| Rensselaer Researchers
Use T-Rays to Uncover Defects in Space Shuttle Foam Sample:
Could Lead to More Effective Method of Pre-flight Quality
Control of Insulating Foam
Using a technique pioneered by researchers
at Rensselaer, terahertz (THz) radiation has been used to
uncover small defects in a sample of space shuttle foam.
This nondestructive method could help National Aeronautical
and Space Administration (NASA) officials examine the insulating
foam that is applied to each shuttle’s fuel tank prior
to launch.
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Rensselaer Polytechnic
Institute graduate students Xie Xu (rear) and Hua Zhong
examine the insulating space shuttle foam sample. |
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Fuel tank manufacturer Lockheed Martin Space
Systems (New Orleans) approached Xi-Cheng Zhang, the J.
Erik Jonsson Professor of Science at Rensselaer, and requested
a study of a sample of the foam material. Zhang and his
research team have employed terahertz radiation (T-rays)
to spot defects, including air bubbles and separations,
purposely embedded in a specially prepared sample. Such
defects have proved difficult to locate using X-rays or
ultrasound. Zhang’s team (including doctoral students
Hua Zhong, Xie Xu, Tao Yuan, and Shaohong Wang) has been
working closely with Lockheed Martin to study the sample.
A total of eight man-made defects of various
sizes were scattered throughout the sample. The embedded
imperfections mimic defects that could potentially occur
in a normally produced foam application on the fuel tank.
Two types of defects were hidden in the sample: voids (or
air bubbles), ranging from one-quarter inch to one inch
in size, and debonds (separations between layers of foam
or between a foam layer and the aluminum base).
NASA investigators believe that the Columbia
space shuttle crash may have been caused by foam insulation
breaking away and striking the left wing of the craft.
To read the full press release, go to http://www.rpi.edu/web/News/press_releases/2003/THz.htm
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