Finite Element Model Analysis of Nanopaper Enabled Composite Materials
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DOI: 10.25236/iczbe.2018.011
Author(s)
Aying Zhang, Zhenghong Li
Corresponding Author
Aying Zhang
Abstract
The software PROE 5.0 is used for 3D modeling of composites reinforced by pulse bending nanopaper. And the modeling process of composites reinforced by pulse bending nanopaper is described in detail. The finite element software FLUENT is used to analyze the temperature difference of the maximum and minimum temperature of composites reinforced by pulse bending nanopaper with calculation area. The temperature distribution of the nanocomposites is more uniform with the increase of the bending cycles of nanopaper. The heat source of the unit volume of the nanopaper changes with the calculated area under the same total heating power. The more the bending period of the nanopaper, the smaller the heat source of the unit volume. At the same time, with the increase of calculation area, the heat dissipation area of polymer matrix material per unit volume decreases. The average heat flux distribution on the outer surface of nanocomposites under different heating power decrease as the bending cycles increase.
Keywords
Finite Element, Thermal Property, Nanopaper, Composites