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.
【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.