Einfluss von Graphitfüllstoff auf die Permittivität und den dielektrischen Verlustfaktor von Silikonelastomeren

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Titel in ÜbersetzungInfluence of graphite filler on the permittivity and the dielectric loss factor of silicone elastomers
OriginalspracheDeutsch
Titel des SammelwerksETG-Fb. 162: VDE Hochspannungstechnik
UntertitelETG-Fachtagung, 9. – 11. November 2020, Online-Veranstaltung
Herausgeber (Verlag)VDE Verlag GmbH
Seiten174-179
Seitenumfang6
ISBN (elektronisch)9783800753550
ISBN (Print)978-3-8007-5353-6
PublikationsstatusVeröffentlicht - 2021
VeranstaltungVDE High Voltage Technology 2020 - Virtual, Online, Deutschland
Dauer: 9 Nov. 202011 Nov. 2020

Abstract

In this contribution, the relative permittivity εr is investigated as a function of frequency of silicone doped with different amount of microscopic graphite filler for applications in cable systems. This dependency can be determined by capacity measurements using the geometry of the samples. This is of interest because the introduction of fillers with different characteristics of the medium to be filled into the insulation material creates countless microscopic interfaces. In addition, the change in the dissipation factor tan δ should also be observed in parallel, since this is significantly influenced by the introduction of conductive particles or deliberate contamination. In order to be able to observe the influence of the temperature, all tests are repeated at different temperatures typical for the operation of cables. The result shows that the dissipation factor in the kHz range increases with the amount of graphite, but decreases at lower frequencies.

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Einfluss von Graphitfüllstoff auf die Permittivität und den dielektrischen Verlustfaktor von Silikonelastomeren. / Aganbegović, Mirnes; Torres, Javier; Werle, Peter.
ETG-Fb. 162: VDE Hochspannungstechnik: ETG-Fachtagung, 9. – 11. November 2020, Online-Veranstaltung. VDE Verlag GmbH, 2021. S. 174-179.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Aganbegović, M, Torres, J & Werle, P 2021, Einfluss von Graphitfüllstoff auf die Permittivität und den dielektrischen Verlustfaktor von Silikonelastomeren. in ETG-Fb. 162: VDE Hochspannungstechnik: ETG-Fachtagung, 9. – 11. November 2020, Online-Veranstaltung. VDE Verlag GmbH, S. 174-179, VDE High Voltage Technology 2020, Virtual, Online, Deutschland, 9 Nov. 2020. <https://www.vde-verlag.de/proceedings-de/455353028.html>
Aganbegović, M., Torres, J., & Werle, P. (2021). Einfluss von Graphitfüllstoff auf die Permittivität und den dielektrischen Verlustfaktor von Silikonelastomeren. In ETG-Fb. 162: VDE Hochspannungstechnik: ETG-Fachtagung, 9. – 11. November 2020, Online-Veranstaltung (S. 174-179). VDE Verlag GmbH. https://www.vde-verlag.de/proceedings-de/455353028.html
Aganbegović M, Torres J, Werle P. Einfluss von Graphitfüllstoff auf die Permittivität und den dielektrischen Verlustfaktor von Silikonelastomeren. in ETG-Fb. 162: VDE Hochspannungstechnik: ETG-Fachtagung, 9. – 11. November 2020, Online-Veranstaltung. VDE Verlag GmbH. 2021. S. 174-179
Aganbegović, Mirnes ; Torres, Javier ; Werle, Peter. / Einfluss von Graphitfüllstoff auf die Permittivität und den dielektrischen Verlustfaktor von Silikonelastomeren. ETG-Fb. 162: VDE Hochspannungstechnik: ETG-Fachtagung, 9. – 11. November 2020, Online-Veranstaltung. VDE Verlag GmbH, 2021. S. 174-179
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title = "Einfluss von Graphitf{\"u}llstoff auf die Permittivit{\"a}t und den dielektrischen Verlustfaktor von Silikonelastomeren",
abstract = "In this contribution, the relative permittivity εr is investigated as a function of frequency of silicone doped with different amount of microscopic graphite filler for applications in cable systems. This dependency can be determined by capacity measurements using the geometry of the samples. This is of interest because the introduction of fillers with different characteristics of the medium to be filled into the insulation material creates countless microscopic interfaces. In addition, the change in the dissipation factor tan δ should also be observed in parallel, since this is significantly influenced by the introduction of conductive particles or deliberate contamination. In order to be able to observe the influence of the temperature, all tests are repeated at different temperatures typical for the operation of cables. The result shows that the dissipation factor in the kHz range increases with the amount of graphite, but decreases at lower frequencies.",
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AU - Werle, Peter

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N2 - In this contribution, the relative permittivity εr is investigated as a function of frequency of silicone doped with different amount of microscopic graphite filler for applications in cable systems. This dependency can be determined by capacity measurements using the geometry of the samples. This is of interest because the introduction of fillers with different characteristics of the medium to be filled into the insulation material creates countless microscopic interfaces. In addition, the change in the dissipation factor tan δ should also be observed in parallel, since this is significantly influenced by the introduction of conductive particles or deliberate contamination. In order to be able to observe the influence of the temperature, all tests are repeated at different temperatures typical for the operation of cables. The result shows that the dissipation factor in the kHz range increases with the amount of graphite, but decreases at lower frequencies.

AB - In this contribution, the relative permittivity εr is investigated as a function of frequency of silicone doped with different amount of microscopic graphite filler for applications in cable systems. This dependency can be determined by capacity measurements using the geometry of the samples. This is of interest because the introduction of fillers with different characteristics of the medium to be filled into the insulation material creates countless microscopic interfaces. In addition, the change in the dissipation factor tan δ should also be observed in parallel, since this is significantly influenced by the introduction of conductive particles or deliberate contamination. In order to be able to observe the influence of the temperature, all tests are repeated at different temperatures typical for the operation of cables. The result shows that the dissipation factor in the kHz range increases with the amount of graphite, but decreases at lower frequencies.

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BT - ETG-Fb. 162: VDE Hochspannungstechnik

PB - VDE Verlag GmbH

T2 - VDE High Voltage Technology 2020

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