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New Research on Near-Earth Space to Start With First Launch From Vostochny

© Sputnik / Sergey Mamontov / Go to the mediabankVostochny Cosmodrone in Amur Region
Vostochny Cosmodrone in Amur Region - Sputnik International
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Aist 2D will become the first satellite to reach orbit from the Vostochny Space Launch Center, jump starting a series of research projects on near-Earth space and the way it impacts materials used in spacecraft, the press service of the Samara State Aerospace University said in a statement released on Tuesday, March 15.

"Scientists from the Samara State Aerospace University will launch an integrated research project on near-Earth space and the way it impacts materials used in spacecraft," the statement reads.

The project will be carried out using an Aist 2D satellite developed by the Samara State Aerospace University in cooperation with TsSKB-Progress. It is expected to take part in the first launch from the Vostochny Space Launch Center. 

Research on Near-Earth Space

The Aist 2D satellite is equipped with scientific equipment for studying the parameters of the spacecraft's external environment (gases), as well as external factors influencing the materials used in the spacecraft, its hardware and the progress and results of various technical experiments that take place on spacecraft.

The equipment package, developed and manufactured by the Institute of Space Device Engineering of the Samara State Aerospace University, consists of three devices: a mass-spectrometer monitor, a solar wind sensor and a gamma counter.

"First, we'll see gas escaping the satellite, since its structures contain a good deal of organic materials, including resin and a laminate fabric base. In two to three weeks the satellite will be almost free of any gas, which will enable us to assess the levels of atomic oxygen, the strongest oxidant. In three to four months we will begin measuring the impact of solar activity and radiation," Igor Piyakov, Senior Research Fellow at the Institute of Space Device Engineering, said, as quoted in the press release.

The research will cover the four main positions of the satellite in its orbit: facing the sun, when the device's temperature is at its highest, on the shade side, when the temperature is at its lowest, and during sunrise and sundown.

Reducing the Cost of Space Materials

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Data obtained during the experiments will enable researchers at the Aerospace University to create a model showing how external factors in outer space impact small unpressurised spacecraft like Aist 2D. This model will then be reproduced in the laboratory at the Aerospace University.

Research projects of this kind are aimed at substantially reducing the cost of developing and testing new materials used in spacecraft. The Institute of Space Device Engineering is building its second laboratory simulator for modeling the space environment (a vacuum chamber with a particle accelerator) which will allow for accelerating particles to 15 kilometers per second, among other things.

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