Shape of fragments cloud behind heterogeneous screen by a space debris particle impact

IF 3.1 2区 物理与天体物理 Q1 ENGINEERING, AEROSPACE Acta Astronautica Pub Date : 2024-10-16 DOI:10.1016/j.actaastro.2024.10.036
A.E. Buzyurkin, V.M. Fomin, A.E. Kraus, E.I. Kraus, I.I. Shabalin
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Abstract

Technogenic pollution of near-Earth space poses a threat to the functioning of spacecraft. Collisions between space debris (SD) and spacecraft (SC) structures can have catastrophic consequences or cause localized damage, leading to the loss of SC operability or the failure of certain functions. The SC body must effectively protect the internal equipment from various external impacts, be technologically feasible to manufacture, and have as little mass as possible. As a result, the task of designing spacecraft bodies and protective screens for low-orbit SC is particularly relevant due to the large concentration of SD in low Earth orbits.
A comparative numerical study was conducted to evaluate the effectiveness of various thin shields in protecting against impacts from space debris particles. The study examined homogeneous shields made of A356 aluminum alloy and 316L stainless steel, as well as volumetrically reinforced composite shields produced using additive manufacturing with steel inclusions, and shields with a gradient distribution of steel throughout the thickness of an aluminum matrix, all with the same areal density. In all the heterogeneous plates considered, the volumetric concentration of steel was 36 %. The study covered an interaction velocity range of 2–9 km/s. Numerical modeling results indicated that the structure of the thin heterogeneous plate does not affect the shape of the debris cloud formed behind the protective shield. The findings of this study can serve as a basis for selecting materials for the development of more effective protection for spacecraft against high-velocity impacts.
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空间碎片粒子撞击异质屏幕后碎片云的形状
近地空间的技术污染对航天器的运行构成威胁。空间碎片(SD)与航天器(SC)结构之间的碰撞可能会造成灾难性后果或局部损坏,导致航天器丧失可操作性或某些功能失效。SC 主体必须能有效保护内部设备免受各种外部撞击,在制造技术上可行,并且质量尽可能小。因此,为低轨道 SC 设计航天器本体和保护屏的任务尤为重要,因为低地球轨道上集中了大量的 SD。该研究考察了由 A356 铝合金和 316L 不锈钢制成的均质防护罩,以及利用添加剂制造技术生产的含有钢夹杂物的体积增强复合防护罩,以及在铝基体的整个厚度上梯度分布钢的防护罩,所有防护罩的均方根密度均相同。在所有考虑的异质板中,钢的体积浓度为 36%。研究涵盖的相互作用速度范围为 2-9 千米/秒。数值建模结果表明,异质薄板的结构不会影响保护罩后形成的碎片云的形状。这项研究的结果可以作为选择材料的依据,以便为航天器开发更有效的保护装置,防止高速撞击。
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来源期刊
Acta Astronautica
Acta Astronautica 工程技术-工程:宇航
CiteScore
7.20
自引率
22.90%
发文量
599
审稿时长
53 days
期刊介绍: Acta Astronautica is sponsored by the International Academy of Astronautics. Content is based on original contributions in all fields of basic, engineering, life and social space sciences and of space technology related to: The peaceful scientific exploration of space, Its exploitation for human welfare and progress, Conception, design, development and operation of space-borne and Earth-based systems, In addition to regular issues, the journal publishes selected proceedings of the annual International Astronautical Congress (IAC), transactions of the IAA and special issues on topics of current interest, such as microgravity, space station technology, geostationary orbits, and space economics. Other subject areas include satellite technology, space transportation and communications, space energy, power and propulsion, astrodynamics, extraterrestrial intelligence and Earth observations.
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