纳米粉体对传统电磁波吸收复合材料性能促进作用研究
|
摘要
研究了各种纳米和普通吸收剂制备的聚合物基复合材料的电磁波吸收性能。主要工作包括以下三个方面:第一,用波导法研究了纳米氧化硅(nanometer SiOx)、乙炔碳黑(CB)及它们的混合物、碳纳米管(CNTs)的电磁特性;第二,将纳米氧化硅、碳纳米管、纳米氧化锌(nanometer ZnO)、氧化锌晶须(ZnOw)及乙炔碳黑等吸收剂单独或混合制成复合材料,用自由空间法测定这些材料的电磁波吸收性能;第三,设计、制备了不同厚度和不同结构的复合材料以提高对电磁波的吸收性能。主要研究结果如下:
1.通过对材料的电磁参数的研究,结果表明纳米氧化硅、乙炔碳黑及碳纳米管均为介电损耗型材料,少量的纳米氧化硅能够降低乙炔碳黑介电常数的实部,大幅度提高乙炔碳黑介电常数的虚部和介电损耗。
2.通过对复合粉体的吸波性能的研究,结果表明复合粉体的吸波性能优于单一吸波剂的吸波性能。5份纳米氧化硅能使含25份乙炔碳黑的复合材料的最小反射率从-10.54dB降低到-28.71dB,小于-10dB的吸收频宽从0.66 GHz提高到2.78 GHz。
3.通过对不同厚度材料的吸波性能研究,结果表明随材料厚度的减小,材料对电磁波的吸收峰向高频移动。
4.通过对不同结构材料的吸波性能研究,结果表明,材料结构设计合理的情况下,多层材料的吸波性能优于单层材料的吸波性能。ZnOw/CB/NBR(100/25/25)多层复合材料的最小反射率从-14.34dB降到-46.37dB,小于-10dB的吸收频宽从1.32GHz提高到1.91GHz。
在本实验的工作中发现与其它纳米材料不同的现象,纳米氧化硅的介电常数出现峰值,碳纳米管有两个介电损耗峰,建议以后的工作对其原因进行分析。
Electro-magnetic wave absorption properties of polymer matrix composites made by blending polymer with nanometer powders and ordinary absorbers were investigated in the paper. Main work includes three parts. Firstly,the electro-magnetic parameters of nanometer SiOx, CB,their mixture and CNTs were researched by means of waveguide. Secondly, electro-magnetic wave absorption properties of composites made by mixing nanometer SiOx, CB, nanometer zonic, ZnOw, CNTs and their mixture with polymer were measured in the method of freespace. Thirdly, different depth and different structure composites were designed in order to improve electro-magnetic absorption properties of materials. Main results include:
1. Investigation of electro-magnetic parameters shows that nanometer SiOx,CB and CNTs are dielectric loss materials, ' of CB decreases and
" and tg8 of CB are largely improved when a little quantity of nanometer SiOx is added to CB.
2. Research shows that absorption properties of composite powders are better than those of single absorber.The minimum reflectivity of 25 phr CB can decrease from -10. 54dB to -28. 71dB and the absorption frequency width <-10 dB of 25 phr CB can be increased from 0. 66 GHz to 2. 78 GHz when CB is mixed with 5 phr nanometer SiOx.
3. Results of absorption properties of different depth composites prove that the absorption peak is shifted to high frequency as the depth of materials decreases.
4. Investigation of absorption properties of different structure composites shows that , on the condition of the reasonable structure design, absorption properties of multi-layer materials are better than those of single-layer materials. The minimum reflectivity of multi-layer ZnOw/CB/NBR ( 100/25/25) composites compared with single-layer ZnOw/CB/NBR (100/25/25) composites decreases from -14. 34dB to -46. 37dB, and the absorption frequency width <-10
dB increases from 1. 32 GHz to 1.91GHz.
The complex permittivity peak of nanometer SiOx and two dielectric losses of CNTs are discovered in our experiment which are different from properties of other nanometer materials. We should do the further research to reveal the truth.
