Chang Jing, Zhang Qiang, Lin Yingfei, Zhou Chang, Yang Wenshu, Yan Liwen, Wu Gaohui
School of Materials Science and Engineering , Harbin Institute of Technology , Harbin 150001 , P. R. China.
School of Physical and Mathematical Sciences , Nanyang Technological University , Singapore 637371 , Singapore.
ACS Appl Mater Interfaces. 2018 Nov 7;10(44):38350-38358. doi: 10.1021/acsami.8b12691. Epub 2018 Oct 25.
Uniform and dense carbon nanotubes (CNTs) were grown on the surface of the graphite film (GF) by a plasma-enhanced chemical vapor deposition process. The synthesized CNTs can act as a bridge between GF and Al matrix to enhance the interface performance and improve thermal properties of the GF/Al laminated composite simultaneously. A layer-by-layer CNTs-GF/Al composite with both increased mechanical property and thermal management capability was fabricated through an optimized pressure infiltration process, which was time- and energy-saving. The results show that the interface of the laminated composite is well bonded and no interface product such as AlC is generated. Additional investigations reveal that the growth of CNTs is an effective way to improve the thermal conductivity and reduce the coefficient of thermal expansion of the GF reinforced Al composites. Overall, the best-performing CNTs-GF/Al composites with a CNTs-GF volume fraction of 51.42% show an increase of 47.99% in thermal conductivity and 26.44% in interlaminar shear strength, making them promising thermal management laminated materials.
通过等离子体增强化学气相沉积工艺,在石墨薄膜(GF)表面生长出均匀且致密的碳纳米管(CNT)。合成的碳纳米管可作为石墨薄膜与铝基体之间的桥梁,增强界面性能,同时提高GF/Al层压复合材料的热性能。通过优化的压力渗透工艺制备了具有增强力学性能和热管理能力的逐层CNTs-GF/Al复合材料,该工艺省时且节能。结果表明,层压复合材料的界面结合良好,未生成诸如AlC之类的界面产物。进一步研究表明,碳纳米管的生长是提高GF增强铝复合材料热导率和降低热膨胀系数的有效途径。总体而言,CNTs-GF体积分数为51.42%的性能最佳的CNTs-GF/Al复合材料的热导率提高了47.99%,层间剪切强度提高了26.44%,使其成为有前景的热管理层压材料。
