河北师范大学学报—

期刊信息

刊名：河北师范大学学报（自然科学版）Journal of Hebei Normal University (Natural Science)
主办：河北师范大学
ISSN： 1000-5854
CN： 13-1061/N
中国科技核心期刊
中国期刊方阵入选期刊
中国高校优秀科技期刊
华北优秀期刊
河北省优秀科技期刊

协同采编系统

友情链接

水性吸波涂料的研究进展

陆军工程大学石家庄校区电磁环境效应重点实验室,河北石家庄 050003
DOI： 10.13763/j.cnki.jhebnu.nse.202102016

Research Progress of Waterborne Wave-absorbing Coatings

YUAN Jianghang, QU Zhaoming, SUN Xiaoning, YUAN Yang, WANG Qingguo

PDF
下载
HTML

摘要/Abstract

摘要：

水性吸波涂料具有高效吸波和环保健康的特点，在军事和民用领域具有广阔的应用前景.首先介绍了水性涂料的亲水机理及吸波涂料的制备工艺方法，进而综述了国内外有关电损耗主导型和磁损耗主导型2类水性吸波涂料的研究进展，分析了存在的问题，并展望了水性吸波涂料的发展方向.

Abstract：

Waterborne wave-absorbing coatings have the characteristics of high efficiency wave-absorbing and environmental protection and no harm to human body and health，it has broad application prospects in military and civil fields. The hydrophilic mechanism of waterborne coatings and the preparation process of wave-absorbing coatings are introduced，the domestic and overseas research progress of two types of water-absorbing coatings, electrical-loss dominant and magnetic-loss dominant, is reviewed，and the existing problems are analyzed. The development direction of water-absorbing coatings is prospected.

关键词

关键词： 吸波材料；吸波涂料；水性涂料；环保

Key words： wave-absorbing material ; absorbing coatings ; water-based paint ; environmental protection

