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      저자 : Zhijiang Ji (검색결과 2 건)
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      • Sandwich structured lightweight carbon black/cement composites for X-band electromagnetic wave absorption and thermal insulation

        Xie, Shuai,Ji, Zhijiang,Zhang, Jinjun,Cao, Yanxin,Wang, Jing Techno-Press 2021 Composite materials and engineering Vol.3 No.2

        In order to develop a lightweight cement based composite with dual-function of EM wave absorption and thermal insulation, sandwich structure was designed to achieve excellent EM absorption capacity, and expanded perlite and carbon black were used as lightweight aggregates and EM absorbent, respectively. The EM absorption properties were studied by arching reflected method, and the results indicate that the sandwich structure design can obviously enhance the EM absorption capacity of cement composites. The sandwich structured composites exhibit better EM absorption properties than the traditional gradient multi-layer structured composites. The reflection loss of three-layer and four-layer sandwich structured composites can be less than -10 dB and -15 dB in the whole X-band. The thermal conductivity test results shows that the developed cement composites possess thermal insulation function.

      • KCI등재

        Three-Dimensional Periodic Structured Absorber for Broadband Electromagnetic Radiation Absorption

        Shuai Xie,Liancheng Zhu,Yuan Zhang,Zhijiang Ji,Jing Wang 대한금속·재료학회 2020 ELECTRONIC MATERIALS LETTERS Vol.16 No.4

        This study provides a novel broadband gypsum composite for electromagnetic (EM) radiation protection by the design of 3D circular periodic structure, and using carbon black (CB) as absorbent. The EM absorption performance was investigated by arch reflecting method in 2–18 GHz, and the obtained results indicate that the proposed gypsum absorber exhibits more than 90% absorption of EM radiation in the frequency range of 2–18 GHz. The EM wave absorption can be obviously affected by the variation of CB content, periodic cylinder height and diameter. The optimum CB content is 2 wt%, simultaneously, the absorption peak can be promoted to shift to lower frequency by the increase of periodic cylinder height and the increase of periodic cylinder diameter is beneficial to widen the effective bandwidth. The λ/4 interference of reflected waves, energy dissipation of CB particles, and multi-reflection, resonance, edge diffractions, and impedance matching caused by 3D periodic structural design work synergistically to achieve the high EM absorption efficiency and wide frequency band. It is expected that the proposed 3D circular periodic structured gypsum absorber has great potential in indoor EM radiation prevent.

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