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Jet Propulsion Laboratory
07/02/2012 | Press release
Fireworks Over Mars: The Spirit of 76 Pyrotechnics
distributed by noodls on 07/02/2012 17:28
One month and a day after America celebrates
its independence with fireworks, a series of
meticulously-engineered fireworks must operate for the
Curiosity rover to safely reach the surface of the Red Planet
as shown in this artist's concept. Image credit:
NASA/JPL-Caltech
› Larger image
› Larger image
July 02, 2012
One month and a day after celebrating its independence with
fireworks exhibitions throughout the country, America will
carry its penchant for awe-inspiring aerial pyrotechnic
displays to the skies of another world. Some pyrotechnics
will be as small as the energy released by a box of matches.
One packs the same oomph as a stick of TNT. Whether
they be large or small, on the evening of August 5th (Pacific
time), all 76 must work on cue as NASA's next Mars rover,
Curiosity, carried by the Mars Science Laboratory, streaks
through the Red Planet's atmosphere on its way to a
landing at Gale Crater.
"We are definitely coming in with a bang - or a series
of them," said Pete Theisinger, Mars Science Laboratory
project manager at NASA's Jet Propulsion Laboratory in
Pasadena, Calif. "You only get one shot at a Mars
landing, and the pyrotechnic charges we are using are great
for reliably providing instantaneous, irreversible actions
like deploying a parachute or opening a fuel valve."
Explosive pyrotechnic devices predate the space age by about
a thousand years. Around 750 A.D., people in China
began stuffing an early form of gunpowder into bamboo shoots
and throwing them into a fire. At some point, someone
interested in taking this new discovery to the next level
(probably also from that region), decided aerial explosions
would be even cooler, and the "aerial salute" was
born. Fireworks were also part of America's very
first Independence Day in 1777.
Pyrotechnics, or pyromechanical devices, are a natural but
highly-engineered extension of these early fireworks. Instead
of a rocket's red glare and bombs bursting in air, the
energy from these explosions is contained within a mechanism,
where it is used to move, cut, pull or separate something.
Controlled explosions are a valuable tool to those who
explore beyond Earth's atmosphere because they are quick
and reliable.
"When we need valves to open, or things to move or come
apart, we want to be confident they will do so within
milliseconds of the time we plan for them to do so,"
said Rich Webster, a pyromechanical engineer at JPL.
"With pyros, no electrical motors need to move. No
latches need to be unlatched. We blow things apart --
scientifically."
Seventeen minutes before landing, the first 10 of 76 pyros
will fire within five milliseconds of each other, releasing
the cruise stage that provided the entry capsule (and its
cocooned descent vehicle and the Curiosity rover) with power,
communications and thermal control support during its 254-day
journey to Mars.
"We have essentially three miniature guillotines onboard
that, when the pyros fire, cut cabling and metal tubing that
run between the cruise stage and the entry capsule,"
said Luke Dubord, avionics engineer for Mars Science
Laboratory at JPL. "Then a retraction pyro pulls
them out of the way. Along with that, we've got six
pyrotechnic separation nuts, which when fired, will actually
accomplish the separation."
One hundred and twenty-five milliseconds later, two more
pyros fire, releasing compressed springs that jettison two
165-pounds(75-kilogram) solid tungsten weights. These weights
allow the entry capsule to perform history's first
planetary lifting body entry (see
http://mars.jpl.nasa.gov/msl/mission/technology/insituexploration/edl/guidedentry/
). A dozen minutes and one fiery, lifting-body
atmospheric reentry later, another smaller set of tungsten
weights is ejected by pyros to re-adjust the lander's
center of mass for the final approach to the surface. A few
seconds after that, the largest bang since the spacecraft
separated from its Atlas rocket 254 days before is scheduled
to occur.
"The Mars Science Lab parachute is the largest used on a
planetary mission," said Dubord. "When folded up
and in its canister, it's still as big as a trashcan. We
have to get that folded-up chute out of its canister and
unfolding in a hurry. The best way to do that is get it
quickly away from spacecraft and out into the freestream
using a mortar."
The best way to do that, the engineers at JPL decided, was to
include a pyrotechnic charge equivalent to a stick of
TNT.
"When something like this goes off, it makes a lot of
noise" said Dubord. "Of course, at 8.7 miles [14
kilometers] up and a little over Mach 1, over Mars, I doubt
anybody will be there to hear it."
While the ejection of the parachute is the biggest
pyrotechnic display during the crucial entry, descent and
landing, it is certainly not the last. The landing
system needs to be released from the backshell that helped
protect it during entry. The sky crane's descent engines
need to be pressurized, and the rover itself needs to be
released from the sky crane, where it is lowered on tethers
toward the surface. All told, there are another 44 controlled
explosions that need to happen at exactly the right time and
at absolutely no other time for Curiosity to touch down
safely at Gale Crater.
"Excluding the parachute mortar, the total
'explosive' material in all the pyrotechnics aboard
the spacecraft is only about 50 to 60 grams," said
Webster. "That is about the same amount of combustible
material in the air bag in your car's steering
wheel. When you do the math, the amount of explosive
material in each pyrotechnic is only about what you would get
out of a pack of matches.
"The thing is, a pack of matches won't help you land
on Mars....pyrotechnics will," Webster added.
The Mars Science Laboratory mission is managed by JPL for
NASA's Science Mission Directorate in Washington.
Curiosity was designed, developed and assembled at JPL.
Caltech manages JPL for NASA.
A video about the challenges of the landing is online at: http://go.nasa.gov/Q4b35n or
http://go.usa.gov/vMn
.
Follow the mission on Facebook and Twitter at:
http://www.facebook.com/marscuriosity
http://www.twitter.com/marscuriosity
For more information on the Mars Science Laboratory/Curiosity
mission, visit: http://www.nasa.gov/msl .
DC Agle 818-393-9011
Jet Propulsion Laboratory, Pasadena, Calif.
agle@jpl.nasa.gov
2012-192
