Structural evolution and strength change of a metallic glass at different temperatures

X. Tong; G. Wang; Z. H. Stachurski; J. Bednarcík; N. Mattern; Q. J. Zhai; J. Eckert

doi:10.1038/srep30876

Structural evolution and strength change of a metallic glass at different temperatures

X. Tong, G. Wang^*, Z. H. Stachurski, J. Bednarcík, N. Mattern, Q. J. Zhai, J. Eckert

^*Corresponding author for this work

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Abstract

The structural evolution of a Zr 64.13 Cu 15.75 Ni 10.12 Al 10 metallic glass is investigated in-situ by high-energy synchrotron X-ray radiation upon heating up to crystallization. The structural rearrangements on the atomic scale during the heating process are analysed as a function of temperature, focusing on shift of the peaks of the structure factor in reciprocal space and the pair distribution function and radial distribution function in real space which are correlated with atomic rearrangements and progressing nanocrystallization. Thermal expansion and contraction of the coordination shells is measured and correlated with the bulk coefficient of thermal expansion. The characteristics of the microstructure and the yield strength of the metallic glass at high temperature are discussed aiming to elucidate the correlation between the atomic arrangement and the mechanical properties.

Original language	English
Article number	30876
Journal	Scientific Reports
Volume	6
DOIs	https://doi.org/10.1038/srep30876
Publication status	Published - 3 Aug 2016

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title = "Structural evolution and strength change of a metallic glass at different temperatures",

abstract = "The structural evolution of a Zr 64.13 Cu 15.75 Ni 10.12 Al 10 metallic glass is investigated in-situ by high-energy synchrotron X-ray radiation upon heating up to crystallization. The structural rearrangements on the atomic scale during the heating process are analysed as a function of temperature, focusing on shift of the peaks of the structure factor in reciprocal space and the pair distribution function and radial distribution function in real space which are correlated with atomic rearrangements and progressing nanocrystallization. Thermal expansion and contraction of the coordination shells is measured and correlated with the bulk coefficient of thermal expansion. The characteristics of the microstructure and the yield strength of the metallic glass at high temperature are discussed aiming to elucidate the correlation between the atomic arrangement and the mechanical properties.",

author = "X. Tong and G. Wang and Stachurski, {Z. H.} and J. Bednarc{\'i}k and N. Mattern and Zhai, {Q. J.} and J. Eckert",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2016.",

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T1 - Structural evolution and strength change of a metallic glass at different temperatures

AU - Tong, X.

AU - Wang, G.

AU - Stachurski, Z. H.

AU - Bednarcík, J.

AU - Mattern, N.

AU - Zhai, Q. J.

AU - Eckert, J.

PY - 2016/8/3

Y1 - 2016/8/3

N2 - The structural evolution of a Zr 64.13 Cu 15.75 Ni 10.12 Al 10 metallic glass is investigated in-situ by high-energy synchrotron X-ray radiation upon heating up to crystallization. The structural rearrangements on the atomic scale during the heating process are analysed as a function of temperature, focusing on shift of the peaks of the structure factor in reciprocal space and the pair distribution function and radial distribution function in real space which are correlated with atomic rearrangements and progressing nanocrystallization. Thermal expansion and contraction of the coordination shells is measured and correlated with the bulk coefficient of thermal expansion. The characteristics of the microstructure and the yield strength of the metallic glass at high temperature are discussed aiming to elucidate the correlation between the atomic arrangement and the mechanical properties.

AB - The structural evolution of a Zr 64.13 Cu 15.75 Ni 10.12 Al 10 metallic glass is investigated in-situ by high-energy synchrotron X-ray radiation upon heating up to crystallization. The structural rearrangements on the atomic scale during the heating process are analysed as a function of temperature, focusing on shift of the peaks of the structure factor in reciprocal space and the pair distribution function and radial distribution function in real space which are correlated with atomic rearrangements and progressing nanocrystallization. Thermal expansion and contraction of the coordination shells is measured and correlated with the bulk coefficient of thermal expansion. The characteristics of the microstructure and the yield strength of the metallic glass at high temperature are discussed aiming to elucidate the correlation between the atomic arrangement and the mechanical properties.

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DO - 10.1038/srep30876

M3 - Article

SN - 2045-2322

VL - 6

JO - Scientific Reports

JF - Scientific Reports

M1 - 30876

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Structural evolution and strength change of a metallic glass at different temperatures

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