石墨烯
摩擦学
润滑
材料科学
热导率
氧化物
环氧树脂
复合数
纳米技术
热阻
复合材料
热的
冶金
物理
气象学
作者
Nan Zhang,Yaoming Zhang,Song Li,Lihe Guo,Zenghui Yang,Xinrui Zhang,Tingmei Wang,Qihua Wang
标识
DOI:10.1016/j.triboint.2022.107918
摘要
Improving thermal conductivity is critical for tribological performance but remains a challenge. Here, a 3D structure with layered features is fabricated by electrostatic assembly of h- BN and GO nanosheets. The strategy for structural adjustment from macro to microscopic is beneficial for efficient phonon transport by reducing interfacial thermal resistance, which in turn promotes friction-reduction and wear resistance performance based on "synergistic lubrication". The superiority of the strategy is directly reflected in the excellent self-lubricating, wear-resistance properties, and outstanding thermal conductivity enhancement (1039.16 %) of the composite. Significantly, the comprehensive properties of epoxy-based composites are closely related to macro- and microgeometry of GO and h-BN, helping to reveal the relation between the structural design of multicomponent 2D fillers and tribology-based multifunctionality.
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