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Dielectric response and thermal conductivity of nanostructured microcomposites: High Density Polyethylene filled with a mixture of ZnO and HCl doped polyaniline

机译：纳米结构微复合材料的介电响应和导热系数：高密度聚乙烯，其中填充了ZnO和HCl掺杂的聚苯胺混合物

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In this study, polyaniline (PAni), was used to surround Zinc Oxide (ZnO) nanoparticles to be dispersed in a High Density Polyethylene (HDPE) matrix. The dielectric properties of the composite samples were characterized using dielectric spectroscopy in a wide range of frequencies (10 Hz - 1 MHz) at room temperature. Interesting results were found especially for the sample containing 10 wt% of ZnO/PAni. The presence of PAni in the composite systems contributes to an increase in conductivity of two orders of magnitude. An interfacial relaxation peak was observed for all composite films and was found to shift toward higher frequency when the amount of PAni surrounding the ZnO particle increased. The thermal conductivity of HDPE-ZnO/PAni-10 10 wt% was also greatly improved, i.e. by about 35% in comparison with that of the pure matrix.

机译：在这项研究中，聚苯胺（PAni）被用于包围要分散在高密度聚乙烯（HDPE）基质中的氧化锌（ZnO）纳米颗粒。在室温下，使用介电谱在很宽的频率范围（10 Hz-1 MHz）中表征了复合样品的介电性能。特别是对于含有10 wt％ZnO / PAni的样品，发现了有趣的结果。复合系统中PAni的存在有助于电导率增加两个数量级。观察到所有复合膜的界面弛豫峰，并且发现当围绕ZnO颗粒的PAni数量增加时，界面弛豫峰向更高的频率偏移。 HDPE-ZnO / PAni-10 10 wt％的热导率也大大提高，即与纯基质的热导率相比提高了约35％。

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《IEEE electrical insulation conference》|2015年|496-500|共5页
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Vanga-Bouanga C.; Frechette M.F.; David E.;
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conductivity; dielectric properties; high density polyethylene; polyaniline; thermal properties; zinc oxide;

机译：电导率;介电性能;高密度聚乙烯;聚苯胺;热性能;氧化锌;

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1. Synthesis, Electrical Conductivity, and Dielectric Behaviour of Polyaniline Doped with H2SO4;HCl and (HCl + NaNO2) Mixture [J] . J.Mohanty, S.S.Mishra, T.R.Das Mohapatra1, 非金属材料科学(英文) . 2020,第002期

机译：聚苯胺的合成，导电性和介电行为掺杂用H 2 SO 4; HCl和（HCl + NaNO 2）混合物
2. Controlling thermal conductivity of high density polyethylene filled with modified hexagonal boron nitride (hBN) [J] . Andrey A. Stepashkin, Sergey M. Anshin, Denis V. Kuznetsov Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

机译：用改性六边形氮化物（HBN）填充高密度聚乙烯的导热系数（HBN）
3. Influence of surface topography, crystallinity, and thermal conductivity on reflectance and color of metallic-effect high-density polyethylene parts filled with aluminum pigments [J] . Hong Xinmi, Xiao Xiaoting, Zhang Zhengrong, Polymer engineering and science . 2018,第5期

机译：表面形貌，结晶度和导热性对填充铝颜料的金属效应高密度聚乙烯部件反射率和颜色的影响
4. Dielectric response and thermal conductivity of nanostructured microcomposites: High Density Polyethylene filled with a mixture of ZnO and HCl doped polyaniline [C] . Vanga-Bouanga C., Frechette M.F., David E. IEEE electrical insulation conference . 2015

机译：纳米结构微孔复合材料的介电响应和导热系数：用ZnO和HCl掺杂聚苯胺的混合物填充高密度聚乙烯
5. The Effect of Polyaniline (PANI) Coating via Dielectric-Barrier Discharge (DBD) Plasma on Conductivity and Air Drag of Polyethylene Terephthalate (PET) Yarn [O] . Shuai Liu, Deqi Liu, Zhijuan Pan 2018

机译：介电阻挡放电（DBD）等离子体聚苯胺（PANI）涂层对聚对苯二甲酸乙二酯（PET）纱线电导率和空气阻力的影响
6. Electrical conductivity and microwave characteristics of HCl and HClO4-doped polyaniline synthesized through chemical oxidative continuous polymerization process at various polymerization temperatures [O] . A. I. W. Andika, M. A. E. Hafizah, A. Manaf 2018

机译：通过化学氧化连续聚合过程在各种聚合温度下合成HCl和HClO4掺杂聚苯胺的电导率和微波特性
7. Density, Heat Capacity, Viscosity, and Thermal Conductivity of Mixtures of CO2,He, H2, H2O, N2, and O2 [R] . Homer, L. D., Kayar, S. R. 1994

机译：CO2，He，H2，H2O，N2和O2混合物的密度，热容，粘度和导热系数

Dielectric response and thermal conductivity of nanostructured microcomposites: High Density Polyethylene filled with a mixture of ZnO and HCl doped polyaniline

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