Fabrication,Structure, and Thermal Properties of Mg–Cu Alloys as High Temperature PCM for Thermal Energy Storage |
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Authors: | Zheng Sun Liyi Zou Xiaomin Cheng Jiaoqun Zhu Yuanyuan Li Weibing Zhou |
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Affiliation: | School of Materials Science and Engineering, Wuhan University of Technology, Wuhan 430070, China; (Z.S.); (L.Z.); (J.Z.); (Y.L.); (W.Z.) |
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Abstract: | This work studied the thermophysical properties of Mg-24%Cu, Mg-31%Cu, and Mg-45%Cu (wt.%) alloys to comprehensively consider the possibility of using them as thermal energy storage (TES) phase change materials (PCMs) used at high temperatures. The microstructure, phase composition, phase change temperatures, and enthalpy of these alloys were investigated by an electron probe micro analyzer (EPMA), X-ray diffraction (XRD), and differential scanning calorimetry (DSC). The XRD and EPMA results indicated that the binary eutectic phase composed of α-Mg and Mg2Cu exists in the microstructure of the prepared Mg–Cu series alloys. The microstructure of Mg-24%Cu and Mg-31%Cu is composed of α-Mg matrix and binary eutectic phases, and Mg-45%Cu is composed of primary Mg2Cu and binary eutectic phases. The number of eutectic phases is largest in Mg-31%Cu alloy. The DSC curves indicated that the onset melting temperature of Mg-24%Cu, Mg-31%Cu, and Mg-45%Cu alloys were 485, 486, and 485 °C, and the melting enthalpies were 152, 215, and 91 J/g. Thermal expansion and thermal conductivity were also determined, revealing that the Mg–Cu alloys had a low linear thermal expansion coefficient and high thermal conductivity with respect to increasing temperatures. In conclusion, the thermal properties demonstrated that the Mg–Cu alloys can be considered as a potential PCM for TES. |
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Keywords: | magnesium-copper alloy latent heat storage high temperature phase change materials thermal properties |
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