1.通过对材料的电磁参数的研究,结果表明纳米氧化硅、乙炔碳黑及碳纳米管均为介电损耗型材料,少量的纳米氧化硅能够降低乙炔碳黑介电常数的实部,大幅度提高乙炔碳黑介电常数的虚部和介电损耗。
2.通过对复合粉体的吸波性能的研究,结果表明复合粉体的吸波性能优于单一吸波剂的吸波性能。5份纳米氧化硅能使含25份乙炔碳黑的复合材料的最小反射率从-10.54dB降低到-28.71dB,小于-10dB的吸收频宽从0.66 GHz提高到2.78 GHz。
3.通过对不同厚度材料的吸波性能研究,结果表明随材料厚度的减小,材料对电磁波的吸收峰向高频移动。
4.通过对不同结构材料的吸波性能研究,结果表明,材料结构设计合理的情况下,多层材料的吸波性能优于单层材料的吸波性能。ZnOw/CB/NBR(100/25/25)多层复合材料的最小反射率从-14.34dB降到-46.37dB,小于-10dB的吸收频宽从1.32GHz提高到1.91GHz。
在本实验的工作中发现与其它纳米材料不同的现象,纳米氧化硅的介电常数出现峰值,碳纳米管有两个介电损耗峰,建议以后的工作对其原因进行分析。
Electro-magnetic wave absorption properties of polymer matrix composites made by blending polymer with nanometer powders and ordinary absorbers were investigated in the paper. Main work includes three parts. Firstly,the electro-magnetic parameters of nanometer SiOx, CB,their mixture and CNTs were researched by means of waveguide. Secondly, electro-magnetic wave absorption properties of composites made by mixing nanometer SiOx, CB, nanometer zonic, ZnOw, CNTs and their mixture with polymer were measured in the method of freespace. Thirdly, different depth and different structure composites were designed in order to improve electro-magnetic absorption properties of materials. Main results include:
1. Investigation of electro-magnetic parameters shows that nanometer SiOx,CB and CNTs are dielectric loss materials, ' of CB decreases and
" and tg8 of CB are largely improved when a little quantity of nanometer SiOx is added to CB.
2. Research shows that absorption properties of composite powders are better than those of single absorber.The minimum reflectivity of 25 phr CB can decrease from -10. 54dB to -28. 71dB and the absorption frequency width <-10 dB of 25 phr CB can be increased from 0. 66 GHz to 2. 78 GHz when CB is mixed with 5 phr nanometer SiOx.
3. Results of absorption properties of different depth composites prove that the absorption peak is shifted to high frequency as the depth of materials decreases.
4. Investigation of absorption properties of different structure composites shows that , on the condition of the reasonable structure design, absorption properties of multi-layer materials are better than those of single-layer materials. The minimum reflectivity of multi-layer ZnOw/CB/NBR ( 100/25/25) composites compared with single-layer ZnOw/CB/NBR (100/25/25) composites decreases from -14. 34dB to -46. 37dB, and the absorption frequency width <-10
dB increases from 1. 32 GHz to 1.91GHz.
The complex permittivity peak of nanometer SiOx and two dielectric losses of CNTs are discovered in our experiment which are different from properties of other nanometer materials. We should do the further research to reveal the truth.
引文
1 孙晶晶,李建保,张波等.陶瓷吸波材料的研究现状.材料工程,2003,(2):43~47
2 倪尔瑚.材料科学中的介电谱技术[M].北京科学出版社,1999:180
3 廖绍彬,尹光俊,周丽年.微波吸收材料电磁参数的控制.宇航材料工艺,1989,(4~5):39~44
4 步文博,徐洁,丘泰等.吸波材料的基础研究及微波损耗机理的探讨.材料导报,2001,15(5):14~17
5 娄明连,阚涛.复合磁介质吸波材料.磁性材料及器件,2002,33(5):13~15
6 张立德,牟季美.纳米材料和纳米结构[M].第一版,科学出版社,2001:59~63
7 张卫东,吴伶芝,冯小云等.纳米雷达隐身材料研究进展.宇航材料工艺,2001,(3):1~3
8 邓廷成,任斌,何秀英.微波暗室用铁氧体吸波元件的研究.磁性材料及器件,2003,34(1):23~29
