雷达吸波涂层腐蚀失效对雷达隐身性能的影响  被引量：4

作　　者：李希[1] 张天才[1] 陈庆昌[2] 蒋和跃 李忠盛[1] 王忠维 魏文政[1] LI Xi;ZHANG Tian-cai;CHEN Qing-cang;JIANG He-yue;LI Zhong-sheng;WANG Zhong-wei;WEI Wen-zheng(Southwest Institute of Technology and Engineering,Chongqing 400039,China;Beijing Special Vehicles Institute,Beijing 100000,China;The Sixth Military Representative Office of the Army Equipment Department in Chongqing,Chongqing 400042,China;Chongqing University of Technology,Chongqing 400054,China)

机构地区：[1]西南技术工程研究所,重庆400039 [2]北京特种车辆研究所,北京100000 [3]陆军装备部驻重庆地区第六军事代表室,重庆400042 [4]重庆理工大学,重庆400054

出　　处：《表面技术》2023年第5期313-321,共9页Surface Technology

摘　　要：目的 研究腐蚀失效后的吸波涂层与雷达隐身性能的变化规律。方法 制备7块吸波涂层样品,分别进行0、24、48、96、240、480、840 h的中性盐雾试验。通过X射线能谱仪和扫描电子显微镜、电化学工作站分别对试验后的样品组成成分和微观形貌、电化学阻抗谱进行表征。利用矢量网络分析仪对盐雾试验后的样品在8~18 GHz频率范围内的雷达波反射率进行测试。结果 吸波涂层在试验96、240 h后出现局部小范围点蚀现象,480、840h时出现大面积点蚀现象。同时,吸收剂形貌也发生改变,涂层氧含量增加,说明涂层中吸收剂被渗入的腐蚀介质腐蚀氧化。通过等效电路图拟合交流阻抗谱数据结果,认为样品腐蚀失效经历了3个阶段,840 h盐雾试验后,样品膜值较试验前原始样品(0 h)已下降69.7%,说明涂层防护性能得到极大破坏。0h样品雷达波反射率均值为-4.27,4dB带宽实现了70.07%,840h样品反射率均值为-4.71,4 dB带宽达到了87.53%,整个试验过程反射率测试结果的均值相差不到0.5 dB,说明雷达隐身性能并没有下降。结论 在一定时间阶段内,雷达吸波涂层中吸收剂被氧化腐蚀,并不会导致雷达隐身性能下降。For equipment serving in harsh tropical marine seawater/atmospheric corrosive environments,studying the variation law of stealth performance of radar absorbing coatings in corrosive environment,and revealing the mechanism of coating corrosion failure on radar stealth performance are of great benefit to extend the service life of absorbing coatings,ensure stable and reliable absorbing performance,formulate scientific and reasonable maintenance plans,and reduce maintenance costs.The work aims to study the variation law of absorbing coatings after corrosion failure and the stealth performance of radar.Firstly,7 Q235 steel plates with a size of 120 mm×50 mm×2 mm were prepared.After sandblasting,a strontium chrome yellow primer layer with a thickness of(30±2)μm was sprayed.After cured at 80 ℃ for half an hour,the radar absorbing coating with a thickness of(0.58±0.05)mm was sprayed.After cured at 80 ℃ for 2 h,the 7 parallel samples were completed.Then,neutral salt spray test was carried out for 0 h(original samples not subject to salt spray test),24 h,48 h,96 h,240 h,480 h and 840 h,and the composition and microstructure of the samples after the test were characterized with X-ray energy dispersive spectrometer and scanning electron microscope.Gmary Reference 3000 electrochemical workstation was used to perform electrochemical AC impedance spectroscopy test on the samples after salt spray test,and the equivalent circuit diagram was introduced to describe and fit the AC impedance data to further analyze the failure mechanism of the coating.The Agilent E8363C vector network analyzer was used to connect the terminal open circuit test fixture,and the 8-18 GHz radar wave reflectivity test was carried out on the samples after the test.After 96 h and 240 h salt spray test,there was visible local small-scale pitting corrosion on the absorbing coating,and after 480 h and 840 h,the corrosion phenomenon was obviously serious and large-area pitting corrosion occurred.At the same time,the morphology of the absorbent also ch

关 键 词：雷达吸波涂层 吸收剂腐蚀失效 电化学阻抗谱 雷达波反射率 电磁参数 阻抗匹配 

分 类 号：TG172[金属学及工艺—金属表面处理]