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"Insulation paper"

Fabrication and Analysis of Electrical and Mechanical Properties of CNF Composite Insulation Papers
Seohee Hwang, Chanyong Lee, Hangoo Cho, Jaehyeong Lee
J Electr Electron Mater 2026;39(1):14-18.   Published online January 1, 2026
DOI: https://doi.org/10.4313/JEEM.2026.39.1.2
Cellulose nanofiber (CNF) has attracted significant attention as a next-generation insulating material due to its ecofriendly nature and outstanding functionalities. However, conventional kraft insulation paper suffers from limited dielectric breakdown strength and long-term reliability under high-voltage conditions, highlighting the need for alternative materials. In this study, kraft pulp was combined with five types of CNFs (A, B, C: wood-based / D, E: non-wood-based) to fabricate composite insulation papers, and their electrical and mechanical properties were systematically evaluated. The results showed that CNF incorporation generally enhanced density and tensile strength, while certain types contributed to lowering dielectric constant and improving breakdown strength. Among the wood-based CNFs, type C exhibited the most balanced performance in terms of dielectric stability and mechanical reinforcement. Among the non-wood-based CNFs, type E demonstrated notable improvements in structural compactness and tensile strength, suggesting favorable reliability. Therefore, this study identifies CNF C among wood-based types and CNF E among non-wood-based types as the most promising candidates for insulation performance enhancement, suggesting their applicability as next-generation insulating materials for power equipment and ecofriendly electronic devices.
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Freeness-Dependent Performance Evaluation of Unbleached Kraft Pulp Insulation Paper for Eco-Friendly Electrical Insulation Applications
Chanyong Lee, Hangoo Cho, Jaehyeong Lee
J Electr Electron Mater 2025;38(6):666-671.   Published online November 1, 2025
DOI: https://doi.org/10.4313/JEEM.2025.38.6.9
To ensure high-voltage stability and thermal resistance of insulation paper used in transformers, this study evaluated the structural and electrical properties of four types of insulation paper samples fabricated using unbleached kraft pulp (UKP). The samples were prepared under controlled conditions with different freeness levels (300-700 ml). Tensile strength, dielectric constant, breakdown strength (dry and oil), volume resistivity, water absorption, and oil absorption were quantitatively measured. The sample with a beating degree of 300 exhibited the highest breakdown strength (53.85 kV/mm) and volume resistivity (1.49×1016 Ω·cm), whereas the samples with higher beating intensity showed improved fiber bonding and densification. These findings demonstrate the practical applicability of UKP-based insulation paper as a high-performance, eco-friendly insulating material for transformer systems, providing a scientific foundation for process optimization in insulation paper design.
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