扫一扫 加微信
首页 > 期刊论文 > 论文摘要
地面雷达罩材料的研究进展
          
PROGRESS OF MATERIALS APPLIED TO GROUND RADOMES

摘    要
综述了地面雷达罩用复合材料的国内外研究进展,简要总结高性能地面雷达罩材料需要满足的要求。并评述各种增强纤维、基体树脂和夹层材料优缺点及其改性方法,展望未来地面雷达罩材料的发展趋势。
标    签 雷达罩   复合材料   增强纤维   基体树脂   夹层结构   Radome   Composites   Reinforced fibers   Matrix resin   Sandwich structure  
 
Abstract
The progress of composite materials applied to ground radomes was comprehensively reviewed. The requests of materials of high performance radomes needed was summed up briefly. It was also related to the comprehensive analysis of the advantages, disadvantages and modification methods of several kinds of reinforced fibers, matrix resin, and core materials. At the same time the developing trends of materials applied to ground radome were also described. The progress of composite materials applied to ground radomes was comprehensively reviewed. The requests of materials of high performance radomes needed was summed up briefly.

中图分类号 TN95

 
  中国光学期刊网论文下载说明


所属栏目

基金项目 上海市教育基金会“曙光计划”产学研攻关项目(005211083)

收稿日期 2005/12/28

修改稿日期

网络出版日期

作者单位点击查看

备注姜鑫(1981-),男,硕士研究生。

引用该论文: JIANG Xin,YANG Zhen-guo,JIANG Han-sheng,LV Yuan. PROGRESS OF MATERIALS APPLIED TO GROUND RADOMES[J]. Physical Testing and Chemical Analysis part A:Physical Testing, 2006, 42(5): 217~220
姜鑫,杨振国,蒋汉生,吕源. 地面雷达罩材料的研究进展[J]. 理化检验-物理分册, 2006, 42(5): 217~220


论文评价
共有人对该论文发表了看法,其中:
人认为该论文很差
人认为该论文较差
人认为该论文一般
人认为该论文较好
人认为该论文很好
分享论文
分享到新浪微博 分享到腾讯微博 分享到人人网 分享到 Google Reader 分享到百度搜藏分享到Twitter

参考文献
【1】IEEE Std 145-1983, IEEE Standard Definitions of Terms for Antennas[S].
 
【2】孙宝华,王 伟,孟松,等.低副瓣玻璃钢地面雷达天线罩的研制[J].纤维复合材料, 1999,16(4):36-38.
 
【3】Mayhan Joseph T, Simmons Alan J. Low Sidelobe Kα-Band Antenna-Radome Study[J]. IEEE Transaction on Antennas and Propagation, 1975,23(4):569-572.
 
【4】Shavit R, Ngai E C, Smolski A. High Performance Large Sandwich Radomes Operating in More Than One Frequency Band[J]. Antennas and Propagation, 1991,2(4):709-712.
 
【5】刘萝葳,曹运红,王 蕾,等.导弹雷达天线罩用的工艺材料[J].战术导弹技术, 2004,(1):23-28.
 
【6】Bleay S M, Humberstone L. Mechanical and Electrical Assessment of Hybrid Composites Containing Hollow Glass Reinforcement[J]. Composites Science and Technology, 1999,59:1321-1329.
 
【7】Lee-Sulivan P, Chian K S, Yue C Y, et al. Effects of Bromination and Hydrolysis Treatment on Morphology and Tensile Properties of Kevlar-29 Fibres[J]. J Material Science Letter, 1994,13:305-309.
 
【8】Benrashid R, Tesoro G C. Effect of Surface-Limited Reactions on the Properties of Kevlar Fibres[J]. J Textile Res, 1990,60(6):334-344.
 
【9】Wu S R, Sheu G S, Shyu S S. Kevlar Fibre-Epoxy Adhesion and Its Effect on Composite Mechanical and Fracture Properties by Plasma and Chemical Treatment[J]. J Applied Polymer Science, 1996,62:1347-1360.
 
【10】Lin T K, Kuo B H, Shyu S S, et al. Improvement of the Adhesion of Kevlar Fibre to Bismaleimide Resin by Surface Chemical Modification[J]. J Adhesion Science Technology, 1999,13(5):545-560.
 
【11】Wu G M, Hung C H, Lu J C. Effects of Plasma Treatment on High Performance Fibres for Composites[A]. International SAMPE Symposium and Exhibition[C]. Covina: Society for the Advancement of Material and Process Engineering, 1999.
 
【12】Takayanagi M, Katayose T. N-Substituted Poly (p-Phenylene Terephthalamide) [J]. J Polymer Science Polymer Chemstry Ed, 1981,19:113-1145.
 
【13】Takayanagi M, Katayose T. Surface-Modified Kevlar Fibre Reinforced Ionomer, Dynamic Mechanical Properties and Their Interpretation[J]. Polymer Engineering Science, 1984,24(13):1047-1055.
 
【14】Nardin M, Ward I M. Influence of Surface Treatment on Adhesion of Polyethylene Fibres[J]. Mater Science Technology, 1987,3:814-821.
 
【15】Woods D W, Ward IM. Study of the Oxygen Treatment of High-Modulus Polyethylene Fibres[J]. Surface Interface Anal, 1993,20:385-391.
 