9 张海军,姚熹,张良莹等.X、U铁氧体的溶胶-凝胶合成及微波性能研究.功能材料,2003,34(1):39~40,43
10 张海军,姚熹,张良莹等.BaPbZnCo-Y型铁氧体的柠檬酸溶胶-凝胶合成及其微波性能研究.功能材料,2003,34(1):37~38,43
11 程圣华,胡国光,娄明连.BaMnZnCo-W型铁氧体的微波吸收特性.磁性材料及器件,2002,33(4):11~13
12 何玉平,胡国光,姚学标等.BaMnZnCoTi-W型铁氧体的微波吸收剂的制备和特性研究.功能材料,2002,33(1);36~38
13 Sugimoto S,Koudo K,et al.M-Type ferrite composite as a microwave absorber with wide bandwidth in the GHz range. IEEE Transactions on Magnetics 999,35(5): 3154~3156
14 Yoshimori M,Morihiko M.Two-Layer wave absorber composed of soft-magnetic and ferroelectric substances. IEEE Transactions on Magnetics,1997,33(5):3427~3429
15 阚涛,娄明连.添加稀土对吸波材料性能的影响.磁性材料及器件,2001,32(6):18~21
16 方以坤,汪忠柱,方庆清.纳米级六角晶系M型铁氧体微波吸收特性的研究.功能材料,2001,32(4):370~371
17 解家英,李国栋,云月厚等.Nd_2O_3掺杂对纳米锂铁氧体微波吸收特性的影响.磁性材料及器件,2002,33(3):1~3,6
18 云月厚,张伟,李国栋.溶胶-凝胶法制备的LiLa_xFe_(5-x)O_8纳米晶材料的微波吸收特性.磁性材料及器件,2003,34(1):12~13,19
19 Shenping Ruan,Baokun Xu,et al.Microwave absorptive behavior of ZnCo-substitutd W-type Ba hexaferrite nanocrystalline composite material. Joural Magnetism and Magnetic Materials,2000,212:175~177
20 张海军,姚熹,张良莹.BaFe_(12)O_(19)/Al_2O_3-SiO_2-K_2O微晶玻璃陶瓷的柠檬酸sol-gel合成及其微波性能的研究.功能材料,2002,33(1):105~109
21 张海军,姚熹,张良莹.BaFe_(12)O_(19)/SiO_2微晶玻璃陶瓷的柠檬酸盐sol-gel合成及其微波性能的研究.无机材料学报,2001,16(6):1069~1076
22 张海军,姚熹,张良莹等.BaFe_(12)O_(19)/Al_2O_3-SiO_2-K_2O微晶玻璃陶瓷的sol-gel合成及其微波性能.功能材料,2003,34(1):44~45
23 周祚万,刘世楷,顾利霞.四针状ZnOw/树脂基复合材料导电性能的研究.功能材料,2001,32(5):492~495
24 周祚万,楚珑,刘世楷等.四针状ZnOw的微波吸收及微波-热转换特性研究.功能材料,2002,33(1):55~56,59
25 万梅香.导电高聚物的微波吸收机理的研究.物理学报,1992,41(2):917~923
26 Truong V T, Riddell S Z, Muscat R F. Polypyrrole based microwave absorbers.Journal of Materials Science, 1998,33:4971~4976
27 Sengwa R J, Kaur K. Microwave absorption in oligomers of ethylene glycol.Journal of Biochemistry&Biophysics, 1999,36(5):325~327
28 马金库,周馨我,倪基华等.可溶性导电高分子的毫米波微波吸收特性研究.功能材料,1994,25(4):306~308
29 林云,林展如,干久志.轻质金属有机高分子吸波剂(OPA)及其RAM的性能研究.功能材料,2001,31(增刊)
30 孔德明,刘祖黎,冯建辉等.掺杂聚本胺吸波材料的研究.高分子材料科学与工程,2000,16(3):169~171
31 王国强,刘祖黎,王卫东.掺杂磁性材料的聚苯胺电磁参数及吸波性能的研究.河南教育学院学报,2000,9(3):9~12
32 赵东林,沈曾民.吸波C_f和SiC_f的制备及其微波电磁特性.宇航材料工艺,2001,31(1):4~9
33 甘学永.含谐振子的电磁功能材料的研究.北京航空航天大学博士论文,1992
34 欧阳国恩.碳化硅—碳功能纤维.功能材料,1994,25(4):300~305
35 欧阳国恩,刘兴慰,岳曼君.SiC—C纤维有机先驱体流变可纺性研究.复合材料学报,1995,12(3):46~52
36 王军,陈革,王应德等.具有雷达吸波功能的碳化硅纤维的制备.材料研究学报,2000,14(4):363~366
37 Chauveto O,Stoto T, Zuppiroli L. Hopping conduction in a nanometer-size crystalline system:A SiC fiber. Phys Rev.B, 1992,46(13):8139~8146
38 Nariswa M,Itoi Y, Okamura K.Electrical resistivity of Si—Ti—C—O fibers. J. Am.Ceram. Soc., 1990,73(2):443~445
39 程海峰,陈朝辉,李永清.碳化硅短切纤维电磁特性改性研究.宇航材料工艺,1998,28(2):55~59
40 程海峰,陈朝辉,李永清.碳化硅纤维表面化学镀改性研究.功能材料,1998,29(增刊):396~341
41 王军,宋永才,冯春祥.具有微波吸收功能的掺混型碳化硅纤维的研制.功能材料,1997,28(6):619~622
42 王军,宋永才,冯春祥.含钛碳化硅纤维的制备及其微波吸收特性.材料研究学报,1998,12(4):419~421
43 Yamamuna T,Toshikawa T, Shibuya M.Electromagnetic wave absorbing material. USP5094907,1992-02-15:2
44 陈利民,亓家钟,朱雪琴等.纳米γ-(Fe,Ni)合金颗粒的微观结构及其微波吸收特性.兵器材料科学与工程,1999,22(4):3
45 陈曙,蒋正生,杨燚等.FeB纳米合金颗粒的隐身性能研究.航天电子对抗,2000,(4):57
46 冯则坤,张秀成,何华辉.纳米磁性颗粒膜的制备及微波电磁特性研究.兵器材料科学与工程,2002.25(3).19~21
47 黄婉霞,陈家钊,毛健等.纳米级Fe3O_4对电磁波的吸收性能.功能材料,1999,30(1):105~106.
