Two-Stage Model of Silicate Glass Transition

Shangcong Cheng
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Abstract

After several decades of study, the nature of the glass state and glass transition remains controversial. This work describes a newly proposed two-stage model for silicate glass transition. The model recognizes that there is a cooling rate independent critical temperature Tc, separating two temperature regions. The coherent structures in the two regions change along different paths. All observed dynamic features in the glass transition result from structural rearrangements in the process. According to the proposed model, the silicate glass transition can be recognized as a second-order phase transition following an incomplete first-order phase transition. This work will first describe the two-stage model, and then apply the model to silica glass, as well as binary and ternary silicate glass transitions.
硅酸盐玻璃化转变的两阶段模型
经过几十年的研究,玻璃态和玻璃化转变的性质仍然存在争议。这项工作描述了一个新提出的两阶段模型的硅酸盐玻璃转变。该模型识别出存在一个与冷却速率无关的临界温度Tc,将两个温度区域分开。两个区域的相干结构沿着不同的路径变化。所有观察到的玻璃化转变的动态特征都是由过程中的结构重排引起的。根据所提出的模型,硅酸盐玻璃相变可以被认为是在不完全的一级相变之后的二级相变。这项工作将首先描述两阶段模型,然后将该模型应用于硅玻璃,以及二元和三元硅酸盐玻璃的转变。
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