Hot workability of the Mg65Cu20Y10Ag5 amorphous/ nanoZrO2 composite alloy within supercooled temperature region

机译：Mg65Cu20Y10AG5在过冷温度区域内的Mg65Cu20Y10AG5非晶/纳米氮2复合合金的热可加工性

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Mg65Cu20Y10Ag5 Amorphous/ nano ZrO2 composites alloy powder were fabricated through the combination method of melt spinning and mechanical alloying (MA). The melt spun amorphous matrix ribbons are ground into powders and mixed with 3 vol.% ZrO2 nano particles in the planetary mill. After then formed by hot pressing in Ar atmosphere under the pressure of 700 MPa at the temperature of soft point which measured by TMA (Thermal mechanical Analysis). The hot-pressed bulk composite specimens are compression tested at different temperature within the supercooled temperature region. The flow stress was found decrease with increasing temperature dramatically when the temperature exceeds the middle temperature of supercooled region. The specimens after compression test were examined by X-ray diffractometry and SEM to investigate its crystallinity and fracture mechanism.

机译：Mg65Cu20Y10AG5通过熔融纺丝和机械合金化（MA）的组合方法制造合金粉末，制造合金粉末。将熔化的纺织非晶基质带研磨成粉末并与3体积的3体积混合。在行星磨机中的％ZrO2纳米颗粒。然后通过在通过TMA（热机械分析）测量的软点温度下在700MPa的压力下通过热压形成。热压的块状复合样品在超冷却温度区域内的不同温度下进行压缩。当温度超过超冷却区域的中间温度时，在升高时，发现流量应力随着温度的显着增加而降低。通过X射线衍射测定和SEM检查压缩试验后的样品，以研究其结晶度和断裂机制。

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《China Cross-Strait Conference on Composite Materials》|2007年||共2页
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作者
L. J. Chang; G. R. Fang; J. S. C. Jang; I. S. Lee; J. C. Huang; Chi Y.A. Tsao;
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中图分类 TB33-532;
关键词
mechanical alloying; nano-composite; magnesium alloy; amorphous alloy; microstructure of interface;

机译：机械合金化;纳米复合材料;镁合金;非晶合金;界面的微观结构;

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1. Hot workability of the Mg65Cu20Y10Ag5 amorphous/ nanoZrO2 composite alloy within supercooled temperature region [J] . L. J. Chang, G. R. Fang, J. S. C. Jang, Key Engineering Materials . 2007,第期

机译：Mg65Cu20Y10Ag5非晶/纳米ZrO2复合合金在过冷温度范围内的热加工性能
2. Investigations of mechanically alloyed Ni-Zr-Ti-Si amorphous alloys with significant supercooled regions [J] . C.K. Lin, Y.B. Feng, P.Y. Lee Intermetallics . 2002,第11a12期

机译：机械合金化具有显着过冷区的Ni-Zr-Ti-Si非晶态合金的研究
3. Cu-based bulk amorphous alloys prepared by consolidation of amorphous powders in the supercooled liquid region [J] . H.J. KIM, J.K. LEE, S.Y. SHIN Intermetallics . 2004,第10a11期

机译：通过在过冷液体区域固结非晶粉末制备的铜基块状非晶合金
4. Hot workability of the Mg65Cu20Y10Ag5 amorphous/ nanoZrO2 composite alloy within supercooled temperature region [C] . L. J. Chang, G. R. Fang, J. S. C. Jang, China Cross-Strait Conference on Composite Materials . 2007

机译：Mg65Cu20Y10AG5在过冷温度区域内的Mg65Cu20Y10AG5非晶/纳米氮2复合合金的热可加工性
5. Mechanical Properties and Hot Workability of Al-15%B4 C Metal Matrix Composites With Sc and Zr For Elevated Temperature Applications = [D] . Qin, Jian. 2016

机译：高温应用下含Sc和Zr的Al-15％B4 C金属基复合材料的力学性能和热加工性=
6. Room-Temperature and High-Temperature Tensile Mechanical Properties of TA15 Titanium Alloy and TiB Whisker-Reinforced TA15 Matrix Composites Fabricated by Vacuum Hot-Pressing Sintering [O] . Yangju Feng, Wencong Zhang, Li Zeng, 2017

机译：真空热压烧结制备TA15钛合金和TiB晶须增强TA15基复合材料的室温和高温拉伸力学性能
7. Mechanical Properties of the Hot-Pressed Amorphous Mg65Cu20Y10Ag5/NanoZrO2 Composite Alloy [O] . L. J. Chang, G. R. Fang, J. S. C. Jang, 2006

机译：热压非晶mg65Cu20Y10ag5 / NanoZrO2复合合金的力学性能
8. The Characteristics of the Hot Torsion Test for Assessing Hot Workability of Aluminum Alloys [R] . Ryo HORIUCHI, Junichi KANEKO, A. B. ELSEBAI 1970

机译：铝合金热加工性热扭转试验的特性

Hot workability of the Mg65Cu20Y10Ag5 amorphous/ nanoZrO2 composite alloy within supercooled temperature region

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