48 朱正吼,王开坤.纳米填料对碳纤维复合材料电磁特性的影响.兵器材料科学与工程,2002,25(2):11~14
49 赵东林,周万城.纳米Si/C/N复相粉体的制备及其在不同基体中的微波介电特性.无机材料学报,2001,16(5):909~914.
50 赵东林,周万城.纳米Si/C/N复相粉体的微波吸收特性.复合材料学报,2002,19(2):65~70.
51 焦桓,罗发,周万城.Si/C/N纳米粉体的吸波特性研究.无机材料学报,2002,17(3):595~599.
52 沈曾民,赵东林.镀镍碳纳米管的微波吸收性能研究.新型碳材料,2001,16(1):1~4.
53 杜玉成,黄坤良.空心微球为基核的纳米隐形材料制备研究.中国非金属矿工业导刊,2001,(6):19
54 方亮,龚荣州,官建国.雷达吸波材料的现状与展望.武汉工业大学学报,1999,21(6):21~24
55 曾祥云,马铁军,李家俊.吸波材料(RAM)用损耗介质及RAM技术发展趋势.材料导报,1997,11(3):57~60.
56 焦桓,周万城,罗发.神经网络模型在Si/C/N吸收剂介电性能控制中的应用.无机材料学报,2002,17(4):852~856.
57 Mahmoud SF, Habib MK. Design of a twolayer microwave absorber. J Electromagnetic Wave, 1998,12(8): 1005~1014.
58 Valenzuela A Q, Anfbal Fernandez F. General Design Theory for Single-layer Homogeneous Absorber. IEEE Trans AP, 1996,44(7):822~826.
59 Musal HM, Jr, Smith DC. Universal design chart for specular absorbers. IEEE Trans Magn, 1990,26(5): 1462~1464.
60 于晓凌,林钢,何华辉等.单层吸波材料的逆想优化方法.磁性材料及器件,2002,33(3):24~27.
61 张立德,牟季美.纳米材料和纳米结构[M].第一版,科学出版社,2001:328.
62 张立德,牟季美.纳米材料和纳米结构[M].第一版,科学出版社,2001:28~29.
63 王勇,黄锐.碳黑复合导电高分子材料成型加工进展.工程塑料应用.2003,31(3):63~65.
64 张立德,牟季美.纳米材料和纳米结构[M].第一版,科学出版社,2001:336~339.
