AI Article Synopsis
- High-voltage direct-current (HVDC) cables face insulation issues during voltage polarity reversals, prompting the need for enhanced insulation performance in these components.* -
- The study utilizes nanocomposites made from SiC-SR and TiO-SR polymers, which were prepared through solution blending, to investigate their effectiveness in improving the cable insulation.* -
- Results indicate that the right concentrations of nano-SiC and TiO particles create deep traps within the silicone rubber matrix, reducing charge build-up and enhancing the dielectric strength of the double-layer insulation structure.*
Article Abstract
The insulation of high-voltage direct-current (HVDC) cables experiences a short period of voltage polarity reversal when the power flow is adjusted, leading to sever field distortion in this situation. Consequently, improving the insulation performance of the composite insulation structure in these cables has become an urgent challenge. In this paper, SiC-SR (silicone rubber) and TiO-SR nanocomposites were chosen for fabricating HVDC cable accessories. These nanocomposites were prepared using the solution blending method, and an electro-acoustic pulse (PEA) space charge test platform was established to explore the electron transfer mechanism. The space charge characteristics and field strength distribution of a double-layer dielectric composed of cross-linked polyethylene (XLPE) and nano-composite SR at different concentrations were studied during voltage polarity reversal. Additionally, a self-built breakdown platform for flake samples was established to explore the effect of the nanoparticle doping concentration on the breakdown field strength of double-layer composite media under polarity reversal. Therefore, a correlation was established between the micro electron transfer process and the macro electrical properties of polymers (XLPE/SR). The results show that optimal concentrations of nano-SiC and TiO particles introduce deep traps in the SR matrix, significantly inhibiting charge accumulation and electric field distortion at the interface, thereby effectively improving the dielectric strength of the double-layer polymers (XLPE/SR).
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11360729 | PMC |
| http://dx.doi.org/10.3390/polym16162356 | DOI Listing |
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