Calculation of the Griffith Cohesive Energy of the Ni<suB>3</suB>AlB<suB>x</suB> Symmetrical Grain Boundary

Chin. Phys. Lett.

2002, Vol. 19

Issue (10): 1490-1493 DOI:

Original Articles

Calculation of the Griffith Cohesive Energy of the Ni₃AlB_x Symmetrical Grain Boundary

ZHENG Li-Ping^1,2;ZHANG Hu-Yong¹;LI Dou-Xing^2,3;CUI Fu-Zhai⁴

¹Shanghai Institute of Nuclear Research, Chinese Academy of Sciences, PO Box 800-204, Shanghai 201800 ²International Centre for Material Physics, Chinese Academy of Sciences, Shenyang 110016 ³Shenyang National Laboratory for Materials Sciences, Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016 ⁴Department of Materials Science and Engineering, Tsinghua University, Beijing 100084

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ZHENG Li-Ping, ZHANG Hu-Yong, LI Dou-Xing et al 2002 Chin. Phys. Lett. 19 1490-1493

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Abstract A Monte Carlo simulation, with the energetics described by the embedded atom method, has been employed to study the physical behaviour of boron atoms during relaxation of the Ni₃AlB_x grain boundary, It has also been used to calculate not only the peak concentrations of Ni and B and the valley concentration of Al at the grain boundary, but also the dependence of the grain boundary cohesion on the B bulk concentration. During relaxation of impure Ni₃Al grain boundaries, we suggest that, as the segregating species, the B atoms either insert into interstices in the grain boundary or substitute Ni atoms. Meanwhile, as the inducing species, they induce Ni atoms to substitute for Al atoms. Calculations show that in the equilibrium, when the B bulk concentration x increases from 0.1 to 0.9, the peak concentration of B increases, the peak concentration of Ni maximizes while the valley concentration of Al minimizes at x = 0.5. The calculations also show the best cohesion of the grain boundary at x = 0.5.

Keywords: 61.72.Mm 64.75.+g 61.50.Lt

Published: 01 October 2002

PACS:	61.72.Mm	(Grain and twin boundaries)
	64.75.+g
	61.50.Lt	(Crystal binding; cohesive energy)

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