2 倪尔瑚.材料科学中的介电谱技术[M].北京科学出版社,1999:180
3 廖绍彬,尹光俊,周丽年.微波吸收材料电磁参数的控制.宇航材料工艺,1989,(4~5):39~44
4 步文博,徐洁,丘泰等.吸波材料的基础研究及微波损耗机理的探讨.材料导报,2001,15(5):14~17
5 娄明连,阚涛.复合磁介质吸波材料.磁性材料及器件,2002,33(5):13~15
6 张立德,牟季美.纳米材料和纳米结构[M].第一版,科学出版社,2001:59~63
7 张卫东,吴伶芝,冯小云等.纳米雷达隐身材料研究进展.宇航材料工艺,2001,(3):1~3
8 邓廷成,任斌,何秀英.微波暗室用铁氧体吸波元件的研究.磁性材料及器件,2003,34(1):23~29
9 张海军,姚熹,张良莹等.X、U铁氧体的溶胶-凝胶合成及微波性能研究.功能材料,2003,34(1):39~40,43
10 张海军,姚熹,张良莹等.BaPbZnCo-Y型铁氧体的柠檬酸溶胶-凝胶合成及其微波性能研究.功能材料,2003,34(1):37~38,43
11 程圣华,胡国光,娄明连.BaMnZnCo-W型铁氧体的微波吸收特性.磁性材料及器件,2002,33(4):11~13
12 何玉平,胡国光,姚学标等.BaMnZnCoTi-W型铁氧体的微波吸收剂的制备和特性研究.功能材料,2002,33(1);36~38
13 Sugimoto S,Koudo K,et al.M-Type ferrite composite as a microwave absorber with wide bandwidth in the GHz range. IEEE Transactions on Magnetics 999,35(5): 3154~3156
14 Yoshimori M,Morihiko M.Two-Layer wave absorber composed of soft-magnetic and ferroelectric substances. IEEE Transactions on Magnetics,1997,33(5):3427~3429
15 阚涛,娄明连.添加稀土对吸波材料性能的影响.磁性材料及器件,2001,32(6):18~21
16 方以坤,汪忠柱,方庆清.纳米级六角晶系M型铁氧体微波吸收特性的研究.功能材料,2001,32(4):370~371
17 解家英,李国栋,云月厚等.Nd_2O_3掺杂对纳米锂铁氧体微波吸收特性的影响.磁性材料及器件,2002,33(3):1~3,6
18 云月厚,张伟,李国栋.溶胶-凝胶法制备的LiLa_xFe_(5-x)O_8纳米晶材料的微波吸收特性.磁性材料及器件,2003,34(1):12~13,19
19 Shenping Ruan,Baokun Xu,et al.Microwave absorptive behavior of ZnCo-substitutd W-type Ba hexaferrite nanocrystalline composite material. Joural Magnetism and Magnetic Materials,2000,212:175~177
20 张海军,姚熹,张良莹.BaFe_(12)O_(19)/Al_2O_3-SiO_2-K_2O微晶玻璃陶瓷的柠檬酸sol-gel合成及其微波性能的研究.功能材料,2002,33(1):105~109
21 张海军,姚熹,张良莹.BaFe_(12)O_(19)/SiO_2微晶玻璃陶瓷的柠檬酸盐sol-gel合成及其微波性能的研究.无机材料学报,2001,16(6):1069~1076
22 张海军,姚熹,张良莹等.BaFe_(12)O_(19)/Al_2O_3-SiO_2-K_2O微晶玻璃陶瓷的sol-gel合成及其微波性能.功能材料,2003,34(1):44~45
23 周祚万,刘世楷,顾利霞.四针状ZnOw/树脂基复合材料导电性能的研究.功能材料,2001,32(5):492~495
24 周祚万,楚珑,刘世楷等.四针状ZnOw的微波吸收及微波-热转换特性研究.功能材料,2002,33(1):55~56,59
25 万梅香.导电高聚物的微波吸收机理的研究.物理学报,1992,41(2):917~923
26 Truong V T, Riddell S Z, Muscat R F. Polypyrrole based microwave absorbers.Journal of Materials Science, 1998,33:4971~4976
27 Sengwa R J, Kaur K. Microwave absorption in oligomers of ethylene glycol.Journal of Biochemistry&Biophysics, 1999,36(5):325~327
28 马金库,周馨我,倪基华等.可溶性导电高分子的毫米波微波吸收特性研究.功能材料,1994,25(4):306~308
29 林云,林展如,干久志.轻质金属有机高分子吸波剂(OPA)及其RAM的性能研究.功能材料,2001,31(增刊)
30 孔德明,刘祖黎,冯建辉等.掺杂聚本胺吸波材料的研究.高分子材料科学与工程,2000,16(3):169~171