参考文献 37

[1] 张玉龙, 齐贵亮. 水性涂料配方精选 [M] . 3版. 北京:化学工业出版社, 2017. ZHANG Yulong, QI Guiliang. Waterborne Coatings Formula Selection [M] . 3rd ed. Beijing:Chemical Industry Press, 2017.
[2] 刘顺华, 刘军民, 董星龙. 电磁屏蔽和吸波材料 [M] . 北京:化学工业出版社, 2006. LIU Shunhua, LIU Junmin, DONG Xinglong. Electromagnetic Shielding and Absorbing Materials [M] . Beijing:Chemical Industry Press, 2006.
[3] CAO Maosheng, HAN Chen, WANG Xixi, et al. Graphene Nanohybrids:Excellent Electromagnetic Properties for the Absorbing and Shielding of Electromagnetic Waves [J] . Journal of Materials Chemistry C Materials for Optical & Electronic Devices, 2018(6):4586-4602. doi:10. 1039/c7tc05869a
[4] 李琳, 姚正军, 周金堂. 聚苯胺纳米纤维/锂锌铁氧体复合吸波材料的制备与性能 [J] . 复合材料学报，2016, 33(4):814-820. doi:10. 13801/j. cnki. fhclxb. 20150914. 001 LI Lin, YAO Zhengjun, ZHOU Jintang. Preparation and Property of Polyaniline Nanofibers/lithium ZincFerrite Composite Absorbents [J] . Acta Materiae Compositae Sinica, 2016, 33(4):814- 820.
[5] WEI Wei, LIU Xiaoguang, LU Wanli, et al. Lightweight Gadolinium Hydroxide@Polypyrrole Rare Earth Nanocomposites with Tunable and Broadband Electromagnetic Wave Absorption [J] . Acs Applied Materials & Interfaces, 2019(11):12752-12760. doi:10. 1021/acsami. 8b21516
[6] 宋慧娟. 有机/无机水性复合涂料的制备与研究 [D] . 武汉:武汉理工大学, 2015. SONG Huijuan. Preparation and Research of Organic/inorganic Water-based Composite Coatings [D] . Wuhan:Wuhan University of Technology, 2015.
[7] 申蓓蓓. 水性环保型电磁屏蔽涂料的研究及其应用 [D] . 昆明：昆明理工大学, 2007. SHEN Beibei. Research and Application of Water-based Environmental Protection Electromagnetic Shielding Coating [D] . Kunming:Kunming University of Science and Technology, 2007.
[8] 孟令巧, 史星照, 周志平, 等. 环保型水性涂料研究进展及发展趋势 [J] . 中国胶粘剂, 2019, 28(1):55-60. doi:10. 13416/j. ca. 2019. 01. 014 MENG Lingqiao, SHI Xingzhao, ZHOU Zhiping, et al. Research Progress and Development Trend of Environmental Friendly Water-borne Coatings [J] . Chinese Adhesive, 2019, 28(1):55-60.
[9] JEONG H Y, LEE M H, KIM B K. Surface Modification of Waterborne Polyurethane [J] . Colloids & Surfaces a Physicochemical & Engineering Aspects, 2006, 290(1/2/3):178-185. doi:10. 1016/j. colsurfa. 2006. 05. 036
[10] CUI Mingjun, REN Siming, ZHAO Haichao, et al. Polydopamine Coated Graphene Oxide for Anticorrosive Reinforcement of Waterborne Epoxy Coating [J] . Chemical Engineering Journal, 2018, 335:255-266. doi:10. 1016/j. cej. 2017. 10. 172
[11] 兰华雄. 水性磁漆喷涂工艺分析与思考 [J] . 厦门科技, 2013(1):59-62. doi:10. 3969/j. issn. 1007-1563. 2013. 01. 015 LAN Huaxiong. Analysis and Consideration of Water-borne Enamel Spraying Process [J] . Xiamen Science and Technology, 2013(1):59-62.
[12] 高全杰, 汪朝晖, 王家青. 静电喷涂技术及其应用探讨 [J] . 现代涂料与涂装, 2006(5):39-41. doi:10. 3696/j. issn. 1007-9548. 2006. 05. 013 GAO Quanjie, WANG Zhaohui, WANG Jiaqing. Discussion on Electrostatic Spraying Technology and Its Application [J] . Modern Paint & Finishing, 2006(5):39-41.
[13] 宋月, 王欣, 牛耕芜, 等. 纤维素微纤丝复合环氧树脂水性涂料制备工艺及性能研究 [J] . 应用化工, 2020, 49(7):1660-1663. doi:10. 16581/j. cnki. issn. 1671-3206. 20200416. 026 SONG Yue, WANG Xin, NIU Gengwu, et al. Study on Preparation Technology and Properties of Water-based Coating of Cellulose Microfilament Composite Epoxy [J] . Applied Chemistry, 2020, 49(7):1660-1663.
