改性剂阳离子场强对含硼铝硅酸盐玻璃氧化镁结构的影响

IF 2.1 3区 材料科学 Q2 MATERIALS SCIENCE, CERAMICS International Journal of Applied Glass Science Pub Date : 2022-07-07 DOI:10.1111/ijag.16599
Manzila Islam Tuheen, Jincheng Du
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引用次数: 2

摘要

网状玻璃结构的主要特征是网状物及其连接,但改性剂也可以对玻璃结构的各种特征起重要作用。本文采用分子动力学(MD)模拟方法,研究了阳离子场强度(CFS)对硼硅铝玻璃结构的影响,并对CFS差异较大的常用改性剂阳离子场强度(CFS)进行了研究。研究发现,CFS值较高的改性剂阳离子(如Mg2+)显著降低了四重配位硼的比例,表明电场强度较高的阳离子有利于硅酸盐网络中非桥接氧的生成,而对电荷补偿的效果较差。我们的MD模拟结果与文献中核磁共振和拉曼光谱研究的结果以及其他MD模拟的结果进行了比较。从这些模拟结果和相关讨论中获得了CFS对玻璃结构的影响和Mg2+离子的结构作用的见解。
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Effect of modifier cation field strength on the structures of magnesium oxide containing aluminoborosilicate glasses

Network glass structures are commonly characterized by the network formers and their linkage but modifiers can also play an important role on various features of glass structures. In this work, we investigated the effect of cation field strength (CFS) of common modifier cations with large differences of CFS on the structures of aluminoborosilicate glasses by performing molecular dynamics (MD) simulations with recently developed potentials. It was found that modifier cations with higher CFS such as Mg2+ significantly reduced the fraction of fourfold coordinated boron, suggesting that the cations with higher field strength favor nonbridging oxygen generation in the silicate network and are less effective for charge compensation. The findings from our MD simulations are compared with the results from NMR and Raman spectroscopy studies in the literature as well as those from other MD simulations. Insights of the CFS effect on glass structures and the structural role of Mg2+ ions are gained from these simulations results and related discussions.

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来源期刊
International Journal of Applied Glass Science
International Journal of Applied Glass Science MATERIALS SCIENCE, CERAMICS-
CiteScore
4.50
自引率
9.50%
发文量
73
审稿时长
>12 weeks
期刊介绍: The International Journal of Applied Glass Science (IJAGS) endeavors to be an indispensable source of information dealing with the application of glass science and engineering across the entire materials spectrum. Through the solicitation, editing, and publishing of cutting-edge peer-reviewed papers, IJAGS will be a highly respected and enduring chronicle of major advances in applied glass science throughout this century. It will be of critical value to the work of scientists, engineers, educators, students, and organizations involved in the research, manufacture and utilization of the material glass. Guided by an International Advisory Board, IJAGS will focus on topical issue themes that broadly encompass the advanced description, application, modeling, manufacture, and experimental investigation of glass.
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