期刊
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
卷 208, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijheatmasstransfer.2023.124084
关键词
Braided composites; Anisotropy properties; Effective thermal conductivity; Monte -Carlo method; Interval estimation
A parameterized modified three-dimensional four-directional (3D4d) braided composites unit cell model is developed and a high-precision computation approach is proposed. A parametric representative volume element (RVE) method is established based on the coupling braiding parameters and discrete anisotropic characteristics. The influence of different factors on the effective thermal conductivity (ETC) of 3D4d braided composites is evaluated.
The analysis of 3D4d braided composites is challenging due to its complicated mesostructure. A parame-terized modified three-dimensional four-directional (3D4d) braided composites unit cell model is devel-oped in this work, along with a high-precision computation approach for it. A parametric representative volume element (RVE) method for three-dimensional braided composites is established, which is based on the coupling braiding parameters and discrete anisotropic characteristics. Additionally, a Monte-Carlo cycle framework for performing random effect verification of defects is established. To accomplish high -precision computation of effective thermal conductivity (ETC), the methodologies described in this paper include RVE unit modeling, yarns' anisotropy treatment and probability statistics on porosity can be ap-plied to any multidirectional braided and heterogeneous materials. The ETCs of 3D4d braided composites with various fiber volume fractions, braiding angles and porosities are evaluated by the methodologies. The results demonstrate that the relative errors between the simulation results and the available exper-imental data are all limited within 2.8%, the thermophysical properties of 3D4d braided composites are obviously anisotropic and that the variation of ETCs with parameters exhibit quasi linear and divergent distribution characteristics. This work proposes and verifies two influence mechanisms of porosity on composites, which also provide a possibility to realize composites properties' interval estimate.(c) 2023 Elsevier Ltd. All rights reserved.
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