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机译:通过含有MWCNT和Fe3O4 NPS的玻璃纤维环氧复合材料的双层设计实现X波段的全部有效微波吸收
Hubei Univ Technol Sch Civil Engn Architecture &
Environm Wuhan 430068 Peoples R China;
Hubei Univ Technol Sch Civil Engn Architecture &
Environm Wuhan 430068 Peoples R China;
Hubei Univ Technol Sch Civil Engn Architecture &
Environm Wuhan 430068 Peoples R China;
Hubei Univ Technol Sch Civil Engn Architecture &
Environm Wuhan 430068 Peoples R China;
Wuhan Univ Technol Sch Mat Sci &
Engn Wuhan 430070 Peoples R China;
Hubei Univ Technol Sch Civil Engn Architecture &
Environm Wuhan 430068 Peoples R China;
Hubei Univ Technol Sch Civil Engn Architecture &
Environm Wuhan 430068 Peoples R China;
Hubei Univ Technol Sch Civil Engn Architecture &
Environm Wuhan 430068 Peoples R China;
Microwave absorption; Fiber reinforced composites; Fe3O4 nanoparticles; MWCNTs; Double-layered;
机译:通过含有MWCNT和Fe3O4 NPS的玻璃纤维环氧复合材料的双层设计实现X波段的全部有效微波吸收
机译:Fe2O3 / Fe3O4 NPS簇形MWCNT的表面改性,提高微波吸收性能
机译:轻量级多壁碳纳米管鼠标桩/玻璃纤维环氧复合材料,用于强电磁干扰屏蔽和高效的微波吸收
机译:玻璃纤维/ MWCNT /环氧树脂和碳纤维/ MWCNT /环氧复合材料性能的比较
机译:MWCNT-环氧复合材料原位原子力显微镜观察和纳米结构与力学表征的微/纳米加载级的设计与控制
机译:不同的多壁碳纳米管对其环氧纳米复合材料在X波段微波吸收的影响
机译:轻量级多壁碳纳米管鼠标桩/玻璃纤维环氧复合材料,用于强电磁干扰屏蔽和高效的微波吸收