Structural rejuvenation of a well-aged metallic glass

IF 6.2 3区 综合性期刊 Q1 Multidisciplinary
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引用次数: 0

Abstract

Rejuvenation of glassy structures in general is characterized by the exothermic enthalpy prior to the glass transition. In the present work, we find that this situation is not applicable to a heavily-aged Zr-based metallic glass that rejuvenates by anelastic deformation before yield. Instead, its rejuvenation can be precisely captured by the low-temperature boson heat capacity peak as well as the effective enthalpy change with the glass-to-liquid transition. These results demonstrate that a structurally stable glass could rejuvenate by decreasing mechanical stability of its basin of potential energy landscape, but without changing the basin's energy level. The underlying mechanism points toward the redistribution of the atomic free volume with a constant system-averaged value. We further find that the rejuvenation limit of this glass is its steady-flow state with self-similar inherent structures at both short- and long-time scales. Our findings refresh the understanding of glass rejuvenation and suggest that the boson peak is a better probe for the structural rejuvenation of glasses.

Abstract Image

老化金属玻璃的结构返老还老
玻璃结构的返老还童一般以玻璃转变前的放热焓为特征。在本研究中,我们发现这种情况并不适用于一种严重老化的锆基金属玻璃,这种玻璃在屈服前会通过非弹性形变恢复活力。相反,低温玻色子热容量峰以及玻璃到液体转变过程中的有效焓变可以精确捕捉到它的年轻化过程。这些结果表明,结构稳定的玻璃可以通过降低其势能景观盆地的机械稳定性而恢复活力,但盆地的能级不会发生变化。其基本机制是以恒定的系统平均值重新分配原子自由体积。我们进一步发现,这种玻璃的年轻化极限是其在短期和长期尺度上具有自相似固有结构的稳定流动状态。我们的发现刷新了人们对玻璃年轻化的认识,并表明玻色子峰是玻璃结构年轻化的更好探针。
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来源期刊
Fundamental Research
Fundamental Research Multidisciplinary-Multidisciplinary
CiteScore
4.00
自引率
1.60%
发文量
294
审稿时长
79 days
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