Abstract: In order to study the insulation characteristics of polypropylene (PP), different mass fractions of surface treated and non-surface treated nano-magnesia (MgO) were added to PP to form nano-MgO /PP composites. The microstructure of the composite was observed, and the AC breakdown experiment and dielectric spectrum test were carried out respectively. Transmission electron microscope (TEM) experiments observed that nano-MgO was uniformly dispersed in the PP matrix, while some agglomeration occurred in the particles that were not surface treated. The breakdown experiments showed that within the study range, the addition of nano-MgO enhanced the AC breakdown field strength of the MgO/PP composites, and the breakdown field strength increased with the increase in the mass fraction of nano-MgO filler.Additionally, the surface treatment process of the nanoparticles also improved the breakdown field strength of the corresponding components.The broadband dielectric spectroscopy experiments conducted at room temperature revealed that the incorporation of nano-fillers reduced the relative dielectric constant, with a larger reduction observed in the surface-treated nano-MgO/PP composites. The dielectric temperature spectrum showed that at lower temperatures (<60 °C), the relative dielectric constant of both PP and nano-MgO/PP composites increased with rising temperature, while the relative dielectric constant of nano-MgO/PP was lower than that of pure PP.

    Key words: polypropylene; nano-MgO; insulation characteristic; dielectric constant; AC breakdown field strength; broadband dielectric spectroscopy; dielectric temperature spectrum