随着军事隐身技术以及民用物联网电磁兼容、抗电磁干扰技术的发展,隐身涂层材料的重要性日益受到社会关注,该类材料逐渐成为功能材料的一个重要分支。近年来,在需求牵引和技术革新的带动下,隐身涂层材料从材料体系、设计方法到制备技术都取得了很大的进展。结合国内外最新发展动态和中心开展的主要工作,介绍了当前广泛发展的雷达吸波涂层、红外低发射率涂层以及多频谱兼容隐身涂层这3类涂层的隐身机理、材料特性以及应用技术方面的研究进展;重点关注先进材料体系和设计方法对隐身涂层材料的牵引,包括各向异性磁性材料/介电材料、纳米结构动态磁化理论以及材料复合技术等;最后通过对各种材料技术的分析,提出多频谱隐身涂层材料发展所面临的问题,分析了该领域未来发展的趋势。
With the development of military stealth technology and the EMC/EMI technology in the internet of things , stealth coating material has attracted more and more attention , as an important branch of functional material .During recent years, stealth coating material has achieved promising improvement from either the material category , design or synthesis point of view, by the promotion of application requirement and technical innovation .Radar absorbing coating, infrared low emissivity coating and multispectral stealth-compatible coating are three most widely developed stealth coatings concerned in this review.Combing recent advances with our previous works , stealth mechanisms, material characteristics and appli-cation techniques were introduced .The promotion effect of novel materials and design approaches on stealth materials was shown, e.g.anisotropic magnetic/dielectric materials, nanostructure dynamic magnetism, and compositing techniques. At last, the problems and future trends of mutispectral stealth coating material were proposed based on the analysis of pres-ented researches.
参考文献
| [1] | Sweetman B.Lockheed Stealth[M].Hongkong:Zenith Press,2004 |
| [2] | 邢丽英.隐身材料[M].Bei-jing:Chemical Industry Press,2004 |
| [3] | 张胤;张辉彬.敏感材料与吸波材料[A].Beijing:Qinghua University Press,2013:380-388. |
| [4] | Zeng Y;Yan S Q;Li Q F et al.The Simulation of Soft Magnet-ic Materials' Shielding Characteristic in the near Field Communi-cation System[J].Advanced Materials Research,2012,668:715-718. |
| [5] | Manara, J.;Reidinger, M.;Rydzek, M.;Arduini-Schuster, M. .Polymer-based pigmented coatings on flexible substrates with spectrally selective characteristics to improve the thermal properties[J].Progress in Organic Coatings: An International Review Journal,2011(4):199-204. |
| [6] | 马成勇,程海峰,唐耿平,谢炜.红外/雷达兼容隐身材料的研究进展[J].材料导报,2007(01):126-128,132. |
| [7] | Rozanov KN. .Ultimate thickness to bandwidth ratio of radar absorbers[J].IEEE Transactions on Antennas and Propagation,2000(8):1230-1234. |
| [8] | Walser R.K.;Win W. .Shape-optimized ferromagnetic particles with maximum theoretical microwave susceptibility[J].IEEE Transactions on Magnetics,1998(4):1390-1392. |
| [9] | Koledintseva M Y;Razmadze A G;Gafarov A Y et al.Attenua-tion in Extended Structures Coated with Thin Magneto-Dielectric Absorber Layer[J].Progress in Electromagnetics Research,2011,118:441-459. |
| [10] | Lee K S;Yun Y C;Kim S W et al.Microwave Absorption ofλ/4 Wave Absorbers Using High Permeability Magnetic Compos-ites in Quasimicrowave Frequency Band[J].Journal of Applied Physics,2008,103:07E504. |
| [11] | Kim S S .Microwave Absorbing Properties of Polymer Compos-ites Containing High-Permeability Magnetic Flake Particles in Quasi-Microwave Frequency Band[J].Advanced Material Re-search,2013,646:14-17. |
| [12] | Shirakata, Y.;Hidaka, N.;Ishitsuka, M.;Teramoto, A.;Ohmi, T. .Low-Loss Composite Material Containing Fine Zn–Ni–Fe Flakes for High-Frequency Applications[J].IEEE Transactions on Magnetics,2009(10):4337-4340. |
| [13] | 邓龙江,周佩珩.高频磁结构与磁极限关系的研究与现状[J].电子科技大学学报,2009(05):531-536. |
| [14] | P.H. Zhou;L.J. Deng;J.L. Xie .Effects of particle morphology and crystal structure on the microwave properties of flake-like nanocrystalline Fe_3Co_2 particles[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2008(1/2):303-307. |
