碱土金属
碱金属
替代(逻辑)
财产(哲学)
矿物学
化学
材料科学
土(古典元素)
无机化学
化学工程
物理
有机化学
计算机科学
工程类
哲学
认识论
程序设计语言
数学物理
作者
Jiangtao Wu,Ziming Yan,Zhe Hao,Yurong Gao,Xuan Ge,Jiali Xu,Lianjun Wang,Linfeng Ding
摘要
Abstract Alkali‐free boroaluminosilicate glass (AFBG) is widely utilized in electronic display panels and glass fibers due to its superior mechanical properties and thermal stability. The growing demand for high‐performance materials capable of withstanding extreme conditions has propelled the development of AFBG. To this end, understanding the relationship between composition, structure, and properties at the atomic level is essential. This study investigates the effects of substituting B 2 O 3 for alkaline earth metal oxides (RO) on the properties and structural variations of AFBG using a combination of experimental techniques alongside molecular dynamics simulations. The results indicate that the substitution of B 2 O 3 with RO leads to an increase in [AlO 5 ] and [BO 3 ] units, resulting in an enhanced polymerized yet more open structure. This structural change is accompanied by a decrease in the coefficient of thermal expansion and glass transition temperature ( T g ). Simultaneously, the reduced content of [AlO 4 ] and [BO 4 ] units weakens the overall glass network rigidity, leading to observed declines in elastic modulus and nanohardness. Notably, the changes in local coordination environment around Al dominates the overall structural and property variations. These findings provide atomic‐scale insights into the structural mechanisms governing the behavior of AFBG.
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