Tethers promise to find use in a variety of space applications. Despite being narrow objects, their great lengths result in them having large total areas, and so tethers are quite susceptible to being severed by orbital debris. Extensive work has been done designing tethers that resist severs by small debris objects, and hence have longer working lives. It is from this perspective that most recent work has considered the tether - debris question. The potential of intact tethers, or severed tether fragments, as debris to pose a significant collision risk to other spacecraft has been less well studied. Understanding the consequences of such encounters is important in assessing the risks to other spacecraft posed by tethers. In this paper I discuss the damage that two types of tethers may produce on planar aerospace materials, as revealed by hyper- velocity impact simulations using the SPHC hydrodynamic code. Tether types considered include a single nylon line and a complex design including metal wires. Target materials considered include the aluminum plates typically used in debris shielding, and solar panels.
Tethers as Debris: Hydrocode Simulation of Impacts of Tether Fragments on Planar Aerospace Materials
World Space Congress 2002 ; 2002 ; Houston, TX, United States
2002-01-01
Preprint
No indication
English
AIAA-2004-1879 Tethers as Debris: Simulating Impacts of Tethers Fragments on Shuttle Tiles
British Library Conference Proceedings | 2004
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