Thursday 26 January 2017

Astronomy - NASA resumes JWST vibration testing

Astronomy - NASA resumes JWST vibration testing




A clean tent is lowered over the James Webb Space Telescope, with its wings folded back in launch configuration, before the start of vibration testing in November. Credit: NASA/Chris Gunn
Vibration testing on the James Webb Space Telescope, the multibillion-dollar successor to Hubble, has resumed after engineers traced a problem that cropped up last month to a restraint holding part of the observatory’s giant segmented mirror in place for launch.
The quick diagnosis keeps JWST on track for launch in October 2018, and engineers still have several months of time reserved in the schedule leading up to launch late next year to handle any more unexpected problems.
In a status report posted to the JWST web site this week, NASA said numerous tests and analysis of data and modeling led engineers to attribute an anomaly during vibration testing Dec. 3 to “gapping,” or extremely small motions, in a launch restraint mechanism holding back the wings of the telescope’s primary mirror, which are folded and stowed to fit inside the rocket for liftoff, then unfurl once the observatory is in space.
Eric Smith, JWST’s program director at NASA Headquarters, said in an interview last month that accelerometers near the launch restraint mechanisms detected unexpected readings during vibration testing intended to ensure the telescope and its instruments can survive the shaking of launch.
“During what’s called proto-flight level testing — this is where you test it to a little bit more than you expect from the launch vehicle just to make sure you have safety margin — we noticed that two of the accelerometers were giving us readings of much higher acceleration than were predicted,” Smith told Spaceflight Now last month. “When the software that runs the shaker tables detected this, they properly shut everything down safely so the team would have the time to look at these data and try to figure out why we’re getting these readings.”
The James Webb Space Telescope’s primary mirrors and science instruments are seen inside a clean tent being mounted on a vibration table at Goddard. Credit: NASA/Chris Gunn
The vibration testing, which has now resumed, is being done on a special shaker table inside a clean room at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. The testing includes the telescope’s primary mirror, made of 18 gold-coated beryllium segments, the optical support structure, and JWST’s science instrument bay.
“There was an accelerometer on each side near these wings — near the bottom, actually, of the wings — that picked this up,” Smith said last month. “That’s where the team is looking. What phenomena, or what physical devices or characteristics are the same on both sides of the telescope there? That helps you narrow down where you’re looking.”
NASA officials are working with Arianespace, which will launch JWST toward the L2 Lagrange point a million miles (1.5 kilometers) from Earth on a European Ariane 5 rocket, to “ensure that the vibration testing program will adequately test the Webb payload with the expected launch vibration environment,” the agency said in an update posted on the mission’s website.
The launcher is a major contribution to the JWST program by the European Space Agency, which also led the build of two of the observatory’s four main science instruments.
JWST is an infrared successor to NASA’s famed Hubble Space Telescope, promising previously unseen views of the proto-universe, the earliest galaxies and stars after the Big Bang, and data about the conditions on potentially habitable worlds orbiting other stars.
“Everybody realizes this is very valuable space hardware, and you test like this because you don’t want to find this problem later,” Smith said.
Ground teams at Goddard visually and ultrasonically inspected the telescope after the vibration test anomaly, finding no damage.
According to Smith, actuators and restraints currently mounted on the telescope are ground test units, and were slated for replacement with flight-worthy versions before launch.
“What we’re learning now on this integration and test device … the lesson would be applied to the flight one that we put on later,” Smith said last month. “It could be just the strength with which these latching points hold, or how they’re precisely aligned when you put them together.”
Vibration testing recently resumed, NASA said, and shake checks on the telescope were completed in one of three axes over the weekend. The vibration test for the second axis was due to begin this week, officials said.
Engineers are verifying the telescope and instrument structures can withstand the shaking of launch in all three axes of motion. The vibration test in each axis takes about a week or 10 days, Smith said, and will be followed by testing to subject the telescope to the acoustic environment of launch, which will take less than a week.
Teams planned to run deployment tests on the telescope’s foldable wings before and after the vibration and acoustic tests at Goddard to make sure the critical deployment mechanisms are undamaged.
Precision checks of the curvature of the mirror segments, each about the size of a coffee table, after the shake and sound tests will verify the telescope’s optics are still up to the job. Alignment checks are also planned.
The telescope is buttoned up in launch configuration for the testing at Goddard. Its next stop will be NASA’s Johnson Space Center in Houston for a thermal vacuum test, which will expose the core of JWST to the extreme temperature it will encounter in space.
“Once we finish the vibration and acoustic testing, there’s about a month or so of data analysis to make sure that everything tested out properly, and then it would ship down to JSC,” Smith said.
The shipment to Houston could occur as soon as April.
From there, the observatory’s science section will travel to a Northrop Grumman facility in Redondo Beach, California, for attachment to the spacecraft bus and sunshield, which will supply power, communications, pointing and thermal control to the telescope.
The spacecraft will travel from Southern California through the Panama Canal to the Ariane 5 launch base in Kourou, French Guiana, in mid-2018 for fueling and final launch preparations.
Smith said the latest testing hiccup should have no impact on the October 2018 launch date.
Managers had about six months of slack in the schedule leading up to October 2018 before the vibration test anomaly halted activities more than a month. The vibration testing is in JWST’s “critical path,” meaning any delays eat into the program’s schedule reserve.
“While we will use some of the funded schedule reserve, this is not going to have any sort of budget impact for us,” Smith said. “We have sufficient reserves to handle this, and we still have the October 2018 launch date in our sights.”
“The project has been very good about managing their reserve, so we’ll begin to look at other places later on where we can get back some of that schedule reserve,” he said. “We will not skimp on the testing through because you don’t want to do something rash with your hardware. It has to compete testing, so we’ll do that, and then we’ll begin to look for savings further down the road.”

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