Aging mechanism of HTV silicone rubber loaded with hybrid nano/micro silica and alumina exposed to concurrent multistress

Due to their many benefits, especially their high hydrophobicity, silicone rubber-based composite materials gradually substitute conventional porcelain and glass insulators. However, polymeric-based materials are degraded when subjected to various external environmental stresses, which deteriorates...

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Bibliographic Details
Published in:Polymer testing 2023-04, Vol.121, p.107985, Article 107985
Main Authors: Ullah, Rahmat, Abd Rahman, Rahisham, Ahmed, Rizwan, Wali, Khan, Ullah, Israr
Format: Article
Language:English
Subjects:
Aging
Alumina
Polymeric-based composites insulators
Silica
Silicone rubber
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Summary:Due to their many benefits, especially their high hydrophobicity, silicone rubber-based composite materials gradually substitute conventional porcelain and glass insulators. However, polymeric-based materials are degraded when subjected to various external environmental stresses, which deteriorates their anticipated qualities and shortens their lifetime. This study investigates the aging characteristics of five types of high-temperature vulcanized silicone rubber (HTV-SR) filled with nano-silica/micro-alumina. Samples of materials with different specifications were subjected to various environmental conditions in a specialized weather chamber for 5000 h. The degree of deterioration was analyzed using multiple diagnostic methods: hydrophobicity categorization, fourier transform infrared spectroscopy, leakage current, mechanical property testing, and thermogravimetric analysis. The experimental results showed that SR impregnated with low-level nano silica filler revealed superior anti-aging properties compared to its high concentration and unfilled counterpart. SP-3 (2% nano-silica and 10% micro-alumina) displayed the lowest surface roughness and the best hydrophobicity among the composite test samples. In addition, the highest tensile strength (4.1 MPa) and lowest leakage current (2.5 μA) were recorded. The composite containing 2% nano-silica appears to be the highest resistance candidate to the multi-stress aging test, which can be explained by the strong molecular contact amongst nano-silica and SR. •Understanding the variation in degradation of HTV silicone rubber filled composites exposed to concurrent multistress.•Samples were exposed to multi-stress aging for a period of 5000 h to comply with the international practice.•Different diagnostics techniques were deployed to assess aging behavior.•HTV SR reinforced with hybrid filler (nano silica and micro alumina) shows improved performance.
ISSN:0142-9418
1873-2348
DOI:10.1016/j.polymertesting.2023.107985