are going to watch 
this test with every instrument we can get our hands on and then watch 
the parachute be destroyed. Then we will apply what we learn to our future 
parachutes."

More information about the LDSD space technology demonstration mission 
is online at:

http://go.usa.gov/kzZQ

NASA's Space Technology Mission Directorate funds the LDSD mission, a 
cooperative effort led by JPL, a division of the California Institute 
of Technology in Pasadena. NASA's Marshall Space Flight Center in Huntsville, 
Alabama, manages LDSD within the Technology Demonstration Mission Program 
Office. NASA's Wallops Flight Facility in Wallops Island, Virginia, is 
coordinating support with the Pacific Missile Range Facility and is providing 
the balloon systems and core avionics for the LDSD test.

For more information about the Space Technology Mission Directorate, visit:

http://www.nasa.gov/spacetech


Media Contact

DC Agle 
Jet Propulsion Laboratory, Pasadena, Calif.
818-393-9011
agle at jpl.nasa.gov 

David Steitz
NASA Headquarters, Washington
202-236-5829
david.steitz at nasa.gov 

2014-346



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