College of Aerospace and Civil Engineering, Harbin Engineering University, Harbin, 150001, People's Republic of China.
Nanotechnology. 2019 Feb 8;30(6):065704. doi: 10.1088/1361-6528/aaf195.
This paper presents multi-walled carbon nanotube (MWCNT)/poly(m-phenylene isophthalamide) (PMIA) nanocomposite films as electrothermal elements, which offer advantages in flexibility, low energy consumption and rapid temperature growth. The electrical properties, electrothermal behavior and thermal stability of the films were investigated as a function of MWCNT content. The percolation behavior analysis revealed MWCNTs built a continuously conductive network in PMIA matrix at the corresponding percolation threshold of ∼0.06 wt%. The electrothermal behavior of the MWCNT/PMIA film was investigated by considering temperature response rapidity and electrothermal efficiency under different ambient conditions. For the film with 7.0 wt% MWCNTs under different ambient conditions, the film worked at a high heating rate of 1.0-8.2 °C s and cooling rate of 0.75-7.0 °C s under a low voltage of 3-12 V, due to the low electrical resistivity (4.5 Ω cm) of the film. The prepared MWCNT/PMIA films supported more outstanding heating performance than conventional PI-Kanthal film, including good heating uniformity, higher electrothermal efficiency and heating/cooling rate. Moreover, the improved thermomechanical properties of the nanocomposite were observed by dynamic thermomechanical analysis.
本文提出了多壁碳纳米管(MWCNT)/聚间苯二甲酰间苯二胺(PMIA)纳米复合薄膜作为电热元件,其具有柔韧性好、能耗低、升温快等优点。研究了薄膜的电学性能、电热行为和热稳定性随 MWCNT 含量的变化。渗流行为分析表明,在相应的渗流阈值∼0.06wt%时,MWCNTs 在 PMIA 基体中建立了连续的导电网络。通过考虑不同环境条件下的温度响应速度和电热效率,研究了 MWCNT/PMIA 薄膜的电热行为。对于 7.0wt%MWCNTs 的薄膜,在 3-12V 的低电压下,薄膜在不同的环境条件下的工作加热速率为 1.0-8.2°C/s,冷却速率为 0.75-7.0°C/s,这是由于薄膜的低电阻率(4.5Ωcm)所致。与传统的 PI-Kanthal 薄膜相比,所制备的 MWCNT/PMIA 薄膜具有更优异的加热性能,包括良好的加热均匀性、更高的电热效率和加热/冷却速率。此外,通过动态热机械分析观察到纳米复合材料的热机械性能得到了改善。
