Viscosity measurements of Zr_(55)Cu_(30)Al_(10)Ni_5 supercooled liquid alloys by using penetration viscometer under high-speed heating conditions

T. Yamasaki; S. Maeda; Y. Yokoyama

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Viscosity measurements of Zr_(55)Cu_(30)Al_(10)Ni_5 supercooled liquid alloys by using penetration viscometer under high-speed heating conditions

机译：高速加热条件下使用渗透粘度计测量Zr_（55）Cu_（30）Al_（10）Ni_5过冷液态合金的粘度

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The viscosity of Zr_(55)Cu_(30)Al_(10)Ni_5 supercooled liquid alloys having bulk metallic glass forming ability was measured using a penetration viscometer with a cylindrical probe under at heating rates as high as 400 deg C/min. Viscosity decreased with an increase in the heating rate and tended to saturate at 200 deg C/min and above. This may partly indicate a decrease in the oxygen contamination from the measuring atmosphere and partly due to differences in structural relaxation during heating at various rates. The viscosity of these alloys can be well represented by an Arrhenius relation. The activation energies for viscous flow with various heating rates were all at values of about 340-350 kJ/mol. Viscosity follows a Vogel-Fulcher-Tammann (VFT) relationship over the entire temperature range.

机译：使用具有圆柱形探针的渗透粘度计在高达400℃/ min的加热速率下测量具有块状金属玻璃形成能力的Zr_（55）Cu_（30）Al_（10）Ni_5过冷液态合金的粘度。粘度随着加热速率的增加而降低，并且倾向于在200℃/ min以上达到饱和。这可能部分表明来自测量气氛的氧气污染减少，部分原因是在以各种速率加热期间结构弛豫的差异。这些合金的粘度可以通过阿伦尼乌斯关系很好地表示。具有各种加热速率的粘性流的活化能都在约340-350kJ / mol的值。在整个温度范围内，粘度遵循Vogel-Fulcher-Tammann（VFT）关系。

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《Intermetallics》 |2006年第9期|共5页
作者
T. Yamasaki; S. Maeda; Y. Yokoyama;
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正文语种 eng
中图分类合金学与各种性质合金;
关键词
Alloy design; Glasses; metallic; Mechanical properties at ambient temperature; Rapid solidification processing;

机译：合金设计;玻璃;金属;常温下的机械性能;快速凝固处理;

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1. Viscosity measurements of Zr_(55)Cu_(30)Al_(10)Ni_5 supercooled liquid alloys by using penetration viscometer under high-speed heating conditions [J] . T. Yamasaki, S. Maeda, Y. Yokoyama Intermetallics . 2006,第8a9期

机译：高速加热条件下使用渗透粘度计测量Zr_（55）Cu_（30）Al_（10）Ni_5过冷液态合金的粘度
2. Annealing Effects on Viscosity of Zr_(55)Cu_(30)Al_(10)Ni_5 Supercooled Liquids [J] . T. Yamasaki, S. Maeda, T. Fukami Materials transactions . 2007,第7期

机译：退火对Zr_（55）Cu_（30）Al_（10）Ni_5过冷液体粘度的影响
3. Influence of temperature on viscous flow deformation of Zr_(55)Cu_(30)Al_(10)Ni_5 bulk glassy alloy in supercooled liquid region [J] . S.L. Zhu, X.M. Wang, F.X. Qin Intermetallics . 2007,第7期

机译：温度对过冷液体区Zr_（55）Cu_（30）Al_（10）Ni_5大块玻璃态合金粘性流动变形的影响
4. VISCOSITY MEASUREMENTS OF Zr_(55)Cu_(30)Al_(10)Ni_5 SUPERCOOLED LIQUID ALLOY UNDER HIGH-SPEED HEATING CONDITIONS [C] . T. Yamasaki, S. Maeda, D. Okai, International Conference on Proceeding amp; Manufacturing of Advanced Materials; 20060704-08; Vancouver(CA) . 2006

机译：高速加热条件下Zr_（55）Cu_（30）Al_（10）Ni_5超冷液相合金的粘度测量
5. Changes in short-range order of $Zr_{55}Cu_{30}Al_{10}Ni_{5}$ and $Zr_{55}Cu_{20}Al_{10}Ni_{10}Ti_{5}$ BMGs upon annealing [O] . Stoica, M., Van Steenberge, N., Bednarcik, J., 2010

机译：$ Zr_ {55} Cu_ {30} Al_ {10} Ni_ {5} $和$ Zr_ {55} Cu_ {20} Al_ {10} Ni_ {10} Ti_ {5} $ BMG的短程变化退火

Viscosity measurements of Zr_(55)Cu_(30)Al_(10)Ni_5 supercooled liquid alloys by using penetration viscometer under high-speed heating conditions

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