Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Performance analysis of thermally and non-conductive cement mortar prepared from waste iron scraps and magnetite sand
The existing thermal conductive pavement exploits heating cables as the heat source commonly. However, the poor thermal conductivity of the upper layer in the pavement structure results in a low energy utilisation efficiency. In order to ensure energy transfer efficiency and reduce energy consumption, this paper investigates the application of waste iron scraps and magnetite sand in cement-based materials. The mechanical properties, electrical conductivity and thermal conductivity of cement mortar were tested by ISO method, two-electrode method and plate steady-state method, and the drying shrinkage condition of the specimens was studied by drying shrinkage test. The results showed that there was a critical value of mechanical property enhancement of mortar by waste iron scraps and magnetite sand, while the electrical and thermal conductivity were positively correlated with their admixtures. The study obtained the optimal ratio of waste iron scraps and magnetite sand in the system that would exhibit excellent thermal and mechanical properties while having low electrical conductivity. It can be concluded that this study provides suggestions for solving the problems of low exploitation rate of solid waste and low heat transfer efficiency of thermal conductive pavement.
Performance analysis of thermally and non-conductive cement mortar prepared from waste iron scraps and magnetite sand
The existing thermal conductive pavement exploits heating cables as the heat source commonly. However, the poor thermal conductivity of the upper layer in the pavement structure results in a low energy utilisation efficiency. In order to ensure energy transfer efficiency and reduce energy consumption, this paper investigates the application of waste iron scraps and magnetite sand in cement-based materials. The mechanical properties, electrical conductivity and thermal conductivity of cement mortar were tested by ISO method, two-electrode method and plate steady-state method, and the drying shrinkage condition of the specimens was studied by drying shrinkage test. The results showed that there was a critical value of mechanical property enhancement of mortar by waste iron scraps and magnetite sand, while the electrical and thermal conductivity were positively correlated with their admixtures. The study obtained the optimal ratio of waste iron scraps and magnetite sand in the system that would exhibit excellent thermal and mechanical properties while having low electrical conductivity. It can be concluded that this study provides suggestions for solving the problems of low exploitation rate of solid waste and low heat transfer efficiency of thermal conductive pavement.
Performance analysis of thermally and non-conductive cement mortar prepared from waste iron scraps and magnetite sand
Zhang, Chao (Autor:in) / Chen, Mingyuan (Autor:in) / He, Zewen (Autor:in) / Geng, Jiuguang (Autor:in) / Wu, Hengzhen (Autor:in) / Li, Qingbing (Autor:in) / Niu, Yanhui (Autor:in)
31.12.2024
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
High thermally conductive cement mortar for energy-pile
Europäisches Patentamt | 2018
Pore size distribution of cement mortar prepared with crushed limestone sand
| Online Contents | 2016