摘要
对多层阻抗渐变的吸波结构设计思想进行了分析,介绍了多层阻抗渐变思想在吸波层板和泡沫两类结构吸波材料设计上的应用。理论计算与试验验证结果均表明,采用多层阻抗渐变设计能够使吸波层板和泡沫的吸波带宽向低频拓展,同时显著提高吸波泡沫的吸收强度。具有三个阻抗渐变吸收层的4 mm厚吸波层板在5~18 GHz频段反射率小于-10 d B;具有六个阻抗渐变吸收层的22 mm厚吸波泡沫在2~18 GHz频段反射率小于-10 d B,其中在6~18 GHz频段反射率小于-20 d B,8~12 GHz频段反射率小于-30 d B。多层阻抗渐变设计是提高结构吸波材料吸波性能的有效手段。
The design theory of absorbing structure with multilayer graded impedance is summarized and its application in design of absorbing laminate and foam is introduced in this paper. Both calculation and experiment show that design of multilayer graded impedance can extend absorbing bandwidth of the laminate and foam to low frequency and enhance absorbing efficiency of the foam. Reflectivity of the 4 mm thick laminate with three layers of graded impedance is less than- 10 d B between 5 GHz and 18 GHz. Reflectivity of the 22 mm thick foam with six layers of graded impedance is less than- 10 d B between 2 GHz and 18 GHz,is less than- 20 d B between 6 GHz and 18 GHz,and is less than- 30 d B between 8 GHz and 12 GHz. Design of multilayer graded impedance is an effective method for enhancing the absorbing properties of structural radar absorbing materials.
出处
《宇航材料工艺》
CAS
CSCD
北大核心
2015年第4期19-22,34,共5页
Aerospace Materials & Technology
关键词
结构吸波材料
多层阻抗渐变
吸波层板
吸波泡沫
Structural radar absorbing materials
Multilayer graded impedance
Absorbing laminate
Absorbing foam
作者简介
赵宏杰,1979年出生,工学博士,研究员,主要从事吸波材料及复合材料的研究工作。E—mail:zhaohj01@126.com
