Abstract
AbstractSpacecraft fragmentation due to collisions with space debris is a major concern for space agencies and commercial entities, since in the next years the production of collisional fragments is expected to become the major source of space debris. Experimental studies have shown that the fragmentation process is highly complex and influenced by various factors, such as the satellite design, the material properties, the velocity and angle of the debris impact, and the point of collision (e.g., central, glancing, on spacecraft appendages). This paper summarizes the current state of research in spacecraft fragmentation, including the methods and techniques used to simulate debris impacts, the characterization of fragment properties and the analysis of the resulting debris cloud. It provides an overview of the main experiments performed, underlining the most critical issues observed. Moreover, it presents a set of experiments performed at the University of Padova and proposes some future directions for this research.
Funder
Università degli Studi di Padova
Publisher
Springer Science and Business Media LLC
Reference40 articles.
1. Anselmo, L., Rossi, A., Pardini, C.: Updated results on the long-term evolution of the space debris environment. Adv. Space Res. 23, 201–211 (1999)
2. Kessler, D.J., Cour-Palais, B.G.: Collision frequency of artificial satellites: the creation of a debris belt. Space Phys. 83, 2637–2646 (1978)
3. Kessler, D., Johnson, N., Liou, J., Matney, M.: The Kessler syndrome: Implications to future space operations. Adv. Astronaut. Sci. 137(8), 2010 (2010)
4. Rossi, A., Anselmo, L., Cordelli, A., Farinella, P., Pardini, C.: Modelling the evolution of the space debris population. Planet. Space Sci. 46, 1583–1596 (1988)
5. Drmola, J., Hubik, T.: Kessler syndrome: system dynamics model. Space Policy 44–45, 29–39 (2018)