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NTIS 바로가기한국항공우주학회지 = Journal of the Korean Society for Aeronautical & Space Sciences, v.50 no.12, 2022년, pp.829 - 838
신현철 (Department of Aerospace Engineering, Chungnam National University) , 박재상 (Department of Aerospace Engineering, Chungnam National University)
This study conducts Hypervelocity Impact(HVI) simulations considering space objects with various shapes and different impact angles. A commercial nonlinear structural dynamics analysis code, LS-DYNA, is used for the present simulation study. The Smoothed Particle Hydrodynamic(SPH) method is applied ...
ESA Space Debris Office, "ESA's Annual Space Environment Report 2022," Available online: https://www.sdo.esoc.esa.int/environment_report/Space_Environment_Report_latest.pdf/(accessed on 20 June 2022).
Anderson, C. E., Trucano, T. G. and Mullin, S. A., "Debris Cloud Dynamics," International Journal of Impact Engineering, Vol. 9, Iss. 1, 1990, pp. 89~113.
Hyde, J. L., Christiansen, E. L. and Lear, D. M., "Observations of MMOD Impact Damage to the ISS," International Orbital Debris Conference, 2019.
Piekutowski, A. J., "Characteristics of Debris Clouds Produced by Hypervelocity Impact of Aluminum Spheres with Thin Aluminum Plates," International Journal of Impact Engineering, Vol. 14, No. 1-4, 1993, pp. 573~586.
Zhang, Y., An, F., Liao, S., Wu, C., Liu, J. and Li, Y., "Study on Numerical Simulation Methods for Hypervelocity Impact on Large-Scale Complex Spacecraft Structures," Aerospace, Vol. 9, No. 1, 2021.
Wen, K., Chen, X. W. and Lu, Y. G., "Research and Development on Hypervelocity Impact Protection using Whipple Shield: An Overview," Defence Technology, Vol. 17, No. 6, 2021, pp. 1864~1886.
Kang, P. S., Im, C. K., Youn, S. K., Lim, J. H. and Hwang, D. S., "A Study on the Damage of Satellite Caused by Hypervelocity Impact with Orbital Debris," Journal of The Korean Society for Aeronautical and Space Sciences, Vol. 40, No. 7, 2012, pp. 555~563.
Sakong, J., Woo, S. C. and Kim, T. W., "A Study on the Kinetic Energy and Dispersion Behavior of High-velocity Impact-induced Debris Using SPH Technique," Transactions of The Korean Society of Mechanical Engineers-A, Vol. 40, No. 5, 2016, pp. 457~467.
Huang, J., Ma, Z. X., Ren, L. S., Li, Y., Zhou, Z. X. and Liu, S., "A New Engineering Model of Debris Cloud Produced by Hypervelocity Impact," International Journal of Impact Engineering, Vol. 56, 2013, pp. 32~39.
Watson, E. and Steinhauser, M. O., "Discrete Particle Method for Simulating Hypervelocity Impact Phenomena," Materials, Vol. 10, No. 4, 2017.
McKnight, D., Johnson, N., Fudge, M. L. and Maclay, T. D., "Satellite Orbital Debris Characterization Impact Test (SOCIT) Series Data Collection Report," Karman Sciences Corporation, 1995.
Silnikov, M. V., Guk, I. V., Mikhaylin, A. I., Nechunaev, A. F. and Rumyantsev, B. V., "Numerical Simulation of Hypervelocity Impacts of Variously Shaped Projectiles with Thin Bumpers," Materials Physics & Mechanics, Vol. 42, No. 1, 2019, pp. 20~29.
Silnikov, M. V., Guk, I. V., Nechunaev, A. F. and Smirnov, N. N., "Numerical Simulation of Hypervelocity Impact Problem for Spacecraft Shielding Elements," Acta Astronautica, Vol. 150, 2018, pp. 56~62.
Plassard, F., Mespoulet, J. and Hereil, P., "Hypervelocity Impact of Aluminium Sphere Against Aluminium Plate : Experiment and LS-DYNA Correlation," Proceedings of the 8th European LS-DYNA Users Conference, 2011, pp. 1~11.
Hiermaier, S., "Structures Under Crash and Impact: Continuum Mechanics, Discretization and Experimental Characterization," Springer Science & Business Media, 2007.
Carriere, R. and Cherniaev, A., "Hypervelocity Impacts on Satellite Sandwich Structures- A Review of Experimental Findings and Predictive Models," Applied Mechanics, Vol. 2, No. 1, 2021, pp. 25~45.
Liu, G. R., "Meshfree Methods: Moving Beyond the Finite Element Method," CRC Press, 2009.
Aslebagh, R., "Hypervelocity Impact on Satellite Sandwich Structures: Development of a Simulation Model and Investigation of Projectile Shape and Honeycomb Core Effects," Doctoral dissertation, University of Windsor, 2021.
Johnson, G. R. and Cook, W. H., "Fracture Characteristics of Three Metals Subjected to Various Strains, Strain Rates, Temperatures and Pressures," Engineering Fracture Mechanics, Vol. 21, No. 1, 1985, pp. 31~48.
Venkatesan, J., Iqbal, M. A., Gupta, N. K., Bratov, V., Kazarinov, N. and Morozov, F., "Ballistic Characteristics of Bi-layered Armour with Various Aluminium Backing against Ogive Nose Projectile," Procedia Structural Integrity, Vol. 6, 2017, pp. 40~47.
Beal, T., Van Dorsselaer, N. and Lapoujade, V., "A Contribution to Validation of SPH New Features," In 9th European LS-DYNA conference, 2013, pp. 2~4.
Legaud, T., Le Garrec, M., Van Dorsselaer, N. and Lapoujadet, V., "Improvement of Satellites Shielding Under High Velocity Impact Using Advanced SPH Method," Proceedings of The 12th European LS-DYNA Users Conference, 2019.
Piekutowski, A. J., "Debris Clouds Generated by Hypervelocity Impact of Cylindrical Projectiles with Thin Aluminum Plates," International Journal of Impact Engineering, Vol. 5, No. 1-4, 1987, pp. 509~518.
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