期刊
ACTA ASTRONAUTICA
卷 189, 期 -, 页码 567-575出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.actaastro.2021.09.021
关键词
Impact testing; Aluminum alloys; Modelling and simulation; FEM; Abaqus
This research paper evaluated the impact response of Aluminum alloys using a computational approach, specifically examining the effect of space debris on the metallic shielding system. The computational results showed good agreement with experimental results, demonstrating that high-speed impact can lead to immediate failure of the metal plate due to maximum damaged area and stress.
This research paper has utilized a computational based approach to assess the impact response of Aluminum alloys. The authors have conducted Two Dimensional, Continuum Shell and Three Dimensional modelling of a shielding system using Finite Element Method. Effect of thickness and velocity variation has been emphasized with a view to simulate the effect of space debris on the metallic shielding system. Plane stress elements, Continuum Shell elements and Three Dimensional stress elements were used for Two Dimensional, Continuum Shell and Three Dimensional modelling of the plate, while rigid elements were used to model the projectile. The computational results showed a good agreement with the experimental results available. A maximum of 14 % increase in the relative damaged area of the specimen was observed, while the maximum stress generated under the impact was 395 MPa, leading to an immediate failure of the plate at a velocity of 1674 m/s. The numerical damage topologies also showed confidence with the published experimental results.
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