Electrical Properties Characterization and Numerical Models of Rubber Composite at High Frequency

Nilboworn, Salakjit; Wounchoum, Phairote; Wichakool, Warit; Thongruang, Wiriya

doi:10.4028/www.scientific.net/amr.844.429

Cited by 2 publications

(2 citation statements)

References 3 publications

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“…This was consistent with the study results of Dissado and Forthergill [7][8][9][10]. From the correlation research, nanoparticle doping could improve the dielectric properties of polymers effectively [11][12][13][14]. Therefore, a number of metal oxides were added into the polymers such as low-density polyethylene, epoxy resin and polypropylene.…”

Section: Introductionsupporting

confidence: 84%

Effect of Nano-MgO Particles Doping on Breakdown Characteristics of Polypropylene

Guang

Cheng

2020

Coatings

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In this article, the nano-MgO particles were used as inorganic fillers, and polypropylene (PP) polymer was used as a matrix. The nano-MgO/PP composites were prepared by double melt blending. Using the polarization microscope (PLM) test and hot-stage microscope test, the crystalline morphology of PP and nano-MgO/PP with different mass fraction were observed. Using the differential scanning calorimetry (DSC) test, the parameters and crystallinity in the process of isothermal crystallization could be obtained. Additionally, the samples of pure PP and nano-MgO/PP composites were dealt with using a breakdown test and a dielectric frequency spectra test. From the experimental results, nano-MgO particle doping decreased the samples’ crystal size, and the crystalline structure was converted from large spherulites to fascicled crystallization. Additionally, the crystallization rate became fast and crystallinity increased. According to the breakdown test, the nano-MgO particle doping made the composites form small, dense spherulites. The breakdown developed through a longer path, so the composites’ breakdown strength rose greatly. When the mass fraction of nano-MgO particles was 3%, the shape parameter of the composites’ Weibull distribution β was larger, which illustrated that the nano-MgO particles were dispersed uniformly in the PP matrix. According to the dielectric frequency spectra test, the dielectric constant of different nanocomposites were all lower than which of pure PP, but the loss angle tangent values were all higher than which of pure PP.

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Section: Introductionsupporting

confidence: 84%

Effect of Nano-MgO Particles Doping on Breakdown Characteristics of Polypropylene

Guang

Cheng

2020

Coatings

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“…The carrier energy in the dielectric decreases. Thus, the destruction caused by the carrier impacts the polymer molecular segment decreases, consequently prolonging the polymer service life [11].…”

Section: Physical Adsorption Theorymentioning

confidence: 99%

Research Progress on Polymeric Inorganic Nanocomposites Insulating Materials

Guang

Cheng

Duan

2022

Journal of Nanomaterials

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With the rapid development of power energy, electronic information, rail transit, and aerospace industries, nanocomposite dielectric materials have been widely used as new materials. Polymer/inorganic nanocomposite dielectric materials possess excellent physical and mechanical properties. In addition, numerous unique properties such as electricity, thermal, sound, light, and magnetic properties are exhibited by these materials. First, the macroscopic quantum tunneling effect, small-size effect, surface effect, and quantum-size effect of nanoparticles are introduced. There are a few anomalous changes in the physical and chemical properties of the matrix, which are caused by these effects. Second, the interaction mechanism between the nanoparticles and polymer matrix is introduced. These include infiltration adsorption theory, chemical bonding, diffusion theory, electrostatic theory, mechanical connection theory, deformation layer theory, and physical adsorption theory. The mechanism of action of the interface on the dielectric properties of the composites is summarized. These are the interface trap effect, interface barrier effect, and homogenization field strength effect. In addition, different interfacial structure models were used to analyze the specific properties of nanocomposite dielectric materials. Finally, the research status of the dielectric properties of nanocomposite dielectric materials is introduced.

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Electrical Properties Characterization and Numerical Models of Rubber Composite at High Frequency

Cited by 2 publications

References 3 publications

Effect of Nano-MgO Particles Doping on Breakdown Characteristics of Polypropylene

Effect of Nano-MgO Particles Doping on Breakdown Characteristics of Polypropylene

Research Progress on Polymeric Inorganic Nanocomposites Insulating Materials

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