Numerical Homogenization of the Thermophysical Properties of Fibrous Composites
Author:
Publisher
Springer Science and Business Media LLC
Subject
Polymers and Plastics,Mechanics of Materials,Condensed Matter Physics,General Mathematics,Biomaterials,Ceramics and Composites
Link
https://link.springer.com/content/pdf/10.1007/s11029-022-10054-x.pdf
Reference19 articles.
1. E. N. Lages and S. P. C. Marques, “Prediction of effective thermal conductivity of multiphase composites with periodic microstructures using an expanded micromechanical model,” Int. J. Thermal Sci., 171, 107226 (2022).
2. N. Bonfoha, A. Jeancolasa, F. Dinzarta, H. Sabara, and M. Mihalutab, “Effective thermal conductivity of composite ellipsoid assemblages with weakly conducting interfaces,” Compos. Struct., 202, 603-614 (2018).
3. A. Chatterjee, R. Vermaa, H. P. Umashankara, S. Kasthurirengana, N. C. Shivaprakashb, and U. Beheraa, “Heat conduction model based on percolation theory for thermal conductivity of composites with high volume fraction of filler in base matrix,” Int. J. Thermal Sci., 136, 389-395 (2019).
4. L. Zhou, T. B. Yuan, X. S. Yang, Z. Y. Liu, Q. Z. Wang, B. L. Xiao, and Z. Y. Ma, “Micro-scale prediction of effective thermal conductivity of CNT/Al composites by finite-element method,” Int. J. Thermal Sci., 171, 107206 (2022).
5. A. Vahedi, M. H. S. Lahidjani, and S. Shakhesi, “Multiscale modeling of thermal conductivity of carbon nanotube epoxy nanocomposites,” Accepted Manuscript. Phys. B: Phys. Condensed Matter., 550, 39-46 (2018).
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