通过多次重复先驱体浸渍裂解(PIP)工艺过程,改变材料的孔隙率和体密度,制备不同孔隙率的三维针刺碳/碳(C/C)复合材料,并研究了在8.2-12.4GHz频率范围内(x波段)不同孔隙率C/C复合材料的电磁屏蔽效能。结果表明:适当降低孔隙率有利于提高C/C复合材料的总电磁屏蔽效能和电磁吸收屏蔽效能,当开气孔率为33.4%时,C/C复合材料具有最大的电磁屏蔽效能(40dB),且电磁吸收屏蔽效能(30dB)远大于电磁反射屏蔽效能(12dB),是极具潜力的高吸收低反射电磁屏蔽材料。
3D carbon/carbon (C/C) composite materials with different porosities and bulk densities were fabricated by repeated precursor infiltration and pyrolysis (PIP) process, and the electromagnetic interference shielding (EMI) effectiveness of C/C composites at 8.2 - 12.4 GHz (X band) with different porosities were studied. The results indicate that both EMI absorption shielding effectiveness and the total EMI shielding effectiveness of C/C composites could be improved by reducing the porosity appropriately. When the open porosity is 33.4~, the C/C composite material shows a maximum shielding effectiveness of 40 dB, and the EIM apsorption shielding effectiveness(30 dB) is much higher than EMI reflection shielding effectiveness(12 dB)). Porous C/C composite is one kind of excellent EMI shielding materials with high absorption and low reflection.
参考文献
| [1] | Ding S J, Zhao Y Z, Ge D B. Research progress in electromagnetic shielding materials [J]. Mater Rev, 2008, 22 (4) : 30-37. |
| [2] | Wang X H, Tang L X, Li Y Z. Electricalmagnetic field shield technology and material development [J]. Development and Application of Materials, 1996, 23(2) : 67-71. |
| [3] | Liu X X, Zhang Z Y, Wu Y P. Absorption properties of carbon black/silicon carbide microwave absorbers [J ]. Composites: Part B, 2011, 42: 326-329 |
| [4] | Stonier R A. Stealth aircraft & technology from word war II to the gulf [J]. SAMPEJournal, 1991, 27(5): 9-18. |
| [5] | 王晓红,刘俊能.碳纤维复合材料的微波反射特性研究[J].功能材料,1999,30(4):387-391. |
| [6] | Gan Y X, Wang F H. Permeability and permittivity measurement and reflectivity calculation for a microwave absorbing composite material containing a resonator and an electromagnetic loss substance [J]. Composites, 1992, 23 (6) : 435-439. |
| [7] | Yusoff A N, Abdullah M H. Microwave electromagnetic and absorption properties of some LiZn ferrites [J]. Journal of Magnetism and Magnetic Materials, 2004, 269(3): 271-280. |
| [8] | 赵乃勤,曹婷,师春生,等.碳纤维(炭毡)/树脂复合吸波材料的研究[J].复合材料学报,2003,20(5):1000-3851. |
| [9] | Neo C P, Varadan V K. Optimization of carbon fiber composite for microwave absorber [J]. IEEE Transactions on Electromagnetic Compatibility, 2004, 46(1) : 102-106. |
| [10] | Wang J C, Xiang C S, Liu Q. Ordered mesoporous carbon/fused silica composites [J]. Adv Funct Mate, 2008, 18: 2995-3002. |
| [11] | Im J S, Kim J G, Lee S H, et al. Effective electromagnetic interference shielding by electrospun carbon fibers involving Fe2O3/BaTiO3/MWCNT additives [J]. Materials Chemistry and Physics, 2010, 124: 434-438. |
| [12] | Hsu P F, Howell J R. Measurements of thermal conductivity and osptical properties of porous partially stabilized zirconia [J]. Exp Heat Transfer, 1992(5) : 293-313. |
| [13] | 朱新文,江东亮,谭寿洪.碳化硅网眼多孔陶瓷的微波吸收特性[J].无机材料学报,2002,17(6):1152-1156. |
| [14] | 赵彦波,刘顺华,管洪涛.水泥基多孔复合材料吸波性能[J].硅酸盐学报,2006,34(2):225-228. |
| [15] | 赵东林,沈曾民,迟伟东.炭纤维及其复合材料的吸波性能和吸波机理[J].新型炭材料,2001,16(2):66-72. |
| [16] | Yusoff A N, Abdullah M H, Ahmad S H, et al. Electromagnetic and absorption properties of some microwave absorbers [J]. Journal of Applied Physics, 2002, 92(2) : 876-882. |
| [17] | Mohammed H A, Sundararaj U. Electromagnetic interference shielding mechanisms of CNT/polymer composites [ J ]. Carbon, 2009, 47: 1738-1746. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%