共查询到19条相似文献,搜索用时 93 毫秒
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电磁屏蔽涂料制备的新进展 总被引:2,自引:0,他引:2
从导电填料的种类、复合工艺及其对涂料导电性能的影响等方面,综述了近五年来掺和型电磁屏蔽涂料制备的最新进展.金属、石墨和复合导电填料等都具有良好的导电性,尤以复合导电填料应用效果最好;原位插层复(聚)合法是制备电磁屏蔽材料的一种较新复合工艺,可获得低逾渗阀值和高导电率,具有良好的发展前景;同时,导电填料的用量、性状、分散效果以及分散助剂等对电磁屏蔽涂料的导电性能都有较大影响. 相似文献
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为了满足电子设备轻量化和高度集成化发展的趋势和社会健康需求,轻量化、低成本、耐腐蚀的电磁屏蔽材料日益受到青睐。碳系导电填料,尤其是碳纳米管和石墨烯,在聚合物基电磁屏蔽复合材料中应用广泛。但碳系导电填料颗粒的应用通常因其在聚合物基中有限的分散性使得它们与聚合物基体的相互作用受到障碍,从而对电磁屏蔽效能产生不利影响。文中综述了碳纳米管和石墨烯及相关复合材料的典型改性方式及其电磁屏蔽性能,旨在为其在聚合物基电磁屏蔽复合材料中的应用提供良好的设计思路。 相似文献
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分别以形状和电导率不同的石墨、镀镍石墨和镀银碳纤维为功能填料,采用溶液流延法制备了聚乙烯醇缩丁醛基导电薄膜,并对薄膜的微观结构和电学性能进行了研究。结果表明:填料性质(包括形状、密度和电导率)对复合材料的分布结构和电学性能有重要影响,纤维状的填料更容易搭接成导电网络。石墨和镀银碳纤维填充体系中,填料在聚合物基体内部分布基本均匀;而镀镍石墨填充体系中,填料在聚合物基体内部形成了梯度分布。不同的分布状态导致材料的导电性能在薄膜的上下表面产生差异并对复合材料的电磁屏蔽效能产生影响。在同等体积含量下,复合材料的电磁屏蔽效能主要受材料电导率的影响,三种复合材料中,镀银碳纤维填充体系的屏蔽效能最高,镀镍石墨填充体系次之,石墨填充体系最低。 相似文献
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镀镍PET纤维/环氧树脂复合材料的性能 总被引:4,自引:0,他引:4
以PET纤维经超声波化学镀镍制成的导电PET/Ni纤维作填料,与环氧树脂共混,制得导电环氧树脂复合材料.对纤维表面镀层的形态结构及复合材料的导电性、电磁屏蔽性及力学性能进行了深入的研究.结果表明,填充适量(1%~5%,质量分数,下同)的纤维就可以得到导电性能良好的复合材料,同时也具有较好的电磁屏蔽性能,当纤维含量为3%时材料的力学性能也得到改善. 相似文献
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1透明型防静电包装材料打破了传统的黑色格局。防静电包装材料已有多种,其中主要的有填充型防静电材料。目前常用的填充型导电填料主要有五类:金属系、碳系、金属化系(如金属化玻璃珠)、金属氧化物系和化合物系。前面三种或由于价格昂贵,或由于颜色太深而不被人们青睐。因此,浅颜色的金属氧化物乘机而兴起,大有方兴未艾之势。金属氧化物导电填料在综合性能方面占有优势,近几年发展迅速。浅色的、白色的乃至透明的导电金属氧化物粉末,不仅有好的导电抗静电性能,而且有优良的装饰性和高光泽性,无论在电子工艺、航空工业,还是在家… 相似文献
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目的 为推动可用于包装的纤维素基电磁干扰(Electromagnetic Interference,EMI)屏蔽材料更深入的研究,综述一些具有包装材料潜质和EMI屏蔽功能的纤维素基薄膜、织物和气凝胶的最新研究进展。方法 主要介绍纤维素基薄膜、织物和气凝胶等3类EMI屏蔽材料的制备方法、EMI屏蔽性能、多功能性和在包装上应用的潜力。结果 当下纤维素基EMI屏蔽材料表现出令人满意的EMI屏蔽效能(EMI Shielding Effectiveness, EMI SE)和力学性能,有望作为包装材料。同时一些材料还显示出抗菌、隔热、抗冲击等特性,使得这些材料能在复杂的场景下应用。结论 通过合理的设计,纤维素基EMI屏蔽材料可拥有优异的EMI屏蔽性能、出色的力学性能和良好的耐用性。归因于上述优势和绿色可降解的特性,这类材料有望在未来取代传统的EMI屏蔽包装材料,然而这些材料通常需要精细的制备工艺,材料的量产和实际应用依然是亟待解决的问题。 相似文献
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信息技术的迅速发展和电子设备的大量使用,在环境中产生了如电子噪声、电磁波(EM)、电磁干扰(EMI)、射频干扰等电子污染。综述了EMI屏蔽微纳米材料相关方面的研究进展,简要分析了EMI屏蔽的基本机理和比较了纳米EMI屏蔽复合材料的制备方法,同时对比了金属和碳纳米填料EMI屏蔽复合材料,得到金属纳米EMI屏蔽复合材料,虽具有良好效果,但是存在质量大、成本高和耐腐蚀性弱等缺点。因碳系纳米材料具有质量轻,耐腐蚀性,优异的电学、电介质、热学、机械和磁性等独特特性,可替代金属作为EMI屏蔽填料,且EMI屏蔽效果优良。如多层纳米管(MWCNT)和石墨烯/聚苯胺(GN/PANI)纳米复合材料,并且两者材料的混杂可以协同改善复合材料的屏蔽效果。 相似文献
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《Cement and Concrete Composites》2006,28(5):468-474
With more and more severity of electromagnetic environment pollution, the study on building materials that can prevent electromagnetic interference (EMI) has caused great attention. This paper mainly reviews the progress and prospective future of cement-based EMI shielding and wave absorbing building materials. 相似文献