【16】Nguyen H X, Riahi G, Wood G, et al. Optimization of Polyethylene Fibre Reinforced Composites Using a Plasma Surface Treatment[C]. Covina, CA, USA: SAMPE, 1988.
 
【17】Kaplan S L, Rose P W, Nguygen H X, et al. Gas Plasma Treatment of Spectra Fiber[A]. International SAMPE Symposium and Exhibition[C]. Covina: Society for the Advancement of Material and Process Engineering, 1988.
 
【18】Ladizesky N H, Ward I M. The Adhesion Behaviour of High Modulus Polyethylene Fibres Following Plasma and Chemical Treatment[J]. J Material Science 1989,24:3763-3773.
 
【19】Ramos V D, Da Costa H M, Soares V L P, et al. Hybrid Composites of Epoxy Resin Modified with Carboxyl Terminated Butadiene Acrilonitrile Copolymer and Fly Ash Microspheres[J]. Polymer Testing, 2005,24:219-226.
 
【20】D′Almeida J R M, Cella N. Analysis of the Fracture Behavior of Epoxy Resins Under Impact Conditions[J]. Applied Polymer Science, 2000,77:2486-2497.
 
【21】高树理,张明习.功能复合材料的性能与应用[A].第十一届全国复合材料学术会议[C].合肥:中国科学技术大学出版社, 2000.12-21.
 
【22】Li W, Lee L J. Low Temperature Cure of Unsaturated Polyester Resins with Thermoplastic Additives: I. Dilatometry and Morphology Study[J]. Polymer, 2000,41:685-696.
 
【23】Li W, Lee L J. Low Temperature Cure of Unsaturated Polyester Resins with Thermoplastic Additives. II. Structure Formation and Shrinkage Control Mechanism[J]. Polymer, 2000,41:697-710.
 
【24】Li W, Lee L J. Low Temperature Cure of Unsaturated Polyester Resins with Thermoplastic Additives III. Modification of Polyvinyl Acetate for Better Shrinkage Control[J]. Polymer, 2000,41:711-717.
 
【25】Cao Z Q, Me′chin F, Pascault J P. Effects of Rubbers and Thermoplastics as Additives on Cyanate Polymerization[J]. Polymer International, 1994,34:41-48.
 
【26】Hamerton I, Barton J M, Chaplin A, et al. The Development of Novel Functionalized Aryl Cyanate Esters. Part 2. Mechanical Properties of the Polymers and Composites[J]. Polymer, 2001,42:2307-2319.
 
【27】Gibson L J, Ashby M F. Cellular Solids: Structure and Properties. 2nd ed[M]. Cambridge, UK: Cambridge University Press, 1997.
 
【28】Smith F C, Scarpa F, Chambers B. Electromagnetic Properties of Re-Entrant Dielectric Honeycombs[J]. IEEE Microwave and Guided Wave Letters, 2000,10:451-453.
 
相关信息
   标题 相关频次
 硼化物陶瓷及其复合材料的研究进展
 4
 48mm的35MnBM棒材自动超声检测方法应用
 2
 RTM成型技术在码头钢筋混凝土结构修复中的应用
 2
 X射线源透射式工业计算机断层扫描成像技术在复合材料工件检测中的散射修正
 2
 变厚度碳纤维/环氧树脂基复合材料层压板的多电子闸门C扫成像
 2
 层状复合材料周期结构的超声传播频散特性及均匀化模拟
 2
 大型发电机组转子端部护环表面不明粉末的表征和分析
 2
 发电机定冷水系统不明异物的表征和分析
 2
 飞机复合材料层压缺陷原位超声波检测的探头研制及试验
 2
 飞机复合材料结构冲击损伤的红外检测
 2
 废热锅炉系统蒸发器支撑板异常断裂的失效分析
 2
 复合材料层压结构冲击损伤超声成像评估
 2
 复合材料层压结构冲击损伤超声成像评估
 2
 复合材料的现场电子剪切散斑检测技术研究
 2
 复合材料剪切散斑检测图像的小波降噪技术研究
 2
 复合材料破坏数据B基准值计算的程序设计
 2
 还原氧化石墨烯-杯<参考文献原文>磺酸盐复合材料的制备及其电化学检测吡虫啉的应用
 2
 基于强度型光纤传感技术的复合材料薄板损伤声发射定位法
 2
 基于碳纳米管压阻效应的复合材料结构健康监测技术
 2
 基于物理结构的低压电力用户用电信息采集系统故障分类和处理
 2
 激光超声检测碳纤维增强树脂基复合材料的缺陷评估技术研究
 2
 聚酯纤维布增强环氧树脂基复合材料的拉伸和摩擦学性能
 2
 磷酸铵溶液介质中不锈钢球阀的失效分析
 2
 纳米氧化铝对聚甲醛力学性能及摩擦磨损性能的影响
 2
 喷管座粘接层的超声检测
 2
 受火损伤后聚乙烯管道合乎使用评定方法与进展
 2
 碳纤维增强树脂基复合材料的性能研究
 2
 提高钢棒漏磁探伤灵敏度的方法
 2
 异种材料焊接接头热应力缓冲中间层的研究现状
 2
 在役航空器上复合材料的综合检测与评价
 2