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Volume 25, Issue 4
A Second-Order Two-Scale Algorithm for Thermo-Mechanical Coupling Problems in Quasi-Periodic Porous Materials

Zhiqiang Yang, Yi Sun, Junzhi Cui, Tianyu Guan & Zifeng Yuan

DOI: 10.4208/cicp.OA-2017-0252

Commun. Comput. Phys., 25 (2019), pp. 1144-1176.

Published online: 2018-12

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  • Abstract

This work develops a second-order two-scale (SOTS) model based on homogenization method to predict thermo-mechanical coupling performance of porous materials with quasi-periodic structures. For the kinds of porous materials, the corresponding material coefficients are dependent on the macroscopic variable and the radiation effect at microscale is considered in this paper. The quasi-periodic properties of the thermo-mechanical coupling models which consider mutual interaction between temperature and displacement fields are proposed at first. Then, the two-scale formulas for the thermo-mechanical coupling problems with radiation boundary conditions are derived successively, and the finite element algorithms based on the SOTS model are brought forward in detail. Finally, by some typical examples, the effectiveness and validity of the proposed algorithms are confirmed. The computational results demonstrate that the SOTS method is efficient and valid to predict the thermo-mechanical coupling properties, and can acquire the microscale information of the porous materials accurately.

  • Keywords

SOTS model, radiation effect, thermo-mechanical performance, quasi-periodic structures.

  • AMS Subject Headings

35B27, 34E13, 74Q05, 83C30

  • Copyright

COPYRIGHT: © Global Science Press

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@Article{CiCP-25-1144, author = {Zhiqiang Yang, Yi Sun, Junzhi Cui, Tianyu Guan and Zifeng Yuan}, title = {A Second-Order Two-Scale Algorithm for Thermo-Mechanical Coupling Problems in Quasi-Periodic Porous Materials}, journal = {Communications in Computational Physics}, year = {2018}, volume = {25}, number = {4}, pages = {1144--1176}, abstract = {

This work develops a second-order two-scale (SOTS) model based on homogenization method to predict thermo-mechanical coupling performance of porous materials with quasi-periodic structures. For the kinds of porous materials, the corresponding material coefficients are dependent on the macroscopic variable and the radiation effect at microscale is considered in this paper. The quasi-periodic properties of the thermo-mechanical coupling models which consider mutual interaction between temperature and displacement fields are proposed at first. Then, the two-scale formulas for the thermo-mechanical coupling problems with radiation boundary conditions are derived successively, and the finite element algorithms based on the SOTS model are brought forward in detail. Finally, by some typical examples, the effectiveness and validity of the proposed algorithms are confirmed. The computational results demonstrate that the SOTS method is efficient and valid to predict the thermo-mechanical coupling properties, and can acquire the microscale information of the porous materials accurately.

}, issn = {1991-7120}, doi = {https://doi.org/10.4208/cicp.OA-2017-0252}, url = {http://global-sci.org/intro/article_detail/cicp/12894.html} }
TY - JOUR T1 - A Second-Order Two-Scale Algorithm for Thermo-Mechanical Coupling Problems in Quasi-Periodic Porous Materials AU - Zhiqiang Yang, Yi Sun, Junzhi Cui, Tianyu Guan & Zifeng Yuan JO - Communications in Computational Physics VL - 4 SP - 1144 EP - 1176 PY - 2018 DA - 2018/12 SN - 25 DO - http://doi.org/10.4208/cicp.OA-2017-0252 UR - https://global-sci.org/intro/article_detail/cicp/12894.html KW - SOTS model, radiation effect, thermo-mechanical performance, quasi-periodic structures. AB -

This work develops a second-order two-scale (SOTS) model based on homogenization method to predict thermo-mechanical coupling performance of porous materials with quasi-periodic structures. For the kinds of porous materials, the corresponding material coefficients are dependent on the macroscopic variable and the radiation effect at microscale is considered in this paper. The quasi-periodic properties of the thermo-mechanical coupling models which consider mutual interaction between temperature and displacement fields are proposed at first. Then, the two-scale formulas for the thermo-mechanical coupling problems with radiation boundary conditions are derived successively, and the finite element algorithms based on the SOTS model are brought forward in detail. Finally, by some typical examples, the effectiveness and validity of the proposed algorithms are confirmed. The computational results demonstrate that the SOTS method is efficient and valid to predict the thermo-mechanical coupling properties, and can acquire the microscale information of the porous materials accurately.

Zhiqiang Yang, Yi Sun, Junzhi Cui, Tianyu Guan and Zifeng Yuan. (2018). A Second-Order Two-Scale Algorithm for Thermo-Mechanical Coupling Problems in Quasi-Periodic Porous Materials. Communications in Computational Physics. 25 (4). 1144-1176. doi:10.4208/cicp.OA-2017-0252
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