隐形材料/结构在下一代航空设备中的应用、发展和挑战

IF 7.5 Q1 CHEMISTRY, PHYSICAL Applied Surface Science Advances Pub Date : 2024-02-01 DOI:10.1016/j.apsadv.2024.100575
Li Jin, Yiming Zhao, Chen Chen, Jianwei Zhang, Yonglyu He, Changping Yin, Nan Wu, Jun Tang, Suli Xing
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引用次数: 0

摘要

获取电磁频谱是现代战争的精髓,这是由探测方向、机体结构和材料决定的。打击距离远、穿透力强、感知和快速决策能力强的现代航空装备是获取频谱的关键。穿透探测技术的发展可以促进隐身材料/结构在下一代航空装备中的应用,但部件级隐身结构的设计受到气动效率、机动性和准备过程的限制。面板级隐身材料/结构设计为下一代航空设备的开发提供了新的途径。本文回顾了隐身材料/结构的主要进展和未来挑战。主要内容侧重于航空设备中隐身材料/结构的检测技术和应用,以及隐身材料/结构在航空设备维护方面带来的挑战。此外,本研究还探讨了隐身材料/结构的机遇和发展趋势。
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Application, development, and challenges of stealth materials/structures in next-generation aviation equipment

Accessing the electromagnetic spectrum is the essence of modern warfare, which is determined by the detection direction, the airframe structure, and the material. Modern aviation equipment with a long strike range, penetration, and strong sensing and rapid decision-making capabilities is the key to capturing spectrum access. The development of penetration detection can promote the application of stealth materials/structures in next-generation aviation equipment, though the design of component-level stealth structures is constrained by aerodynamic efficiency, maneuverability, and preparation processes. Panel-level stealth material/structure design provides new avenues for the development of next-generation aviation equipment. This paper reviews the key advances and future challenges for stealth materials/structures. The main content focuses on the detection technology and application of stealth materials/structures in aviation equipment and the challenges posed by stealth materials/structures in terms of aviation equipment maintenance. Furthermore, this study addresses the opportunities and development tendencies of stealth materials/structures.

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来源期刊
CiteScore
8.10
自引率
1.60%
发文量
128
审稿时长
66 days
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