| [15] | Zhou PH;Xie JL;Liu YQ;Deng LJ .Composition dependence of microstructure, magnetic and microwave properties in ball-milled FeSiB nanocrystalline flakes[J].Journal of Magnetism and Magnetic Materials,2008(24):3390-3393. |
| [16] | Deng L J;Zhou P H;Zhang L .Characterization and Microwave Magnetic Resonance in Nanocrystalline Fe-Co-Ni Flakes Com-posite[J].Journal of Applied Physics,2007,101:103916. |
| [17] | Zhou P H;Deng L J .Bounds on the Dynamic Magnetic Proper-ties of Multiresonant Nanostructure Composites in Exchange Res-onance Model[J].Journal of Applied Physics,2009,105:07A509. |
| [18] | Peiheng Zhou;Tao Liu;Jianliang Xie;Longjiang Deng .Damping effect on resonance bounds relationship of nanostructured ferromagnets and composites[J].Journal of Applied Physics,2012(11):113912-1-113912-4. |
| [19] | Zhou P H;Zhang L;Deng L J .Spin Wave Mode Transition In-duced by Surface Anisotropy and Characteristic Length in Mag-netic Nanoparticles[J].Applied Physics Letters,2010,96:112510. |
| [20] | Yang W F;Qiao L;Wei J Q et al.Microwave Permeability of Flake-Shaped FeCuNbSi Particle Composite with Rotational Ori-entation[J].Journal of Applied Physics,2010,107:033913. |
| [21] | Rozanov K N;Koledintseva M Y;Drewniak J.Predicting of Wideband Electromagnetic Responses of Composites Containing Magnetic Inclusions[A].,2010:857-862. |
| [22] | Liu T;Zhou P H;Deng L J et al.Spatial Orientation and Po-sition Distribution Effect on the Effective Permeability of Com-posites Consisting of Aligned Flakes[J].Journal of Applied Physics,2009,106:114904. |
| [23] | Liu, T.;Zhou, P.H.;Xie, J.L.;Deng, L.J. .Extrinsic permeability of Fe-based flake composites from intrinsic parameters: A comparison between the aligned and random cases[J].Journal of Magnetism and Magnetic Materials,2012(4):519-523. |
| [24] | Faxiang Qin;Hua-Xin Peng .Ferromagnetic microwires enabled multifunctional composite materials[J].Progress in materials science,2013(2):183-259. |
| [25] | Ivanov A V;Shalygin A N;Galkin V Y et al.Metamaterials with Tunable Negative Refractive Index Fabricated from Amor-phous Ferromagnetic Microwires:Magnetostatic Interaction Be-tween Microwires[J].Piers Online,2009,5:649-652. |
| [26] | Baranov S .Radioabsorption Properties of Amorphous Microwires[J].Moldavian J Phys Sci,2009,8:332-336. |
| [27] | Buznikov, NA .The effect of surface domain structure on low-field microwave absorption of magnetic microwires[J].Journal of Physics, D. Applied Physics: A Europhysics Journal,2010(5):055002:1-055002:4. |
| [28] | Han M G;Liang D F;Deng L J .Fabrication and Electromag-netic Wave Absorption Properties of Amorphous Fe79 Si16 B5 Mi-crowires[J].Applied Physics Letters,2011,99:082503. |
| [29] | Z. Raolison;C. Lefevre;J. Neige;A.-L. Adenot-Engelvin;G. Pourroy;N. Vukadinovic .Preparation and Microwave Properties of Silica Coated Ni-Fe-Mo Flakes Composites[J].IEEE Transactions on Magnetics,2013(3 Pt.1):986-989. |
| [30] | Han, R.;Han, X.-H.;Qiao, L.;Wang, T.;Li, F.-S. .Superior electromagnetic properties of oriented silica-coated planar anisotropy carbonyl-iron particles in quasimicrowave band[J].Physica, B. Condensed Matter,2011(10):1932-1935. |
| [31] | Jia, S.;Luo, F.;Qing, Y.;Zhou, W.;Zhu, D. .Electroless plating preparation and microwave electromagnetic properties of Ni-coated carbonyl iron particle/epoxy coatings[J].Physica, B. Condensed Matter,2010(17):3611-3615. |
| [32] | Seon-Tae Kim;Sung-Soo Kim .Electroless Plating of Co Thin Film on Hollow Glass Microspheres and the Effect of Film Thickness on Microwave Absorbance[J].IEEE Transactions on Magnetics,2012(11):3494-3497. |
