Conducting Rubber Anisotropy of Electrophysical and Mechanical Properties DOI Open Access
S. M. Makhno,

Xianmei Wan,

O. M. Lisova

et al.

Polymers, Journal Year: 2025, Volume and Issue: 17(4), P. 492 - 492

Published: Feb. 14, 2025

The aim of this work was to determine the anisotropy electrophysical and mechanical properties rubber reinforced with a hybrid filler CNTs&CB (carbon nanotubes carbon black) as function CNT content technological parameters production process. A significant difference in electrical conductivity (σ) dielectric permittivity (ε) three perpendicular directions found for concentrations ranging from 0 0.007 volume fraction. highest values σ ε were observed calendering direction, slightly lower direction. This effect attributed orientation polymer molecules CNTs along direction movement during calendering, well disruption cluster structure transverse Although calculated percolation threshold investigated system differed slightly, correlation between rubber. enables products be designed optimal tailored desired

Language: Английский

Conducting Rubber Anisotropy of Electrophysical and Mechanical Properties DOI Open Access
S. M. Makhno,

Xianmei Wan,

O. M. Lisova

et al.

Polymers, Journal Year: 2025, Volume and Issue: 17(4), P. 492 - 492

Published: Feb. 14, 2025

The aim of this work was to determine the anisotropy electrophysical and mechanical properties rubber reinforced with a hybrid filler CNTs&CB (carbon nanotubes carbon black) as function CNT content technological parameters production process. A significant difference in electrical conductivity (σ) dielectric permittivity (ε) three perpendicular directions found for concentrations ranging from 0 0.007 volume fraction. highest values σ ε were observed calendering direction, slightly lower direction. This effect attributed orientation polymer molecules CNTs along direction movement during calendering, well disruption cluster structure transverse Although calculated percolation threshold investigated system differed slightly, correlation between rubber. enables products be designed optimal tailored desired

Language: Английский

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