尺寸相关的二氧化硅玻璃纳米纤维由脆变韧转变。

Size-Dependent Brittle-to-Ductile Transition in Silica Glass Nanofibers.

机构信息

Department of Mechanical Engineering & Materials Science, University of Pittsburgh , Pittsburgh, Pennsylvania 15261, United States.

Department of Nuclear Science and Engineering and Department of Materials Science and Engineering, Massachusetts Institute of Technology , 77 Massachusetts Avenue, Cambridge, Massachusetts 02139, United States.

出版信息

Nano Lett. 2016 Jan 13;16(1):105-13. doi: 10.1021/acs.nanolett.5b03070. Epub 2015 Dec 3.

DOI:10.1021/acs.nanolett.5b03070

PMID:26569137

Abstract

Silica (SiO2) glass, an essential material in human civilization, possesses excellent formability near its glass-transition temperature (Tg > 1100 °C). However, bulk SiO2 glass is very brittle at room temperature. Here we show a surprising brittle-to-ductile transition of SiO2 glass nanofibers at room temperature as its diameter reduces below 18 nm, accompanied by ultrahigh fracture strength. Large tensile plastic elongation up to 18% can be achieved at low strain rate. The unexpected ductility is due to a free surface affected zone in the nanofibers, with enhanced ionic mobility compared to the bulk that improves ductility by producing more bond-switching events per irreversible bond loss under tensile stress. Our discovery is fundamentally important for understanding the damage tolerance of small-scale amorphous structures.

摘要

二氧化硅（SiO2）玻璃是人类文明中不可或缺的材料，在其玻璃化转变温度（Tg > 1100°C）附近具有优异的可成形性。然而，块状二氧化硅玻璃在室温下非常脆。在这里，我们展示了一种令人惊讶的室温下的脆性到韧性转变，当二氧化硅玻璃纳米纤维的直径减小到 18nm 以下时，其直径会发生转变，同时伴随着超高的断裂强度。在低应变速率下，可以实现高达 18%的大拉伸塑性伸长。出乎意料的韧性是由于纳米纤维中的自由表面影响区，与块状相比，其离子迁移率增强，这通过在拉伸应力下每不可逆键损失产生更多的键转换事件来提高韧性。我们的发现对于理解小尺度非晶结构的耐损伤性具有重要的基础意义。

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尺寸相关的二氧化硅玻璃纳米纤维由脆变韧转变。

Size-Dependent Brittle-to-Ductile Transition in Silica Glass Nanofibers.

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