NiNb金属玻璃原子结构和力学性能的分子动力学研究

采用分子动力学模拟的方法,对不同成分的NiNb合金进行原子结构和力学性能方面的研究。通过对降温过程中玻璃转变温度的变化和高温熔体混合焓、混合熵的变化对比发现,在成分点c_(Ni)=0.65前后,合金表现出截然不同的变化趋势。同时利用双体分布函数,配位数,Warren-Cowley参数,键对分析,准近邻原子等方法对NiNb合金进行原子结构相关分析,发现在c_(Ni)=0.65前后,部分结构参数也表现出不同趋势,说明在此成分点前后,NiNb金属玻璃在原子结构上差异较大。综合热力学和结构参数的变化,c_(Ni)=0.65可能是两个合金体系的分界点,c_(Ni)=0.65之前为Nb基,c_(Ni)=0.65之后为Ni基。最后对力学性能进行了模拟,发现力学性能的表现主要和不同成分下NiNb之间的结合方式相关。此项研究有利于加深对金属玻璃原子结构和力学性能的理解。

化学序对NiCoCr中熵合金力学性能影响的分子动力学模拟

采用蒙特卡洛和分子动力学模拟(MD)方法研究化学序(CSRO)对NiCoCr中熵合金(MEA)力学性能的影响规律。基于信息熵提出了一个描述化学序的参数S,其值越小体系的化学序越强。模拟结果表明体系平均原子体积和势能随着S减小而减小,且体系结构更加稳定。接着,对NiCoCr中熵合金进行压缩模拟,模型的屈服强度随着S的减小呈现增加趋势。进一步数据分析发现,Cr原子以及具有多配位Cr原子的中心原子更容易变形,而具有多配位Ni或Co原子的中心原子则倾向于更难变形。由此可知,通过改变化学序和Cr原子的含量能提升NiCoCr高熵合金的力学性能,此结果为实验制备具有更优异性能的高熵合金提供了有价值的参考。

Investigation on structure and dynamic property of liquid Pd-Cu-Ni-P alloys using ab initio molecular dynamics simulation

Based on the short-range order,it is found that the abundance of the P-centered P-transition-metal clusters are the common feature among the liquid Pd-Cu-Ni-P alloys,and hence this feature alone could not uncover the underlying mechanisms of the variation of glass forming ability among the liquid alloys.For the so called similar elements such as Cu and Ni,their behaviors are significantly different when interacting with Pd or P atoms.Cu has weak bonding with both Pd and P while Ni has very strong bonding with P but nearly no bonding with Pd.The different bonding characters thus underlie the phenomenon that in the best glass formers the ratio of the two similar elements often deviates from 1:1.Only if the parameters of chemical short-range order of Cu and Ni around P become closest to each other the best glass forming ability is reached.It is also illustrated that the calculated dynamic properties are very helpful to locate the composition of the best glass former.