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Citation |
Huang S, Hu M, Huang Y, Cui N, Wang W. Materials (Basel) 2018; 11(4): e11040615. |
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Affiliation |
School of Civil Engineering and Transportation, South China University of Technology, Guangzhou 510640, China. wfwang@scut.edu.cn. |
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Copyright |
(Copyright © 2018, MDPI: Multidisciplinary Digital Publishing Institute) |
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DOI |
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PMID |
29673176 |
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Abstract |
The prefabricated cement-based partition wall has been widely used in assembled buildings because of its high manufacturing efficiency, high-quality surface, and simple and convenient construction process. In this paper, a general porous partition wall that is made from cement-based materials was proposed to meet the optimal mechanical and thermal performance during transportation, construction and its service life. The porosity of the proposed partition wall is formed by elliptic-cylinder-type cavities. The finite element method was used to investigate the mechanical and thermal behaviour, which shows that the proposed model has distinct advantages over the current partition wall that is used in the building industry. It is found that, by controlling the eccentricity of the elliptic-cylinder cavities, the proposed wall stiffness can be adjusted to respond to the imposed loads and to improve the thermal performance, which can be used for the optimum design. Finally, design guidance is provided to obtain the optimal mechanical and thermal performance. The proposed model could be used as a promising candidate for partition wall in the building industry. Language: en |
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Keywords |
cement-based materials; finite element method; mechanical properties; partition wall; porous materials; thermal analysis |