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Nonisothermal crystallization behavior of micron-sized

已有 1468 次阅读 2022-1-14 23:45 |个人分类:非晶前沿|系统分类:论文交流

Nonisothermal crystallization behavior of micron-sized Mg85Ni5Y10 amorphous wires

H. Zhouab J. Tanab Q. Dongab L.F. Maab D.Y. Dingc S.F. Guoc Q. Liab Y.A. Chenab F.S. Panab

  • aCollege of Materials Science and Engineering, Chongqing University, 400044 Chongqing, China

  • bNational Engineering Research Center for Magnesium Alloys, Chongqing University, Chongqing 400044, China

  • cFaculty of Materials and Energy, Southwest University, Chongqing 400715, China

Abstract

In this work, a micron-sized Mg85Ni5Y10 amorphous alloy was successfully prepared by using melt-spinning technology, and the thermodynamic stability and nonisothermal crystallization kineticswere studied in detail. The activation energies Eg, Ex, and Epcorresponding to the glass transition temperature (Tg), onset crystallization temperature (Tx), and peak crystallization temperature (Tp), respectively, were calculated by using the Kissinger and Ozawa equations, among which the value of Eg was determined to be the highest, indicating that atom rearrangement has difficulty overcoming the interaction force between Ni and Y atoms in view of the low mixing enthalpy. Additionally, in situ XRD was used to analyze the phase transformation during crystallization, showing that phase separation occurs prior to the precipitation of the Mg2Ni nanocrystalline phase, which is followed by the appearance of Ni3Y and Ni2Y3. The first and second crystallization processes involve diffusion-controlled growth with different nucleation rates, while in the final stage, the crystal continues to grow without obvious nucleation. The results may shed some light on interpreting the crystallization mechanisms of amorphous Mg-Ni-Y and even other Mg-Ni-RE alloy.

    https://doi.org/10.1016/j.jnoncrysol.2022.121412



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