International Center for New-Structured Materials (ICNSM), Zhejiang University, People's Republic of China.
J Phys Condens Matter. 2011 Feb 23;23(7):075402. doi: 10.1088/0953-8984/23/7/075402. Epub 2011 Feb 2.
Inhomogeneities in two CuZr-based bulk metallic glasses (BMGs) were studied by using synchrotron radiation x-ray scattering techniques. (Cu(4.5/5.5)Ag(1/5.5))(46)Zr(46)Al(8) BMG was found to be more inhomogeneous than Cu(46)Zr(46)Al(8) BMG on the small length scale, where Cu and Ag atoms form enriched zones. Such heterogeneities are locally favorable for forming close-packed icosahedron-like clusters in three-dimensional space, greatly promoting the glass forming ability of this alloy. Upon annealing near the T(g) temperature, the heterogeneities were reduced initially at low temperature and short time annealing, then regenerated again for temperature increase and time extension. The average environment around Zr atoms almost does not change. However, the heterogeneity increases for Cu, Zr and Ag atoms once nanocrystallization happens.
利用同步辐射 X 射线散射技术研究了两种铜锆基大块金属玻璃(BMG)中的不均匀性。(Cu(4.5/5.5)Ag(1/5.5))(46)Zr(46)Al(8) BMG 在小尺度上比 Cu(46)Zr(46)Al(8) BMG 更不均匀,其中铜和银原子形成富集区。这种不均匀性在局部上有利于在三维空间中形成密堆积的二十面体状团簇,极大地促进了该合金的成玻璃能力。在接近 T(g)温度退火时,在低温和短时间退火时,不均匀性最初会降低,然后随着温度升高和时间延长再次再生。Zr 原子周围的平均环境几乎不变。然而,一旦发生纳米晶化,Cu、Zr 和 Ag 原子的不均匀性就会增加。
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