Effects of addition of MgO fillers with various sizes and co-addition of nano-sized SiO2 fillers on the dielectric properties of epoxy resin

Ryosuke Yanashima; Naoshi Hirai; Yoshimichi Ohki

doi:10.23919/ISEIM.2017.8166574

Effects of addition of MgO fillers with various sizes and co-addition of nano-sized SiO₂ fillers on the dielectric properties of epoxy resin

Ryosuke Yanashima, Naoshi Hirai, Yoshimichi Ohki

Kagami Memorial Research Institute for Materials Science and Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

15 Citations (Scopus)

Abstract

Complex permittivity (ϵ_r' and ϵ_r"), conductivity (σ), and glass transition temperature (T_g) were measured for composites of epoxy resin and MgO fillers with various sizes in a wide temperature and frequency range. The effect of coaddition of nano-sized SiO₂ was also examined. It has become clean that T_g decreases by the addition of MgO fillers, and its decrement becomes more with a decrease in filler size. Moreover, T_g decreases if the silica nanofillers are co-added. However, all the three important parameters for electrical insulation ability of polymers, namely ϵ_r', ϵ_r", and σ, decrease with the decrease in size of MgO fillers or by the addition of silica nanofillers at high temperatures and low frequencies. This is a very astonishing result, since it seems reasonable that a polymer with a high T_g should have a better insulating ability. Probably, the above-mentioned results indicate that the charge transport becomes more difficult, presumably resulting from the suppression of molecular motion with the decrease in size of MgO fillers and by the co-addition of SiO₂ nanofillers. This indicates that the suppression of molecular motion becomes very strong if the filler size is small, making the carrier transport difficult even in polymers with low T_g.

Original language	English
Title of host publication	Proceedings of 2017 International Symposium on Electrical Insulating Materials, ISEIM 2017
Publisher	Institute of Electrical Engineers of Japan
Pages	650-653
Number of pages	4
Volume	2
ISBN (Electronic)	9784886860996
DOIs	https://doi.org/10.23919/ISEIM.2017.8166574
Publication status	Published - 2017 Dec 4
Event	2017 International Symposium on Electrical Insulating Materials, ISEIM 2017 - Toyohashi, Japan Duration: 2017 Sept 11 → 2017 Sept 15

Other

Other	2017 International Symposium on Electrical Insulating Materials, ISEIM 2017
Country/Territory	Japan
City	Toyohashi
Period	17/9/11 → 17/9/15

Keywords

Composite
Dielectric property
Epoxy resin
Glass transition temperature
Magnesium oxide
Silicon dioxide

ASJC Scopus subject areas

Electrical and Electronic Engineering
Electronic, Optical and Magnetic Materials

Access to Document

10.23919/ISEIM.2017.8166574

Cite this

Yanashima, R., Hirai, N., & Ohki, Y. (2017). Effects of addition of MgO fillers with various sizes and co-addition of nano-sized SiO₂ fillers on the dielectric properties of epoxy resin. In Proceedings of 2017 International Symposium on Electrical Insulating Materials, ISEIM 2017 (Vol. 2, pp. 650-653). Institute of Electrical Engineers of Japan. https://doi.org/10.23919/ISEIM.2017.8166574

Effects of addition of MgO fillers with various sizes and co-addition of nano-sized SiO₂ fillers on the dielectric properties of epoxy resin. / Yanashima, Ryosuke; Hirai, Naoshi; Ohki, Yoshimichi.
Proceedings of 2017 International Symposium on Electrical Insulating Materials, ISEIM 2017. Vol. 2 Institute of Electrical Engineers of Japan, 2017. p. 650-653.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Yanashima, R, Hirai, N & Ohki, Y 2017, Effects of addition of MgO fillers with various sizes and co-addition of nano-sized SiO₂ fillers on the dielectric properties of epoxy resin. in Proceedings of 2017 International Symposium on Electrical Insulating Materials, ISEIM 2017. vol. 2, Institute of Electrical Engineers of Japan, pp. 650-653, 2017 International Symposium on Electrical Insulating Materials, ISEIM 2017, Toyohashi, Japan, 17/9/11. https://doi.org/10.23919/ISEIM.2017.8166574

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abstract = "Complex permittivity (ϵr' and ϵr{"}), conductivity (σ), and glass transition temperature (Tg) were measured for composites of epoxy resin and MgO fillers with various sizes in a wide temperature and frequency range. The effect of coaddition of nano-sized SiO2 was also examined. It has become clean that Tg decreases by the addition of MgO fillers, and its decrement becomes more with a decrease in filler size. Moreover, Tg decreases if the silica nanofillers are co-added. However, all the three important parameters for electrical insulation ability of polymers, namely ϵr', ϵr{"}, and σ, decrease with the decrease in size of MgO fillers or by the addition of silica nanofillers at high temperatures and low frequencies. This is a very astonishing result, since it seems reasonable that a polymer with a high Tg should have a better insulating ability. Probably, the above-mentioned results indicate that the charge transport becomes more difficult, presumably resulting from the suppression of molecular motion with the decrease in size of MgO fillers and by the co-addition of SiO2 nanofillers. This indicates that the suppression of molecular motion becomes very strong if the filler size is small, making the carrier transport difficult even in polymers with low Tg.",

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AB - Complex permittivity (ϵr' and ϵr"), conductivity (σ), and glass transition temperature (Tg) were measured for composites of epoxy resin and MgO fillers with various sizes in a wide temperature and frequency range. The effect of coaddition of nano-sized SiO2 was also examined. It has become clean that Tg decreases by the addition of MgO fillers, and its decrement becomes more with a decrease in filler size. Moreover, Tg decreases if the silica nanofillers are co-added. However, all the three important parameters for electrical insulation ability of polymers, namely ϵr', ϵr", and σ, decrease with the decrease in size of MgO fillers or by the addition of silica nanofillers at high temperatures and low frequencies. This is a very astonishing result, since it seems reasonable that a polymer with a high Tg should have a better insulating ability. Probably, the above-mentioned results indicate that the charge transport becomes more difficult, presumably resulting from the suppression of molecular motion with the decrease in size of MgO fillers and by the co-addition of SiO2 nanofillers. This indicates that the suppression of molecular motion becomes very strong if the filler size is small, making the carrier transport difficult even in polymers with low Tg.

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