| [33] | Qin Li;Jianfeng Pang;Bing Wang .Preparation, characterization and microwave absorption properties of barium-ferrite-coated fly-ash cenospheres[J].Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan,2013(1):288-294. |
| [34] | Wenqiang, Z.;Deyuan, Z.;Jun, C..Microwave characteristics of low density flaky magnetic particles[J].Journal of Magnetism and Magnetic Materials,2013:15-20. |
| [35] | Han MG;Deng LJ .Doping effect of multiwall carbon nanotubes on the microwave electromagnetic properties of NiCoZn spinel ferrites[J].Applied physics letters,2007(1):11108-1-11108-3-0. |
| [36] | Xu, Y.;Zhang, D.;Cai, J.;Yuan, L.;Zhang, W..Microwave absorbing property of silicone rubber composites with added carbonyl iron particles and graphite platelet[J].Journal of Magnetism and Magnetic Materials,2013:82-86. |
| [37] | Erlong Ma;Jiajun Li;Naiqin Zhao;Enzuo Liu;Chunnian He;Chunsheng Shi .Preparation of reduced graphene oxide/Fe_3O_4 nanocomposite and its microwave electromagnetic properties[J].Materials Letters,2013(Jan.15):209-212. |
| [38] | Jun Xiang;Yanqiu Chu;Xionghui Zhang;Xiangqian Shen.Magnetic and microwave absorption properties of electrospun Co_(0.5_Ni_(0.5)Fe_2O_4 nanofibers[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2012:320-325. |
| [39] | Gong Y X;Zhen L;Jiang J T et al.Synthesis and Microwave Electromagnetic Properties of CoFe Alloy Nanoflakes Prepared with Hydrogen-Thermal Reduction Method[J].Journal of Ap-plied Physics,2009,106:064302. |
| [40] | Jiang, J.T.;Wei, X.J.;Xu, C.Y.;Zhou, Z.X.;Zhen, L..Co/SiO_2 composite particles with high electromagnetic wave absorbing performance and weather resistance[J].Journal of Magnetism and Magnetic Materials,2013:111-118. |
| [41] | Liu Tao,Zhou Pei-Heng,Liang Di-Fei,Deng Long-Jiang.Electromagnetic absorption properties of flowerlike cobalt composites at microwave frequencies[J].中国物理B(英文版),2012(05):43-46. |
| [42] | Liu T;Zhou P H;Liang D F et al.Multi-Resonances Behavior of Ni Nanobelt/Paraffin Composites at Microwave Frequencies[J].Journal of Alloys and Compounds,2012,524:25. |
| [43] | Liu T;Zhou P H;Xie J L et al.The Hierarchical Architecture effect on the Microwave Absorption Properties of Cobalt Compos-ites[J].Journal of Applied Physics,2011,110:033918. |
| [44] | E. Kowsari;A.H. Karimzadeh.Fabrication of fern-like, fish skeleton-like, and butterfly-like BaO nanostructures as nanofillers for radar-absorbing nanocomposites[J].Materials Letters,2012:33-36. |
| [45] | C. Stergiou;G. Litsardakis .Design of Microwave Absorbing Coatings With New Ni and La Doped SrCo_(2) - W Hexaferrites[J].IEEE Transactions on Magnetics,2012(4):1516-1519. |
| [46] | John S. McCloy;Konstantin Korolev;Jarrod V. Crum;Mohammed N. Afsar .Millimeter-Wave Absorption as a Quality Control Tool for M-Type Hexaferrite Nanopowders[J].IEEE Transactions on Magnetics,2013(1 Pt.3):546-551. |
| [47] | Bobzin, K.;Schlaefer, T.;Bégard, M.;Bruehl, M.;Bolelli, G.;Lusvarghi, L.;Lisjak, D.;Hujanen, A.;Lintunen, P.;Kanerva, U.;Varis, T.;Pasquale, M. .Development of Ba-hexaferrite coatings for electromagnetic wave absorption applications[J].Surface & Coatings Technology,2010(4):1015-1020. |
| [48] | Lisjak D;Begard M;Bruehl M et al.Hexaferrite/Polyester Composite Coating for Electromagnetic-Wave Absorbers[J].Journal of Thermal Spray Technology,2011,20(03):638-644. |
| [49] | Dong C S;Wang X;Zhou P H.Microwave Magnetic and Absorption Properties of M-Type Ferrite BaCoxTixFe12-2xO19 in the Ka Band[J].IEEE Transactions on Magnetics submitted |
| [50] | Ting T H;Yu R P;Jau Y N .Synthesis and Microwave Absorp-tion Characteristics of Polyaniline/NiZn Ferrite Composites in 2-40 GHz[J].Materials Chemistry and Physics,2011,126:364-368. |
