Icosahedron-forming ability of MgZn alloys studied by molecular dynamics simulations

A molecular dynamics simulation is performed to investigate the icosahedron in MgxZn(100-x) alloys during solidification at the cooling rate of 1 × 1011 K/s. It is found that with x increase the icosahedron-forming ability (IFA) of MgxZn(100-x) increases first, and then decrease as x > 50; and Mg...

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Bibliographic Details
Published in:Journal of alloys and compounds 2017-04, Vol.700, p.61-66
Main Authors: Liang, Yong-Chao, Tian, Ze-An, Liu, Rang-Su, Gao, Ting-Hong, Guo, Xiao-Tian, Mo, Yun-Fei, Xie, Quan
Format: Article
Language:English
Subjects:
Alloys
Clusters
Cooling
Cooling rate
Forming
Icosahedral phase
Icosahedron-forming ability
Linkages
Magnesium
Metallic glass
MgZn alloys
Molecular dynamics
Molecular dynamics simulation
Packing density
Solidification
Zinc
Zinc base alloys
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Summary:A molecular dynamics simulation is performed to investigate the icosahedron in MgxZn(100-x) alloys during solidification at the cooling rate of 1 × 1011 K/s. It is found that with x increase the icosahedron-forming ability (IFA) of MgxZn(100-x) increases first, and then decrease as x > 50; and Mg90Zn10 can crystallize at this cooling rate. Consistent with the geometry, the smaller Zn atoms are usually at the centre of icosahedra, and the maximal fraction of Mg atoms in neighbours of Zn-centred icosahedra is just the critical value with which such icosahedra get the highest packing density. Further analysis reveals that the stronger IFA of Zn-rich alloys is closely related to the forming ability of GE9IS-ICOs (clusters composed of more than 8 icosahedra that are interconnected by IS-linkages) that still grow at low temperatures where all other smaller icosahedral clusters stop grow. •The Zn-rich alloys possess stronger icosahedral-forming ability.•When the percentage of Mg atoms is about 60% in a Zn-centred icosahedra, it is most close to the densest one.•The forming ability of GE9IS-ICOs is closely related to the number difference of icosahedra in MgxZn(100-x) alloys.•It demonstrates the growth pathway of string-like icosahedra by attaching a 6-atom pentagonal pyramid.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2017.01.046