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Electromagnetic interference shielding characteristics of carbon nanofiber-polymer composites 总被引:1,自引:0,他引:1
Electromagnetic interference (EMI) shielding characteristics of carbon nanofiber-polystyrene composites were investigated in the frequency range of 12.4-18 GHz (Ku-band). It was observed that the shielding effectiveness of such composites was frequency independent, and increased with increasing carbon nanofiber loading within Ku-band. The experimental data exhibited that the shielding effectiveness of the polymer composite containing 20 wt% carbon nanofibers could reach more than 36 dB in the measured frequency region, indicating such composites can be applied to the potential EMI shielding materials. In addition, the results showed that the contribution of reflection to the EMI shielding effectiveness was much larger than that of absorption, implying the primary EMI shielding mechanism of such composites was reflection of electromagnetic radiation within Ku-band. 相似文献
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Novel carbon nanotube-polystyrene foam composites for electromagnetic interference shielding 总被引:2,自引:0,他引:2
A novel carbon nanotube-polystyrene foam composite has been fabricated successfully. The electromagnetic interference (EMI) shielding effectiveness measurements indicated that such foam composites can be used as very effective, lightweight shielding materials. The correlation between the shielding effectiveness and electrical conductivity and the EMI shielding mechanism of such foam composites are also discussed. 相似文献
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Composite electromagnetic interference shielding materials for aerospace applications 总被引:1,自引:0,他引:1
Electromagnetic interference (EMI) occurs when electronic devices are subject to electromagnetic radiation from unwanted sources at the same frequency ranges that these devices operate. Metals typically serve as excellent EMI shielding agents, but their heavy weight, high cost and susceptibility to forms of environmental degradation make them an undesired choice for many current electronic devices. Conversely fibre reinforced polymeric (FRP) composite materials are normally light weight, and can be cheaper to produce, but typically lack the inherent EMI shielding capabilities that may be required. This research work addresses the viability FRP composite materials for use as EMI shielding structures, specifically for aerospace applications. It was found that carbon fibre could suffice this purpose, but likely required filler materials to enhance electrical conductivity and shielding effectiveness (SE). 相似文献
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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。 相似文献