Acknowledgement
이 성과는 정부(과학기술정보통신부)의 재원으로 한국연구재단의 지원을 받아 수행된 연구임(No.RS-2023-00249021).
References
- Cheng, X., Wei, K., He, R., Pei, Y., Fang, D. (2016) The Equivalent Thermal Conductivity of Lattice Core Sandwich Structure: A Predictive Model, Appl. Therm. Eng., 93, pp.236~243.
- Jing, S., Li, W., Ma, G., Cao, X., Zhang, L., Fang, L., Meng, J., Shao, Y., Shen, B., Zhang, C., Li, H., Wan, Z., Xiao, D. (2023) Enhancing Mechanical Properties of 3D Printing Metallic Lattice Structure Inspired by Bambusa Emeiensis, Mater., 16(7), p.2545.
- Lee, S., Zhang, Z., Gu, G.X. (2022) Generative Machine Learning Algorithm for Lattice Structures with Superior Mechanical Properties, Mater. Horiz., 9(3), pp.952~960.
- Nakayama, A. (2023) Effective Thermal Conductivity of Porous Media, Adv. Heat Trans., 102, pp.51~111.
- Ryu, S., Lee, S., Jung, J., Lee, J., Kim, Y. (2019) Micromechanics-based Homogenization of the Effective Physical Properties of Composites with an Anisotropic Matrix and Interfacial Imperfections, Front. Mater., 6, p.439850.
- Shahrzadi, M., Emami, M.D., Akbarzadeh, A.H. (2022) Heat Transfer in BC Lattice Materials: Conduction, Convection, and Radiation, Compos. Struct., 284, p.115159.
- Su, Y., Li, Y., Qi, M., Guenneau, S., Li, H., Xiong, J. (2023). Asymmetric heat transfer with linear conductive metamaterials. Physical Review Applied, 20(3), p.034013.
- Takarazawa, S., Ushijima, K., Fleischhauer, R., Kato, J., Terada, K., Cantwell, W.J., Kaliske, M., Kagaya, S., Hasumoto, S. (2022) Heat-Transfer and Pressure Drop Characteristics of Micro-Lattice Materials Fabricated by Selective Laser Metal Melting Technology, Heat & Mass Transf., 58(1), pp.125~141.
- Vaissier, B., Pernot, J.P., Chougrani, L., Veron, P. (2019) Parametric Design of Graded Truss Lattice Structures for Enhanced Thermal Dissipation, Comput. Aided Des., 115, pp.1~12.
- Wei, K., Cheng, X., He, R., Pei, Y., Fang, D. (2014) Heat Transfer Mechanism of the C/SiC Ceramics Pyramidal Lattice Composites, Compos. Part B: Eng., 63, pp.8~14.