Theoretical analysis for effects of nanoparticles on dielectric characterization of electrical industrial materials

被引:0
|
作者
Ahmed Thabet Mohamed
机构
[1] Aswan University,Nanotechnology Research Center, Faculty of Energy Engineering
来源
Electrical Engineering | 2017年 / 99卷
关键词
Dielectric constant; EPL Model; Nanocomposite; Nanoparticles; Electrical materials;
D O I
暂无
中图分类号
学科分类号
摘要
Dielectric constant is an essential property that is required for a variety of electrical applications. An important challenge is to be able to control on the dielectric characteristics of electrical materials using nanotechnology techniques. Computational simulation programs have the potential to join theory and experimental work as a third powerful research methodology; therefore, this paper studied the enhancing and controlling the dielectric properties of electrical industrial materials (polyethylene, polypropylene acrylonitrile butadiene styrene, polyvinyl chloride, polyimide, polyetherimide, and polyethylene terephthalate) using various nanoparticles based on recent theoretical models for computing the effective response of nanocomposites. In addition, dielectric characterization has been controlled using specified optimal concentrations of nanoparticles.
引用
收藏
页码:487 / 493
页数:6
相关论文
共 50 条
  • [1] Theoretical analysis for effects of nanoparticles on dielectric characterization of electrical industrial materials
    Mohamed, Ahmed Thabet
    ELECTRICAL ENGINEERING, 2017, 99 (02) : 487 - 493
  • [2] Correction to: Theoretical analysis for effects of nanoparticles on dielectric characterization of electrical industrial materials
    Ahmed Thabet Mohamed
    Electrical Engineering, 2023, 105 : 563 - 563
  • [3] Theoretical analysis for effects of nanoparticles on dielectric characterization of electrical industrial materials (vol 99, pg 487, 2017)
    Mohamed, Ahmed Thabet
    ELECTRICAL ENGINEERING, 2023, 105 (01) : 563 - 563
  • [4] Characterization of Electrical Transverse Conductivity of Space Dielectric Materials
    Hanna, R.
    Paulmier, T.
    Belhaj, M.
    Molinie, P.
    Dirassen, B.
    Payan, D.
    Balcon, N.
    2011 14TH INTERNATIONAL SYMPOSIUM ON ELECTRETS (ISE), 2011, : 21 - +
  • [5] RADIATION EFFECTS ON ELECTRICAL PROPERTIES OF SOME DIELECTRIC MATERIALS
    OPROIU, C
    NEMES, M
    SUFANA, N
    IVANCEANU, E
    STUDII SI CERCETARI DE FIZICA, 1972, 24 (09): : 1179 - 1186
  • [6] Electrical, mechanical and themperature characterization of commercialy available LTCC dielectric materials
    Radosavljevic, Goran
    Maric, Andrea
    Unger, Michael
    Blaz, Nelu
    Smetana, Walter
    Zivanov, Ljiljana
    HEMIJSKA INDUSTRIJA, 2013, 67 (04) : 621 - 628
  • [7] Bio-inspired Sensor for the Electrical Permittivity Characterization of Dielectric Materials
    Domingos de Oliveira, J. G.
    Paiva, S. B.
    Duarte, J. G., Jr.
    Tones Costa, L. F. V.
    Silva Neto, V. P.
    D'Assuncao, A. G.
    2020 14TH EUROPEAN CONFERENCE ON ANTENNAS AND PROPAGATION (EUCAP 2020), 2020,
  • [8] Optimizing Dielectric Characteristics of Electrical Materials Using Multi-Nanoparticles Technique
    Thabet, A.
    Salem, N.
    2017 NINETEENTH INTERNATIONAL MIDDLE-EAST POWER SYSTEMS CONFERENCE (MEPCON), 2017, : 716 - 721
  • [9] EFFECTS OF INDUSTRIAL AIR-POLLUTANTS ON ELECTRICAL CONTACT MATERIALS
    ABBOTT, WH
    IEEE TRANSACTIONS ON PARTS HYBRIDS AND PACKAGING, 1974, PH10 (01): : 24 - 27
  • [10] Structural composite laminate materials with low dielectric loss: Theoretical model towards dielectric characterization
    Sergolle, Maelle
    Castel, Xavier
    Himdi, Mohamed
    Besnier, Philippe
    Parneix, Patrick
    COMPOSITES PART C: OPEN ACCESS, 2020, 3