
A spacecraft designed to study how objects burn up in Earth’s atmosphere is about to be launched from the International Space Station (ISS) – complete with a nose made of cork.
Called (QubeSat for Aerothermodynamic Research and Measurements on Ablation), the shoebox-sized probe will be released from Japan’s Kibo module on the ISS later this week. It will slowly descend towards Earth over several months before it re-enters the atmosphere.
The spacecraft is shaped like a shuttlecock to maintain stability within the atmosphere. Its front – made of cork – will bear the brunt of the extreme temperatures of re-entry. As this happens, the cork will gradually lose material to dissipate heat, a process known as ablation, with sensors inside monitoring the fiery descent until the probe is destroyed.
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“We want to study the deorbiting process, how you demise, how you disappear,” says Olivier Chazot from the Von Karman Institute in Belgium. “Since Yuri Gagarin [the first human in orbit] we know how to re-enter. The problem is, nobody knows enough to make re-entry economically viable and without any risk.”
Spacecraft designed to return through Earth’s atmosphere are equipped with a heat shield, often made of a carbon composite or similar material that ablates on re-entry to channel heat away. Cork is a cheaper, lightweight alternative. It has been used on space missions before, such as for the space shuttle’s and the European Space Agency’s Intermediate eXperimental Vehicle.
The data from Qarman’s re-entry will be useful for understanding how space debris burns up in the atmosphere, as well as looking at ways to optimise and understand re-entry better, something that will be crucial with more frequent space flight in future.
“If you want space transportation to become a reality for society, then you need to understand [re-entry] better,” says Chazot.