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Effects of La2O3 on sintering of MgO-CaO ceramics: Molecular dynamic simulation and experiments

The mechanism of the additive La2O3 on the sintering process of MgO-CaO ceramics was investigated by molecular dynamics simulation, and the interfacial reaction and nanoparticles sintering models were established. The simulations demonstrated that MgO and CaO dissolve into La2O3 crystals, creating O...

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Published in:	Journal of the European Ceramic Society 2025-04, Vol.45 (4), p.117107, Article 117107
Main Authors:	Dong, Yunjie, Wang, Zhoufu, Ma, Yan, Liu, Hao, Deng, Chengji, Xia, Zhongfeng, Quan, Zhenghuang, Wang, Xitang, Zhang, Ling
Format:	Article
Language:	English
Subjects:	Densification experiment La2O3 MgO-CaO ceramics Molecular dynamics Sintering mechanism
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container_title	Journal of the European Ceramic Society
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creator	Dong, Yunjie Wang, Zhoufu Ma, Yan Liu, Hao Deng, Chengji Xia, Zhongfeng Quan, Zhenghuang Wang, Xitang Zhang, Ling
description	The mechanism of the additive La2O3 on the sintering process of MgO-CaO ceramics was investigated by molecular dynamics simulation, and the interfacial reaction and nanoparticles sintering models were established. The simulations demonstrated that MgO and CaO dissolve into La2O3 crystals, creating O2- vacancies around Mg2+ and Ca2+. These vacancies significantly increase the diffusion rate of ions. Meanwhile, the La2O3 shifts the sintering driving force from reducing internal energy to increasing entropy, thereby enhancing the sintering degree of nanoparticles. However, excessive La2O3 introduction prolongs solid solution reaction times and impedes particle-particle contact, negatively affecting sintering densification. Experimental results show that the density of MgO-CaO ceramics initially increases with the addition of La2O3, reaching a peak of 3.43 g/cm³ at 0.3 mol%, before decreasing. This result aligns with the model's predictions regarding the effect of La2O3 addition. Moreover, the established models offer reference for selecting sintering aids in composite ceramics production.
doi_str_mv	10.1016/j.jeurceramsoc.2024.117107
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The simulations demonstrated that MgO and CaO dissolve into La2O3 crystals, creating O2- vacancies around Mg2+ and Ca2+. These vacancies significantly increase the diffusion rate of ions. Meanwhile, the La2O3 shifts the sintering driving force from reducing internal energy to increasing entropy, thereby enhancing the sintering degree of nanoparticles. However, excessive La2O3 introduction prolongs solid solution reaction times and impedes particle-particle contact, negatively affecting sintering densification. Experimental results show that the density of MgO-CaO ceramics initially increases with the addition of La2O3, reaching a peak of 3.43 g/cm³ at 0.3 mol%, before decreasing. This result aligns with the model's predictions regarding the effect of La2O3 addition. 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subjects	Densification experiment La2O3 MgO-CaO ceramics Molecular dynamics Sintering mechanism
title	Effects of La2O3 on sintering of MgO-CaO ceramics: Molecular dynamic simulation and experiments
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