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Numerical calculations Of effective thermal conductivity of porous ceramics by image-based finite element method
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作者 Yan-Hao DONG Chang-An WANG +1 位作者 liang-fa hu Jun ZHOU 《Frontiers of Materials Science》 SCIE CSCD 2012年第1期79-86,共8页
The effective thermal conductivity of heterogeneous or composite materials is an essential physical parameter of materials selection and design for specific functions in science and engineering. The effective thermal ... The effective thermal conductivity of heterogeneous or composite materials is an essential physical parameter of materials selection and design for specific functions in science and engineering. The effective thermal conductivity is heavily relied on the fraction and spatial distribution of each phase. In this work, image- based finite element method (FEM) was used to calculate the effective thermal conductivity of porous ceramics with different pore structures. Compared with former theoretical models such as effective media theory (EMT) equation and parallel model, image-based FEM can be applied to a large variety of material systems with a relatively steady deviation. The deviation of image-based FEM computation mainly comes from the difference between the two dimensional (2D) image and the three dimensional (3D) structure of the real system, and an experiment was carried out to confirm this assumption. Factors influencing 2D and 3D effective thermal conductivities were studied by FEM to illustrate the accuracy and application conditions of image-based FEM. 展开更多
关键词 thermal conductivity image-based FEM porous ceramic two-phasematerial
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