材料科学
复合材料
氮化硼
热导率
导电体
模数
热的
制作
复合数
医学
物理
病理
气象学
替代医学
作者
Fang Jiang,Na Song,Runhai Ouyang,Peng Ding
标识
DOI:10.1021/acsami.0c22702
摘要
= 34 °C), and improved mechanical properties (Young's modulus enhancement up to 356%) simultaneously, making it attractive to thermal management applications. Strong correlation between the TC and mechanical properties of the PBNF composites and the wall density of the BNF scaffolds was found, providing opportunities to tune the TC and mechanical properties through the controlling of wall density. Furthermore, the models between TC and Young's modulus of PBNF composites were established by using the data-driven method "sure independence screening and sparsifying operator", which enables us to predict TC and Young's modulus of the polymeric composites for designing promising composite materials. The design principles and fabrication strategies proposed in this work could be important for developing advanced composite materials.
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