31 王国强,刘祖黎,王卫东.掺杂磁性材料的聚苯胺电磁参数及吸波性能的研究.河南教育学院学报,2000,9(3):9~12
32 赵东林,沈曾民.吸波C_f和SiC_f的制备及其微波电磁特性.宇航材料工艺,2001,31(1):4~9
33 甘学永.含谐振子的电磁功能材料的研究.北京航空航天大学博士论文,1992
34 欧阳国恩.碳化硅—碳功能纤维.功能材料,1994,25(4):300~305
35 欧阳国恩,刘兴慰,岳曼君.SiC—C纤维有机先驱体流变可纺性研究.复合材料学报,1995,12(3):46~52
36 王军,陈革,王应德等.具有雷达吸波功能的碳化硅纤维的制备.材料研究学报,2000,14(4):363~366
37 Chauveto O,Stoto T, Zuppiroli L. Hopping conduction in a nanometer-size crystalline system:A SiC fiber. Phys Rev.B, 1992,46(13):8139~8146
38 Nariswa M,Itoi Y, Okamura K.Electrical resistivity of Si—Ti—C—O fibers. J. Am.Ceram. Soc., 1990,73(2):443~445
39 程海峰,陈朝辉,李永清.碳化硅短切纤维电磁特性改性研究.宇航材料工艺,1998,28(2):55~59
40 程海峰,陈朝辉,李永清.碳化硅纤维表面化学镀改性研究.功能材料,1998,29(增刊):396~341
41 王军,宋永才,冯春祥.具有微波吸收功能的掺混型碳化硅纤维的研制.功能材料,1997,28(6):619~622
42 王军,宋永才,冯春祥.含钛碳化硅纤维的制备及其微波吸收特性.材料研究学报,1998,12(4):419~421
43 Yamamuna T,Toshikawa T, Shibuya M.Electromagnetic wave absorbing material. USP5094907,1992-02-15:2
44 陈利民,亓家钟,朱雪琴等.纳米γ-(Fe,Ni)合金颗粒的微观结构及其微波吸收特性.兵器材料科学与工程,1999,22(4):3
45 陈曙,蒋正生,杨燚等.FeB纳米合金颗粒的隐身性能研究.航天电子对抗,2000,(4):57
46 冯则坤,张秀成,何华辉.纳米磁性颗粒膜的制备及微波电磁特性研究.兵器材料科学与工程,2002.25(3).19~21
47 黄婉霞,陈家钊,毛健等.纳米级Fe3O_4对电磁波的吸收性能.功能材料,1999,30(1):105~106.
48 朱正吼,王开坤.纳米填料对碳纤维复合材料电磁特性的影响.兵器材料科学与工程,2002,25(2):11~14
49 赵东林,周万城.纳米Si/C/N复相粉体的制备及其在不同基体中的微波介电特性.无机材料学报,2001,16(5):909~914.
50 赵东林,周万城.纳米Si/C/N复相粉体的微波吸收特性.复合材料学报,2002,19(2):65~70.
51 焦桓,罗发,周万城.Si/C/N纳米粉体的吸波特性研究.无机材料学报,2002,17(3):595~599.
52 沈曾民,赵东林.镀镍碳纳米管的微波吸收性能研究.新型碳材料,2001,16(1):1~4.
53 杜玉成,黄坤良.空心微球为基核的纳米隐形材料制备研究.中国非金属矿工业导刊,2001,(6):19
54 方亮,龚荣州,官建国.雷达吸波材料的现状与展望.武汉工业大学学报,1999,21(6):21~24
55 曾祥云,马铁军,李家俊.吸波材料(RAM)用损耗介质及RAM技术发展趋势.材料导报,1997,11(3):57~60.
56 焦桓,周万城,罗发.神经网络模型在Si/C/N吸收剂介电性能控制中的应用.无机材料学报,2002,17(4):852~856.
57 Mahmoud SF, Habib MK. Design of a twolayer microwave absorber. J Electromagnetic Wave, 1998,12(8): 1005~1014.
58 Valenzuela A Q, Anfbal Fernandez F. General Design Theory for Single-layer Homogeneous Absorber. IEEE Trans AP, 1996,44(7):822~826.
59 Musal HM, Jr, Smith DC. Universal design chart for specular absorbers. IEEE Trans Magn, 1990,26(5): 1462~1464.
60 于晓凌,林钢,何华辉等.单层吸波材料的逆想优化方法.磁性材料及器件,2002,33(3):24~27.
61 张立德,牟季美.纳米材料和纳米结构[M].第一版,科学出版社,2001:328.
62 张立德,牟季美.纳米材料和纳米结构[M].第一版,科学出版社,2001:28~29.
63 王勇,黄锐.碳黑复合导电高分子材料成型加工进展.工程塑料应用.2003,31(3):63~65.
64 张立德,牟季美.纳米材料和纳米结构[M].第一版,科学出版社,2001:336~339.