Mechanical, Dielectric and Hydrophobic Properties of Phenyl Silicone Rubber and Methyl Vinyl Silicone Rubber Blend Composites

IF 3.8 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IET Nanodielectrics Pub Date : 2025-07-18 DOI:10.1049/nde2.70014

Xiaoli Liu, Hui Ao, Yankai Lin, Jian Wang, Shaojian He

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Abstract

Silicone rubber (SIR) composite insulators are widely employed in electrical applications due to their exceptional chemical stability, low surface energy and superior electrical insulation properties. To enhance the hydrophobicity and low-temperature resistance of SIR, blended composites with varying ratios of SIR and phenyl silicone rubber (PSIR) were fabricated. The study revealed that matrix-filler network interactions between PSIR and fillers were weaker compared to those in SIR-based systems. Increasing PSIR content led to reduced elongation at break in the composites, while tensile strength remained largely unchanged. Concurrently, the breakdown strength is inferior to that of pure PSIR composites. Notably, the blend of SIR and PSIR enhances both hydrophobicity and resistance to hydrophobicity migration. This work provides a strategic approach for enhancing the performance of SIR composites suitable for applications in regions with high humidity and significant rainfall.

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苯基硅橡胶和甲基乙烯基硅橡胶共混复合材料的力学、介电和疏水性

硅橡胶（SIR）复合绝缘子由于其优异的化学稳定性、低表面能和优异的电绝缘性能而广泛应用于电气应用。为了提高SIR的疏水性和耐低温性能，制备了不同配比的SIR与苯基硅橡胶（PSIR）共混复合材料。研究表明，与基于sir的体系相比，PSIR与填料之间的基质-填料网络相互作用较弱。PSIR含量的增加导致复合材料断裂伸长率降低，而抗拉强度基本保持不变。同时，击穿强度低于纯PSIR复合材料。值得注意的是，SIR和PSIR的共混提高了疏水性和抗疏水性迁移能力。这项工作为提高SIR复合材料的性能提供了一种战略方法，适用于高湿度和显著降雨地区的应用。

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