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Space Charge Contributions to the Dielectric Response and Breakdown Strength of High-Temperature Poly(ether imide)/Polyimide Blends

Vida Jurečič, Nikola Novak, Lovro Fulanović, V. Bobnar

2023Macromolecules21 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Dielectric properties of poly(ether imide)/polyimide blends, prepared by the solution casting method, were measured over broad frequency and temperature ranges and compared to the response of pristine polymers. While the intrinsic dielectric permittivity only slightly decreases, the electrical conductivity of blends is approximately 40% lower than the conductivity of poly(ether imide) and polyimide. A detailed low-frequency investigation revealed a significant reduction of accumulated space charges in blend systems and thus confirmed that the enhancement of their breakdown strength occurs due to strong electrostatic interactions between the differently charged phenyl groups in poly(ether imide) and polyimide chains. Because a notable influence of absorbed water on the overall dielectric response was found, particularly in the presence of γ relaxation, the impact of high-temperature annealing on the dielectric breakdown strength was also examined.

Topics & Concepts

PolyimideImideMaterials scienceDielectricSpace chargeEtherPermittivityPolymer chemistryPolymerConductivityComposite materialDielectric strengthOrganic chemistryChemistryPhysical chemistryOptoelectronicsLayer (electronics)Quantum mechanicsElectronPhysicsDielectric materials and actuatorsSynthesis and properties of polymersHigh voltage insulation and dielectric phenomena