Jacopo Baglioni, Alessandro Martinelli, Peihao Sun, Francesco Dallari, Fabian Westermeier, Michael Sprung, Gerhard Grübel, Giulio Monaco
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引用次数: 0
摘要
屈服点标志着受到足够应力的固体开始发生塑性变形,但也可以通过 X 射线辐照达到屈服点。我们从热力学、结构和动力学的角度,对一系列具有不同无序度的 GeSe3 Chalcogenide 玻璃进行了描述。我们的研究表明,在室温下进行足够长的辐照,会产生与玻璃初始状态无关的稳定而独特的屈服状态。屈服状态下的玻璃比退火状态下的玻璃更无序、焓值更高,但其性质并不极端:它们与从比玻璃转变温度高 20% 的温度瞬时淬火的玻璃相匹配。这是一个众所周知的玻璃形成液体的关键温度
,它标志着一个动力学转变的位置,不同的玻璃在经过
辐照后都会达到这个温度,这一点非常了不起。
Uniqueness of glasses prepared via x-ray induced yielding.
The yield point marks the beginning of plastic deformation for a solid subjected to sufficient stress, but it can alternatively be reached by x-ray irradiation. We characterize this latter route in terms of thermodynamics, structure and dynamics for a series of GeSe3chalcogenide glasses with different amount of disorder. We show that a sufficiently long irradiation at room temperature results in a stationary and unique yielding state, independent of the initial state of the glass. The glass at yield is more disordered and has higher enthalpy than the annealed glass, but its properties are not extreme: they rather match those of a glass instantaneously quenched from a temperature 20% higher than the glass-transition temperature. This is a well-known, key temperature for glass-forming liquids which marks the location of a dynamical transition, and it is remarkable that different glasses upon irradiation head all there.
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