Computational studies on hyper velocity impact of spherical projectiles on whipple shield with hybrid Newtonian fluid-filled core
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Elsevier BV
Reference52 articles.
1. Space Debris: Models and Risk Analysis;Klinkrad,2006
2. Optical surveys for space debris;Schildknecht;Astron. Astrophys. Rev.,2007
3. Collisional cascading: The limits of population growth in low earth orbit;Kessler;Adv. Space Res.,1991
4. The benefits of very low earth orbit for earth observation missions;Crisp;Prog. Aerosp. Sci.,2020
5. Enhanced meteoroid and orbital debris shielding;Christiansen;Int. J. Impact Eng.,1995
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