Study of the Equivalent Thermal Conductivity of Composites Reinforced by Nanopaper
Download as PDF
DOI: 10.25236/iczbe.2018.013
Author(s)
Aying Zhang, Zhenghong Li
Corresponding Author
Aying Zhang
Abstract
The finite element software FLUENT is used to analyze the equivalent thermal conductivity of composites reinforced by pulse bending nanopaper during the heating process. When the thermal conductivity of the two materials is similar, the equivalent thermal conductivity of the system can be approximately solved by means of the linear average method. The maximum and minimum temperature of the end face of the nanocomposites along three different directions is 400 K and 300 K respectively. The temperature distribution of other surface is calculated under the adiabatic condition. It can be seen that the temperature section is gradually decrease from the end face of high temperature to the end face of low temperature.
Keywords
Equivalent Thermal Conductivity, Simulation, Nanopaper, Composites