[14] 周金向, 黄慧萍, 龚荣洲. 雷达吸波涂料用环氧树脂改性的研究 [J] . 热固性树脂, 2005, 20(3):36-38. doi:10. 3969/j. issn. 1002-7432. 2005. 03. 011 ZHOU Jinxiang, HUANG Huiping, GONG Rongzhou. Modification of Epoxy Resin for Radar Absorbing Coating [J] . Thermosetting Resin, 2005, 20(3):36-38.
[15] 杨会静. 典型电介质材料的微波介电及吸波性能研究 [D] . 北京:北京理工大学, 2015. YANG Huijing. Study on Microwave Dielectric and Absorbing Properties of Typical Dielectric Materials [D] . Beijing:Beijing Institute of Technology, 2015.
[16] WANG C, HAN X, XU P, et al. The Electromagnetic Property of Chemically Reduced Graphene Oxide and Its Application as Microwave Absorbing Material [J] . Applied Physics Letters, 2011, 98(072906):1-3. doi:10. 1063/1. 3555436
[17] ZHANG Ting, HUANG Daqing, YANG Ying, et al. Fe₃O₄/carbon Composite Nanofiber Absorber with Enhanced Microwave Absorption Performance [J] . Materials Science and Engineering B:Solid-state Materials for Advanced Technology, 2013, 178(1):1-9. doi:10. 1016/j. mseb. 2012. 06. 005
[18] 马治. 磁性微米纳米材料的制备及其高频磁性研究 [D] . 兰州:兰州大学, 2012. MA Zhi. Preparation and High-frequency Magnetic Properties of Magnetic Micro-nano Materials [D] . Lanzhou:Lanzhou University, 2012.
[19] LACREVAZ T, FLECHET B, FARCY A, et al. Wide Band Frequency and in Situ Characterisation of High Permittivity Insulators (High-K) for H F Integrated Passives [J] . Microelectronic Engineering, 2006, 82(11/12):548-553. doi:10. 1016/j. mee. 2005. 07. 054
[20] 童国秀, 官建国, 张五一, 等. 纳米铁纤维与羰基铁粉共混制备轻质宽带吸波涂层材料 [J] . 金属学报, 2008, 44(8):1001-1005. doi:10. 3321/j. issn. 0412-1961. 2008. 08. 020 TONG Guoxiu, GUAN Jianguo, ZHANG Wuyi, et al. Preparation of Lightweight Broadband Absorbing Coating Material by Mixing Nano-sized Iron Fiber with Carbonyl Iron Powder [J] . Journal of Metal Science, 2008, 44(8):1001-1005.
[21] 陶睿, 刘朝辉, 班国东, 等. 碳纤维粉羰基铁粉复合材料的吸波性能及在涂层中的应用 [J] . 电镀与涂饰, 2017(22):1205-1210. doi:10. 19289/j. 1004-227X. 2017. 22. 008 TAO Rui, LIU Zhaohui, BAN Guodong, et al. Microwave Absorbing Properties of Carbon Fiber Powder-carbonyl Iron Powder Composite and Its Application in Coating [J] . Electroplating and Finishing, 2017(22):1205-1210.
[22] PANAITESCU D M, GABOR R A, NICOLAE C A, et al. Influence of Melt Processing Induced Orientation on the Morphology and Mechanical Properties of Poly (Styrene-b- ethylene/butylene-b-styrene) Block Copolymers and Their Composites with Graphite [J] . Materials & Design, 2014, 64(12):694-705. doi:10. 1016/j. matdes. 2014. 08. 049
[23] XU X, RAO Z, WU J, et al. In-situ Synthesis and Thermal Shock Resistance of Cordierite/silicon Carbide Composites Used for Solar Absorber Coating [J] . Solar Energy Materials and Solar Cells, 2014, 130:257-263. doi:10. 1016/j. solmat. 2014. 07. 017
[24] 班国东, 刘朝辉, 叶圣天，等. 碳纤维复合吸波材料的频散特性影响规律研究 [J] . 表面技术, 2017, 46(4):205-211. doi:10. 16490/j. cnki. issn. 1001-3660. 2017. 04. 033 BAN Guodong, LIU Zhaohui, YE Shengtian, et al. Study on Dispersion Characteristics of Carbon Fiber Composite Absorbing Materials [J] . Surface Technique, 2017, 46(4):205-211.
