Inflatable Gossamer's structures which can be deployed in Earth orbit have great prospects in the future. Material for use in inflatable structures must be soft before and during unfolding and harden after unfolding. The best way for solidification of Gossamer's structures is by chemical polymerisation of a composite material in space environment. The polymerisation processes of liquid polymer matrix in a free space environment are sensitive to microgravitation, temperature variations (-150 to +150 deg C), high vacuum (10-3 to 10-7 Pa), atomic oxygen flux (in LEO), UV and VUV irradiations, X-ray and gamma-irradiations, high energy electron and ion fluxes. In this paper experiments of the photopolymerisation processes under simulated free space conditions were carried out. The influences of high vacuum, temperature variations, high energy ion beam, radio-frequency and microwave plasma on polymerisation of UV-curing resin were observed. The effects of low molecular components evaporations, acceleration of curing kinetics, additional chemical reactions and mixing processes during polymerisation were observed. The photopolymerisation of inflatable structure was carried out under simulated temperature conditions of space flight in low Earth orbit. The results indicate a technology for large-size inflatable constructions in Earth orbit, in far space and on space bodies as for deployed antennas, solar sail stringers, solar shield stringers, frames for large-size space stations, frames for Moon, Mars, asteroids bases and frames for space plant on Earth orbit and other celestial bodies.


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    Title :

    Photopolymerisation of composite material in simulated free space environment at low Earth orbital flight


    Additional title:

    Photopolymerisation von Verbundwerkstoffen in einer simulierten Weltraumumgebung auf erdnahen Umlaufbahnen


    Contributors:
    Kondyurin, A. (author) / Lauke, B. (author) / Vogel, R. (author)

    Published in:

    European Polymer Journal ; 42 , 10 ; 2703-2714


    Publication date :

    2006


    Size :

    12 Seiten, 12 Bilder, 36 Quellen




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English






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