以膨胀珍珠岩作为阻抗匹配层,以碳纳米管和铁氧体作为吸波剂制备双层水泥基吸波体,采用 RCS法(radar cross section)研究水泥基吸波材料的吸波性能.实验结果表明,匹配层的透波率随着膨胀珍珠岩掺量的增加而增大,在8~18 GHz频率范围内,掺有20%膨胀珍珠岩试样透波率介于20%~60%之间;以膨胀珍珠岩的水泥浆体作为匹配层制备的双层水泥基材料,其吸波性能要优于相同厚度单层吸波材料;当匹配层中膨胀珍珠岩掺量增加时,吸波性能也随着增加;以0.15%碳纳米管和10%FP型铁氧体作为复合吸波剂制备吸波层,具有优异的吸波性能,并且匹配层与吸波层的最佳厚度比为3∶1;而当吸波层复掺0.75%碳纳米管和30%FP 型铁氧体时,双层吸波材料的吸波性能比相同厚度单层吸波材料要差,匹配层与吸波层的最佳厚度比为1∶3,试样反射率的峰值为-31.0 dB,低于-7 dB的带宽达10.6 GHz.
Double-layer cement-based absorbing materials were prepared by using expanded perlite as the imped-ance matching layer,carbon nanotube and ferrite as absorbing agent and performance of the absorbing materials was studied by space method and the far field (radar cross section)RCS method.The experimental results showed that:transmission efficiency of matching layer increases with the increase of dosage of expanded perlite and within the scope of the 8 to 18 GHz,transmission efficiency of samples mixed with 20% expanded perlite is ranged from 20%-60%;the absorbing performance of double-layer absorbing materials is superior to single-lay-er absorbing materials with the same thickness;When the dosage of expansive pearlite increases,wave absorp-tion performance also increases;absorbing layer mixed with 0.15% carbon nanotubes and 10% FP type ferrite has excellent absorbing performance,and the best ratio of thickness of matching layer and absorbing layer is 3∶1;When absorbing layer is mixed with 0.75% carbon nanotubes and 30% FP type ferrite,absorption perform-ance of double-layer absorbing materials is worse than the same thickness of single-layer absorbing materials and the best ratio of thickness of matching layer and absorbing layer is 3∶1 ,the peak of reflectivity is-31.0 dB,bandwidth below -7 dB is 10.66 GHz.
参考文献
| [1] | G. Bantsis;S. Mavridou;C. Sikalidis.Comparison of low cost shielding-absorbing cement paste building materials in X-band frequency range using a variety of wastes[J].CERAMICS INTERNATIONAL,20125(5):3683-3692. |
| [2] | I.W. Nam;H.K. Lee;J.H. Jang.Electromagnetic interference shielding/absorbing characteristics of CNT-embedded epoxy composites[J].Composites, Part A. Applied science and manufacturing,20119(9):1110-1118. |
| [3] | Hongtao Guan;Shunhua Liu;Yuping Duan.Cement based electromagnetic shielding and absorbing building materials[J].Cement & concrete composites,20065(5):468-474. |
| [4] | 田焜;丁庆军;胡曙光.新型水泥基吸波材料的研究[J].建筑材料学报,2010(3):295-299. |
| [5] | Li Baoyi;Duan Yuping;Liu Shunhua.The electromagnetic characteristics of fly ash and absorbing properties of cement-based composites using fly ash as cement replacement[J].Construction and Building Materials,20121(1):184-188. |
| [6] | 齐宇;黄大庆;何山.多层复合吸波涂料设计与试验研究[J].航空材料学报,2010(2):89-93. |
| [7] | 李斌玲;谢国治;宋晓龙;陈宇;张豹山;唐东明;杨燚;陆怀先.多层雷达波段吸波涂层的研究现状及展望[J].河海大学学报(自然科学版),2011(4):464-469. |
| [8] | X.Zhang;W.Sun.Three-layer microwave absorber using cement-based composites[J].Magazine of concrete research,20113(3):157-162. |
| [9] | 张秀芝;张国栋;董青;周宗辉;程新.引气剂对水泥基材料电磁波反射率和透波率的影响[J].功能材料,2014(20):20099-20102,20106. |
| [10] | 胡书春;黄真浩;金佥;陈晓浪;王良辉;陈海路;张楠.导电炭黑/磁性氧化物复合吸波剂的制备与表征[J].材料导报,2011(2):135-138. |
| [11] | Li Baoyi;Duan Yuping;Zhang Yuefang;Liu Shunhua.Electromagnetic wave absorption properties of cement-based composites filled with porous materials[J].Materials & design,20115(5):3017-3020. |
| [12] | 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(2):225-228. |
| [13] | Peng ZH;Peng JC;Peng YF;Ou YY;Ning YT.Investigation of the microwave absorbing mechanisms of HiPco carbon nanotubes[J].Physica, E. Low-dimensional systems & nanostructures,20087(7):2400-2405. |
| [14] | 张秀芝;孙伟;赵俊峰.铁氧体粉掺量对水泥基材料吸波性能和力学性能的影响[J].解放军理工大学学报(自然科学版),2011(5):466-471. |
| [15] | Cuiling Hou;Tiehu Li;Tingkai Zhao;Wenjuan Zhang;Youliang Cheng.Electromagnetic wave absorbing properties of carbon nanotubes doped rare metal/pure carbon nanotubes double-layer polymer composites[J].Materials & design,2012Jan.(Jan.):413-418. |
| [16] | 解帅;冀志江;杨洋;侯国艳;王静.炭黑-矿棉基双层吸波材料的微波吸收性能[J].硅酸盐学报,2015(4):526-531. |
| [17] | Baomin Wang;Zhiqiang Guo;Yu Han;Tingting Zhang.Electromagnetic wave absorbing properties of multi-walled carbon nanotube/cement composites[J].Construction and Building Materials,2013Sep.(Sep.):98-103. |
| [18] | Zhao, B.;Wang, Q.;Zhang, C..Fabrication and electromagnetic characteristics of microwave absorbers containing Li0.35Zn0.3Fe2.35O4 micro-belts and nickel-coated carbon fibers[J].Journal of Magnetism and Magnetic Materials,2013:249-254. |
| [19] | Panwar, Ravi;Agarwala, Vijaya;Singh, Dharmendra.A cost effective solution for development of broadband radar absorbing material using electronic waste[J].CERAMICS INTERNATIONAL,20152 Pt.B(2 Pt.B):2923-2930. |
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