High Temperature Institute, Russian Academy of Sciences, 125412 Moscow, Russia.
L.D. Landau Institute for Theoretical Physics, Russian Academy of Sciences, 117940 Moscow, Russia.
J Chem Phys. 2018 Oct 7;149(13):134501. doi: 10.1063/1.5041325.
Binary Cu-Zr system is a representative bulk glassformer demonstrating high glass-forming ability (GFA). From the first glance, the Ni-Zr system is the most natural object to expect the same behavior because nickel and copper are neighbors in the periodic table and have similar physicochemical properties. However, it is known that the Ni-Zr system has worse GFA than the Cu-Zr one. To understand the underlying physics, we investigate the Ni Zr system in whole concentration range ∈ [0, 1]. Doing molecular dynamic simulations with a reliable embedded atom model potential, we show that the simulated Ni-Zr system also has relatively low GFA, which is comparable to that for an additive binary Lennard-Jones mixture without any chemical interaction. Icosahedral local ordering in Ni-Zr alloys is known to be less pronounced than that in the Cu-Zr ones; we see that as well. However, the icosahedron is not the only structural motif responsible for GFA. We find that the local structure of glassy Ni Zr alloys at 0.3 < < 0.65 can be described in terms of Z11-Z16 Kasper polyhedra with high density of topological defects including icosahedra as a part of this family. Concentration of topologically perfect Kasper polyhedra appears to be several times smaller than that in Cu-Zr. This is the reason for relatively poor GFA of the Ni-Zr system.
二元铜-锆体系是一种具有代表性的大块非晶形成体,表现出较高的非晶形成能力(GFA)。乍一看,镍-锆体系是最有可能具有相同行为的自然体系,因为镍和铜在元素周期表中相邻,具有相似的物理化学性质。然而,众所周知,镍-锆体系的 GFA 比铜-锆体系差。为了理解其背后的物理原理,我们在整个浓度范围内( ∈ [0, 1])研究了镍-锆体系。通过使用可靠的嵌入原子模型势能进行分子动力学模拟,我们表明模拟的镍-锆体系也具有相对较低的 GFA,这与没有任何化学相互作用的添加剂二元 Lennard-Jones 混合物相当。众所周知,镍-锆合金中的二十面体局部有序性不如铜-锆合金明显;我们也看到了这一点。然而,二十面体并不是唯一负责 GFA 的结构基元。我们发现,在 0.3 < < 0.65 的玻璃态镍-锆合金的局部结构可以用 Z11-Z16 Kasper 多面体来描述,这些多面体具有高密度的拓扑缺陷,包括二十面体作为这个家族的一部分。拓扑完美的 Kasper 多面体的浓度似乎比铜-锆体系小几个数量级。这就是镍-锆体系相对较差的 GFA 的原因。