Heterogeneity of a Cu_(47.5)Zr_(47.5)Al_5 bulk metallic glass

K. B. Kim; J. Das; F. Baier; M. B. Tang; W. H. Wang; J. Eckert

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Heterogeneity of a Cu_(47.5)Zr_(47.5)Al_5 bulk metallic glass

机译：Cu_（47.5）Zr_（47.5）Al_5大块金属玻璃的非均质性

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Microstructural investigation of an as-cast Cu_(47.5)Zr_(47.5)Al_5 bulk metallic glass (BMG) reveals two amorphous phases formed by liquid phase separation. The morphology of the phase separated amorphous regions is spherical with 10-20 nm in size. These areas are homogeneously distributed throughout the sample. Moreover, a macroscopic heterogeneity also occurs along with the nano-scale liquid phase separation. The macroscopic heterogeneity can be distinguished from the different degree of the chemical fluctuations in the sample, and the existence of nano-scale crystals of less than 5 nm in size. Presumably, both the macroscopic heterogeneity and the nano-scale phase separation enhance branching of the shear bands during deformation in the Cu_(47.5)Zr_(47.5)Al_5 BMG.

机译：对铸态Cu_（47.5）Zr_（47.5）Al_5块状金属玻璃（BMG）的显微组织研究表明，液相分离形成了两个非晶相。相分离的非晶区域的形态是球形的，尺寸为10-20nm。这些区域均匀分布在整个样品中。此外，宏观上的异质性也随着纳米级液相分离而发生。宏观异质性可以通过样品中化学波动的不同程度以及尺寸小于5 nm的纳米级晶体的存在来区分。据推测，在Cu_（47.5）Zr_（47.5）Al_5 BMG变形过程中，宏观异质性和纳米级相分离都增强了剪切带的分支。

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来源
《Applied Physics Letters》 |2006年第5期|p.051911.1-051911.3|共3页
作者
K. B. Kim; J. Das; F. Baier; M. B. Tang; W. H. Wang; J. Eckert;
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作者单位

FG Physikalische Metallkunde, FB 11 Material- und Geowissenschaften, Technische Universitaet Darmstadt, Petersenstrasse 23, D-64287 Darmstadt, Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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机译：Cu_（47）Ti_（34）Zr_（11）Ni_8，Zr_（52.5）Cu_（17.9）Ni_（14.6）Al_（10）Ti_5和Zr_（57）Cu_（15.4）Ni_（12.6）Al_（10）的热力学Nb_5块状金属玻璃成形合金

Heterogeneity of a Cu_(47.5)Zr_(47.5)Al_5 bulk metallic glass

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