材料科学
热膨胀
碳纳米管
纳米复合材料
纳米化学
复合材料
热的
大气温度范围
工作(物理)
聚合物
纳米电子学
纳米技术
热力学
物理
作者
Alamusi Alamusi,Ning Hu,Jianhui Qiu,Yuan Li,Christiana Chang,Satoshi Atobe,Hisao Fukunaga,Yaolu Liu,Huiming Ning,Liangke Wu,Jinhua Li,Weifeng Yuan,Tomonori Watanabe,Cheng Yan,Yajun Zhang
标识
DOI:10.1186/1556-276x-8-15
摘要
In this work, the thermal expansion properties of carbon nanotube (CNT)-reinforced nanocomposites with CNT content ranging from 1 to 15 wt% were evaluated using a multi-scale numerical approach, in which the effects of two parameters, i.e., temperature and CNT content, were investigated extensively. For all CNT contents, the obtained results clearly revealed that within a wide low-temperature range (30°C ~ 62°C), thermal contraction is observed, while thermal expansion occurs in a high-temperature range (62°C ~ 120°C). It was found that at any specified CNT content, the thermal expansion properties vary with temperature - as temperature increases, the thermal expansion rate increases linearly. However, at a specified temperature, the absolute value of the thermal expansion rate decreases nonlinearly as the CNT content increases. Moreover, the results provided by the present multi-scale numerical model were in good agreement with those obtained from the corresponding theoretical analyses and experimental measurements in this work, which indicates that this multi-scale numerical approach provides a powerful tool to evaluate the thermal expansion properties of any type of CNT/polymer nanocomposites and therefore promotes the understanding on the thermal behaviors of CNT/polymer nanocomposites for their applications in temperature sensors, nanoelectronics devices, etc.
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