纳米片
氮化硼
纳米纤维
纤维素
材料科学
硼
氮化物
六方氮化硼
复合材料
纳米技术
化学工程
石墨烯
化学
有机化学
工程类
图层(电子)
作者
Daning Zhang,Siyu Wang,Xinnan Zhai,Wenrui Tian,Jiongting Jiang,Chao Li,Guanjun Zhang
出处
期刊:AIP Advances
[American Institute of Physics]
日期:2025-06-01
卷期号:15 (6)
摘要
The extra-high voltage casing faces severe heat dissipation demands during operation, which places higher requirements on the thermal conductivity, mechanical properties, and electrical properties of insulating paper in the oil–paper insulation system. However, enhancing the overall performance of materials by only using a single nanomaterial remains a significant challenge. Consequently, this paper proposes integrating laminate design with nanomaterial doping modification to engineer boron nitride nanosheet/cellulose nanofiber (BNNS/CNF) modified laminated composite insulating paper. The synergistic effect of BNNS and CNF leads to a notable enhancement in the mechanical properties of the insulating paper, with the tensile strength increasing by up to 20.4%. The BNNS, CNF, and cellulose are arranged layer by layer under gravity to form a “brick mud” structure, which synergistically constitutes a thermal conductivity network, and the thermal conductivity is increased by up to 15.82%. In addition, the laminate structure and nanofillers optimize the electric field distribution inside the modified paper, thereby enhancing the DC breakdown field strength by 22.36% and reducing the power frequency dielectric loss by 52.51%. The laminated boron nitride nanosheet/nanocellulose modified insulating paper exhibits excellent overall performance, positioning it as a promising cellulose-based insulating paper material with significant potential.
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