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飞机雷达罩涂层材料研究进展

余俊赵现伟李培刘凯巡张泽陈海宁刘慧丛叶辉李卫平

航空材料学报2025，Vol.45Issue(4)：56-66,11.

航空材料学报2025，Vol.45Issue(4)：56-66,11.DOI:10.11868/j.issn.1005-5053.2024.000138

飞机雷达罩涂层材料研究进展

Research progress on coating materials for aircraft radome

余俊 ¹赵现伟 ¹李培 ¹刘凯巡 ¹张泽 ¹陈海宁 ¹刘慧丛 ¹叶辉 ²李卫平¹

作者信息

1. 北京航空航天大学材料科学与工程学院,北京 100191
2. 中国运载火箭技术研究院航天材料及工艺研究所,北京 100076
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摘要

Abstract

Radar serves as the"eye"of aircraft,playing a crucial role in aircraft guidance and thus necessitating protection by radomes.Given that radar components are primarily positioned at the aircraft's nose and work in a complex environment,radome materials must exhibit high wave transparency,rain erosion resistance,impact resilience,and antistatic properties.However,the prevailing radome material,glass fiber reinforced plastic composites,falls short in terms of rain erosion resistance and antistatic performance.Rain erosion and electrostatic accumulation can disrupt radar signal transmission,ultimately compromising flight safety.Consequently,the application of rain-erosion-resistant and antistatic coatings emerges as an effective protective measure.This paper reviews the characteristics and current research status of aircraft radome coating systems globally and domestically,while also projecting the development and research directions of coating materials.Initially,the paper analyses the performance requirements for coatings based on the unique service environment of aircraft radomes.It then delves into the structural characteristics,protection mechanisms,and international research advancements of rain-erosion-resistant and antistatic coating systems.Domestic research into aircraft radome coating materials has a relatively late onset.These coatings have evolved from inelastic formulations to polyurethane elastic coatings,with further refinements and optimizations to the polyurethane resin enhancing weather resistance.In the realm of antistatic coatings,ongoing challenges include balancing electrical conductivity and dielectric properties while ensuring coating performance stability.Conclusively,the paper briefly analyzes the development key point of aircraft radome coating materials.It points out for future in-depth research focusing on three areas:the correlation between coating material properties and environmental factors,the damage and failure mechanisms of coating materials,and the compatibility of multifunctional coating materials.

关键词

飞机雷达罩/涂层材料/耐雨蚀/抗静电/介电性能

Key words

aircraft radome/coating materials/rain erosion resistance/antistatic property/dielectric property

分类

航空航天

引用本文复制引用

余俊,赵现伟,李培,刘凯巡,张泽,陈海宁,刘慧丛,叶辉,李卫平..飞机雷达罩涂层材料研究进展[J].航空材料学报,2025,45(4):56-66,11.

基金项目

国家重点研发(2023YFB3408200) （2023YFB3408200）

北京市自然科学基金(L248096) （L248096）

航空材料学报

OA北大核心

ISSN：1005-5053

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