A report describes improvements over the conventional Whipple shield (two thin, spaced aluminum walls) for protecting spacecraft against high-speed impacts of orbiting debris. The debris in question arises mainly from breakup of older spacecraft. The improved shields include exterior "bumper" layers composed of hybrid fabrics woven from combinations of ceramic fibers and high-density metallic wires or, alternatively, completely metallic outer layers composed of high-strength steel or copper wires. These shields are designed to be light in weight, yet capable of protecting against orbital debris with mass densities up to about 9 g/cubic cm, without generating damaging secondary debris particles. As yet another design option, improved shields can include sparsely distributed wires made of shape memory metals that can be thermally activated from compact storage containers to form shields of predetermined shape upon arrival in orbit. The improved shields could also be used to augment shields installed previously.
Shields for Enhanced Protection Against High-Speed Debris
2003-07-01
Miscellaneous
No indication
English
SOLUTIONS - Books & Reports - Shields for Enhanced Protection Against High-Speed Debris
Online Contents | 2003
SOLUTIONS - Books and Reports - Shields for Enhanced Protection Against High-Speed Debris
Online Contents | 2003
NEW PROTECTION CONCEPTS FOR METEOROID / DEBRIS SHIELDS
British Library Conference Proceedings | 2005
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British Library Online Contents | 1996
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