基于稳态电热拉曼技术的碳纳米管纤维导热系数测量及传热研究  被引量：2

作　　者：李满[1] 戴志高[2] 应见见 肖湘衡[2] 岳亚楠[1] 

机构地区：[1]武汉大学动力与机械学院,武汉430072 [2]武汉大学物理科学与技术学院,武汉430072

出　　处：《物理学报》2015年第12期347-353,共7页Acta Physica Sinica

基　　金：国家自然科学基金青年科学基金(批准号:51206124)资助的课题~~

摘　　要：利用稳态电热拉曼技术测量了碳纳米管纤维对流换热环境下的导热系数.该方法基于材料拉曼信号与温度之间的关系,实时探测一维材料在不同电加热(内热源)下的中心点温度,利用对流环境下的稳态导热模型推导出材料的导热系数,实现了一维微纳材料热物性的无损化和非接触式测量.实验发现:碳纳米管纤维的导热系数远低于单根碳纳米管的导热系数,但高于碳纳米管堆积床的导热系数.这表明碳纳米管体材料的热物性主要取决于内部管束的列阵和管束间的接触热阻.Carbon nanotube （CNT） fiber is a promising material due to its extensive potential in micro/nanoelectronics, where the thermal performance is of great importance. In this work, a well-developed steady-state electro-Raman- thermal technique is employed and extended to the ambient environment for measuring thermal conductivity of the CNTs fiber. In this technique, two ends of the CNT fiber are attached to heat sinks and a steady electrical current flows in a sample to induce Joule heating. The heat dissipates to the ambient air and goes through the sample to the heat sinks. With combined effects of natural heat convection and heat conduction, a steady temperature profile along the sample can be established. The middle point temperature of the fiber is probed by measuring the local Raman spectrum. It is because the Raman scattering （such as G peak） of CNT fiber is temperature dependent and thus it can be used as a temperature indicator for thermal property measurement. In calibration experiment, the temperature coefficient of the G peak of CNT fiber is first obtained. A modified one-dimensional heat conduction solution involving free convection effect is derived as T（x）=I^2R/hLs（1-e√hS/（kAc）x＋e-√hS/（kAc）x/e√hS/（kAc）L/2＋e-√hS/k（Ac）L/2）＋T0.It can be found that the relationship between middle point temperature （To） and applied Joule heating power （I^2R） can be used to extract the thermal conductivity of the material （k） as long as the convection coefficient （h） is available. In this work, the convection coefficient is calculated by the model established by Peirs et al. The thermal conductivity of CNT fiber synthesized from floating catalyst method is measured to be 66.93 W/（m.K） ±11.49 W/（m.K）. This value is a little bit larger than that of other CNT fibers synthesized by the acid spun method or the dry-spinning method, which can be explained by the different sample structures induced from different synthesize method. This value is two orders of mag

关 键 词：拉曼散射 碳纳米管纤维 导热系数 界面热阻 

分 类 号：O551.1[理学—热学与物质分子运动论]