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Local structure of calcium silicate melts from classical molecular dynamics simulation and a newly constructed thermodynamic model

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ã€Authorã€‘ Yong-quan WU;Chen DAI;Guo-chang JIANG;Shanghai Key Laboratory of Modern Metallurgy & Materials Processing,School of Materials Science and Engineering, Shanghai University;

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ã€Abstractã€‘ The distributions of local structural units of calcium silicate melts were quantified by means of classical molecular dynamics simulation and a newly constructed structural thermodynamic model. The distribution of five kinds of Si-O tetrahedra Qi from these two methods was compared with each other and also with the experimental Raman spectra, an excellent agreement was achieved. These not only displayed the panorama distribution of microstructural units in the whole composition range, but also proved that the thermodynamic model is suitable for the utilization as the subsequent application model of spectral experiments for the thermodynamic calculation. Meanwhile, the five refined regions mastered by different disproportionating reactions were obtained. Finally, the distributions of two kinds of connections between Qi were obtained, denoted as Qi-Ca-Qj and Qi-[Ob]-Qj, from the thermodynamic model, and a theoretical verification was given that the dominant connections for any composition are equivalent connections.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ distribution of microstructural unitsï¼› molecular dynamic simulationï¼› structural thermodynamic modelï¼› calcium silicate meltsï¼›

ã€åŸºé‡‘ã€‘ Project(2012CB722805)supported by the National Basic Research Program of China;Projects(50504010,50974083,51174131,51374141)supported by the National Natural Science Foundation of China;Project(50774112)supported by the Joint Fund of NSFC and Baosteel,China;Project(07QA4021)supported by the Shanghaiâ€œPhosphorâ€Science Foundation,China

ã€æ–‡çŒ®å‡ºå¤„ã€‘ Transactions of Nonferrous Metals Society of China ,ä¸å›½æœ‰è‰²é‡‘å±žå¦æŠ¥(è‹±æ–‡ç‰ˆ) , ç¼–è¾‘éƒ¨é‚®ç®± ,2014å¹´05æœŸ

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Local structure of calcium silicate melts from classical molecular dynamics simulation and a newly constructed thermodynamic model

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