| [51] | 张建奇;方小平.红外物理[M].Xi′an:Xidian University Press,2004 |
| [52] | Huijuan Yu;Guoyue Xu;Xingmei Shen .Preparation of leafing Cu and its application in low infrared emissivity coatings[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2009(1/2):395-399. |
| [53] | Chen Hu;Guoyue Xu;Xingmei Shen;Rong Huang;FengLei Li .Thermal ageing studies on low infrared emissivity composite coatings[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2010(1/2):691-694. |
| [54] | Wu, G.;Yu, D. .Preparation of a novel infrared low-emissive coating from the Cu powder modified by the polyethylene wax[J].Infrared physics and technology,2012(1):26-31. |
| [55] | Larciprete M C;Albertoni A;Belardini A et al.Infrared Prop-erties of Randomly Oriented Silver Nanowires[J].Journal of Applied Physics,2012,112:083503. |
| [56] | Yin X S;Tang W;Weng X L et al.Surface Morphology Mod-eling for the Resistivity Analysis of Low Temperature Sputtered Indium Tin Oxide Thin Films on Polymer Substrate[J].Journal of Physics D:Applied Physics,2009,42:225304. |
| [57] | Yin XS;Tang W;Weng XL;Deng LJ .Energy band calculation of amorphous indium tin oxide films on polyethylene terephthalate substrate with indirect transition[J].Journal of Physics, D. Applied Physics: A Europhysics Journal,2009(2):025104-1-025104-4-0. |
| [58] | Lee, S.;Kim, Y.;Kang, S. .Far-infrared emission of Ti-based oxides[J].Journal of Molecular Structure,2011(1/3):86-90. |
| [59] | Le Yuan;Xiaolong Weng;Longjiang Deng.Influence of binder viscosity on the control of infrared emissivity in low emissivity coating[J].Infrared physics and technology,2013:25-29. |
| [60] | Yajun Wang;Guoyue Xu;Huijuan Yu;Chen Hu;Xiaoxing Yan;Tengchao Guo;Jiufen Li .Comparison of anti-corrosion properties of polyurethane based composite coatings with low infrared emissivity[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2011(10):4743-4748. |
| [61] | Xiaoxing Yan;Guoyue Xu .Effect of surface modification of Cu with Ag by ball-milling on the corrosion resistance of low infrared emissivity coating[J].Materials Science & Engineering, B. Solid-State Materials for Advanced Technology,2010(2):152-157. |
| [62] | 袁乐,翁小龙,卢虎,邓龙江.Al/Cr2O3复合粉体的制备及红外反射特性研究[J].无机材料学报,2013(05):545-550. |
| [63] | Yuan L;Weng X L;Xie J L.Solvothermal Synthesis and Visible/Infrared Optical Properties of Al/Fe3 O4 Core-Shell Mag-netic Composite Pigments[J].Journal of Alloys and Com-pounds Submitted |
| [64] | Yuan L;Weng X L;Du W F.Optical and Magnetic Properties of Al/Fe3 O4 Core-Shell Low Infrared Emissivity Pig-ments[J].Journal of Alloys and Compounds Submitted |
| [65] | Chiba K;Tamura S;Akada N .Improved Optical Properties of Transparent Low-Emissivity Coatings Using an Asymmetrical Structure Containing Two Silver-Alloy Layers[J].Japanese Journal of Applied Physics,2009,48:125505. |
| [66] | Fu L S;Jiang J T;Zhen L et al.FeNi3/Indium Tin Oxide (ITO) Composite Nanoparticles with Excellent Microwave Ab-sorption Performance and Low Infrared Emissivity[J].Materials Science and Engineering B,2013,178:225-230. |
| [67] | Le Chen;Chunhua Lu;Zhenggang Fang;Yi Lu;Yaru Ni;Zhongzi Xu .Infrared emissivity and microwave absorption property of Sm_(0.5)Sr_(0.5)CoO_3 perovskites decorated with carbon nanotubes[J].Materials Letters,2013(Feb.15):308-311. |
| [68] | Wang Y;Cheng H F;Wang J et al.Infrared Emissivity of Ca-pacitive Frequency-Selective Surfaces and Its Application in Ra-dar and IR Compatible Stealth Sandwich Structures[J].Ad-vanced Material Research,2011,382:65-69. |
| [69] | 王宪栋;赵尔波 .红外隐身涂料的研究现状与发展趋势[J].Electronic Warfare(电子对抗),2012,143:46-49. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%