[25] 陈祥凤, 黄昊, 吕波，等. 碳包覆铁/丙烯酸树脂水性纳米复合涂料的制备及电磁波吸收性能 [J] . 材料导报, 2009, 23(10):45-47. doi:10. 3321/j. issn. 1005-023X. 2009. 10. 014 CHEN Xiangfeng, HUANG Hao, LYU Bo, et al. Preparation and Electromagnetic Wave Absorption Properties of Carbon-coated Iron/acrylic Resin Waterborne Nano-composite Coatings [J] . Materials Report, 2009, 23(10):45-47.
[26] XIE S, GUO X N, JIN G Q, et al. Carbon Coated Co-SiC Nanocomposite with High-performance Microwave Absorption [J] . Physical Chemistry Chemical Physics, 2013, 15(38):16104-16110. doi:10. 1039/c3cp52735b
[27] LI G, WANG L, LI W, et al. CoFe₂O₄ and/or Co3Fe7 Loaded Porous Activated Carbon Balls as a Lightweight Microwave Absorbent [J] . Physical Chemistry Chemical Physics, 2014, 16:12385 -12392. doi:10. 1039/c4cp00647j
[28] SUGIMOTO S, HAGA K, KAGOTANI T, et al. Microwave Absorption Properties of Ba M-type Ferrite Prepared by a Modified Coprecipitation Method [J] . Journal of Magnetism & Magnetic Materials, 2005, 290:1188-1191. doi:10. 1016/j. jmmm. 2004. 11. 381
[29] YANG Ruigang. Electromagnetic Properties and Microwave Absorption Properties of BaTiO3-carbonyl Iron Composite in S and C Bands [J] . Journal of Magnetism & Magnetic Materials, 2011, 323(13):1805-1810. doi:10. 1016/j. jmmm. 2011. 02. 013
[30] 徐津. 磁性金属/电介质纳米颗粒的制备及吸波性能的研究 [D] . 包头:内蒙古科技大学, 2012. XU Jin. Preparation and Microwave Absorbing Properties of Magnetic Metal/dielectric Nanoparticles [D] . Baotou:Inner Mongolia University of Science and Technology, 2012.
[31] 范瑞. BaFe12O19/ZnFe₂O₄磁性纳米复合材料制备与性能研究 [D] . 兰州:兰州理工大学, 2013. FAN Rui. Preparation and Properties of BaFe12O19/ZnFe₂O₄ Magnetic Nanocomposites [D] . Lanzhou:Lanzhou University of Technology, 2013.
[32] 罗平, 刘朝辉, 陶睿, 等. 片状羰基铁/聚氨酯双层吸波涂层的设计及其电磁特性 [J] . 电镀与涂饰, 2018, 37(6):247-253. doi:10. 19289/j. 1004-227X. 2018. 06. 004 LUO Ping, LIU Zhaohui, TAO Rui, et al. Design and Electromagnetic Properties of Flaky Carbonyl Iron/polyurethane Bilayer Absorbing Coatings [J] . Electroplating and Finishing, 2018, 37 (6):247-253.
[33] 索庆涛, 许宝才, 王建江. FeNi/Ba0. 6Sr0. 4TiO3核壳纳米结构的制备及低频吸波机理研究 [J] . 稀有金属材料与工程, 2019, 48(11):3714-3720. SUO Qingtao, XU Baocai, WANG Jianjiang. Preparation and Low Frequency Absorbing Properties of FeNi/Ba0. 6Sr0. 4TiO3 Core-shell Nanostructures [J] . Rare Metal Materials and Engineering, 2019, 48(11):3714-3720.
[34] BRONWELL A. Transmission-line Analogies of Plane Electromagnetic-wave Reflections[J]. Proceedings of the Ire, 1944, 32(4):233-241. doi:10. 1109/jrproc. 1944. 230657
[35] 闵丹丹. 定向排列羰基铁粉吸波涂层的制备及性能研究 [D] . 西安:西北工业大学, 2018. MIN Dandan. Study on Preparation and Properties of Microwave Absorbing Coating with Oriented Carbonyl Iron Powder [D] . Xi′an:Northwestern Polytechnical University, 2018.
[36] MONTAZERI A, CHITSAZZADEH M. Effect of Sonication Parameters on the Mechanical Properties of Multi-walled Carbon Nanotube/epoxy Composites[J]. Mater Des, 2014, 56:500- 508. doi:10. 1016/j. matdes. 2013. 11. 013
[37] 赵军. 碳包裹纳米金属及其合金粒子的制备和性能研究 [D] . 南京:南京理工大学, 2007. ZHAO Jun. Preparation and Properties of Carbon-coated Nano-metal and Its Alloy Particles [D] . Nanjing:Nanjing University of Science and Technology, 2007.