Abstract
A systematic study of the influence of surface modification of nanosilica with coupling agents having different polarities on the dielectric properties of a PP/POE/silica blend was performed. The main goal of this investigation was to tailor the chemical composition of the silica surface, in order to modify the charge trapping properties of the nanocomposites. For the modification of the silica surface, a “green” approach was utilized: a dry silanization method, which is performed without the need of a solvent. The results of the thermogravimetric analysis (TGA) indicate that the dry process is an effective method to perform silica surface modification using alkoxysilanes.The charge trapping properties were studied by Thermally Stimulated Depolarization Current (TSDC) measurements. The obtained TSDC results show significant differences in charge trapping properties of PP/POE composites filled with differently modified silicas. Polar functional groups attached to the surface of the silica appear to have a strong effect on the charge trapping properties: The trap depth distribution becomes deeper and the trap density decreases to significantly lower levels.All results show that incorporation of surface modified nanosilica into a PP/POE matrix is a promising approach to tailor its dielectric properties. Further development of these composites may lead to benefits for application in high-voltage cable and capacitor applications.Keywords: silica surface modification, dry silanization, charge trapping, PP, POE, TSDC, high voltage cable.
Highlights
Cross-linked polyethylene (XLPE) is a widely used insulation material for high voltage cables
PP/POE blends exhibit improved flexibility in comparison to PP [1,2], they are still facing the same problems of space charge accumulation [2] which can increase the local electric field and can result in faster degradation and, electrical breakdown of the insulation material
It is reported that maleic anhydride (MAH) promotes the formation of polar carbonyl groups grafted onto PP macromolecules, and results in effective suppression of space charge injection and accumulation [3]
Summary
Cross-linked polyethylene (XLPE) is a widely used insulation material for high voltage cables. It is reported that maleic anhydride (MAH) promotes the formation of polar carbonyl groups grafted onto PP macromolecules, and results in effective suppression of space charge injection and accumulation [3]. Another approach is to prepare nanodielectrics by incorporating certain nanofillers into a polymer matrix to tailor better electrical, thermal, and mechanical properties. Compared to the solvent-based chemical modification, dry surface modification is much more environmentally friendly because barely any waste is produced This is an effective way to change the silica surface properties and to reach a high level of surface modification. 26th Nordic Insulation Symposium on Materials, Components and Diagnostics (NORD-IS 19), Tampere, Finland, 2019 performed by means of thermally stimulated direct current (TSDC) measurements
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