Effect of Size on the Mechanical Properties of Rh-20atPd Nanowire

机译：尺寸对RH-20at％PD纳米线力学性能的影响

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The aim of this research was to calculate Yong modulus, Bulk modulus and the elastic constants of Rh-20at%Pd (atom percent) nanowire. The molecular dynamics simulation technique was used to calculate the mechanical properties at constant temperature, constant pressure ensemble. The cohesive energy of the model nanowire systems was calculated by Quantum Sutton-Chen many body potential. The temperature and the pressure of the system were controlled by Nose-Hoover thermostat and Berendsen barostat, respectively. In addition effects of the diameter of nanowire on the mechanical properties were studied. The obtained results show that, when the diameter of Rh-Pd nanowire increase, elastic constants, bulk modulus and Young modulus all increase, and when the diameter reaches about 5.5 nm, the properties began to level off and remain constant.

机译：该研究的目的是计算Yong模量，体积模量和RH-20AT％Pd（原子百分比）纳米线的弹性常数。分子动力学模拟技术用于计算恒温下的机械性能，恒定的压力整体。纳米线系统的粘性能量由Quantum Sutton-Chen的许多身体电位计算。系统的温度和压力分别由鼻孔 - 胡佛恒温器和Berendsen Barostat控制。除了纳米线的直径对机械性能的影响。得到的结果表明，当Rh-Pd纳米线的直径增加，弹性常数，散装模量和杨氏模量均增加，并且当直径达到约5.5nm时，该特性开始降低并保持恒定。

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《International Conference on MEMS, NANO and Smart Systems》|2012年||共5页
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作者
Jamal Davoodi; Mohammad Javad Moradi;
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中图分类 TB383-53;
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Rh-Pd Nanowire; Mechanical properties; Molecular dynamics simulation;

机译：RH-PD纳米线;机械性能;分子动力学模拟;
入库时间 2022-08-20 22:05:10

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4. Effect of Size on the Mechanical Properties of Rh-20atPd Nanowire [C] . Jamal Davoodi, Mohammad Javad Moradi International Conference on MEMS, NANO and Smart Systems . 2012

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Effect of Size on the Mechanical Properties of Rh-20atPd Nanowire

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