Study on thermal deformation behavior of Cu-Zr-Ce alloy

机译：Cu-ZR-Ce合金热变形行为研究

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The flow stress curves of Cu-1.0%Zr-0.15%Ce alloy during high temperature deformation were analyzed by using a Gleeble-1500D thermal simulation machine at the hot deformation temperature of 550 °C, 650 °C, 750 °C, 850 °C and 900 °C, the strain rate of 0.001 s~(-1)、 0.01 s~(-1)、 0.1 s~(-1)、 1 s~(-1)、 10 s~(-1), respectively. The results show that the hot deformation mechanism of the alloy is mainly based on the dynamic recovery under relative lower hot deformation temperature or higher strain rate. The thermal deformation mechanism of the Cu-1.0%Zr-0.15%Ce alloy is the dynamic recrystallization under relative higher hot deformation temperature or lower strain rate. The constitutive equation of the alloy was calculated and established respectively on the basis of the relationships among the flow stress, strain rates and deformation temperature. The thermal activation energy of the alloy is about 430.51 kJ/mol.

机译：通过在热变形温度为550°C，650°C，750°C，850°的热变形温度下，通过使用GLEEBLE-1500D热仿真机进行高温变形期间Cu-1.0％Zr-0.15％Ce合金的流量曲线。 C和900°C，应变率为0.001 s〜（-1），0.01 s〜（-1），0.1 s〜（-1），1 s〜（-1），10 s〜（-1），分别。结果表明，合金的热变形机制主要基于相对较低热变形温度或更高应变率下的动态回收。 Cu-1.0％Zr-0.15％Ce合金的热变形机制是相对较高的热变形温度或较低应变率下的动态重结晶。基于流量应力，应变速率和变形温度之间的关系，分别计算合金的本构体等式。合金的热激活能量约为430.51 kJ / mol。

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《International Conference on Civil, Structure, Environmental Engineering》|2016年|384p|共5页
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TIAN Ka; TIAN Baohong; LIU Yong; ZHANG Yi; SONG Kexing;
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中图分类 TU3-53;
关键词
Cu-Zr-Ce alloy; Flow stress; Constitutive equation; Thermal activation energy;

机译：Cu-Zr-Ce合金;流量应力;本构方程;热激活能量;

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5. A study of the effects of processing and alloying on the microstructure and deformation behavior of wrought magnesium alloys. [D] . Chen, Zhe. 2012

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Study on thermal deformation behavior of Cu-Zr-Ce alloy

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