Evaluation of vacancy formation energy for BCC-, FCC-, and HCP-metals using density functional theory

IF 0.4 Q4 METALLURGY & METALLURGICAL ENGINEERING Obrabotka Metallov-Metal Working and Material Science Pub Date : 2023-06-13 DOI:10.17212/1994-6309-2023-25.2-104-116
Y. Émurlaeva, D. Lazurenko, Z. Bataeva, I. Petrov, G. Dovzhenko, Lubov Makogon, M. Khomyakov, K. Emurlaev, I. Bataev
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Abstract

Introduction. Vacancies are among the crystal lattice defects that have a significant effect on the structural transformations processes during thermal, chemical-thermal, thermomechanical, and other types of alloys treatment. The vacancy formation energy is one of the most important parameters used to describe diffusion processes. An effective approach to its definition is based on the use of the density functional theory (DFT). The main advantage of this method is to carry out computations without any parameters defined empirically. The purpose of the work is to estimate vacancy formation energy of BCC-, FCC- and HCP-metals widely used in mechanical engineering and to compare these findings obtained using various exchange-correlation functionals (GGA and meta-GGA). Computation procedure. The computations were carried out using the projector-augmented wave method using the GPAW code and the atomic simulation environment (ASE). The Perdew-Burke-Ernzerhof, MGGAC and rMGGAC functionals were used. The wave functions were described by plane waves within simulations. Vacancies formation energy was evaluated using supercells approach with a size 3 × 3 × 3. Computations were carried out for BCC-metals (Li, Na, K, V, Cr, Fe, Rb, Nb, Mo, Cs, Ta, W), FCC-metals (Al, Ni, Cu, Rh, Pd, Ag, Ir, Pt, Au, Pb, Co) and HCP-metals (Be, Ti, Zr, Mg, Sc, Zn, Y, Ru, Cd, Hf, Os, Co, Re). Results and discussion. A comparison of the defined vacancy formation energies indicates the validity of the following ratio of values: . The values obtained using the open source GPAW code are characterized by the same patterns as for widely spread commercially distributed program VASP. It was revealed that the use of the PBE and MGGAC functionals leads to a slight deviation relative to the experimentally determined vacancies formation energy in contrast to the computations using rMGGAC.
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用密度泛函理论评价BCC-、FCC-和HCP金属的空位形成能
介绍空位是晶格缺陷中的一种,在热处理、化学热处理、热机械处理和其他类型的合金处理过程中,空位对结构转变过程有显著影响。空位形成能是描述扩散过程的最重要参数之一。一种有效的定义方法是基于密度泛函理论(DFT)的使用。这种方法的主要优点是在没有任何经验定义的参数的情况下进行计算。这项工作的目的是估计在机械工程中广泛使用的BCC-、FCC-和HCP金属的空位形成能,并比较使用各种交换相关泛函(GGA和间GGA)获得的这些发现。计算程序。使用投影增强波方法,使用GPAW代码和原子模拟环境(ASE)进行计算。使用Perdew-Burke-Ernzerhof、MGGAC和rMGGAC泛函。波函数由模拟中的平面波描述。使用尺寸为3×3×3的超晶胞方法评估空位形成能量。对BCC金属(Li、Na、K、V、Cr、Fe、Rb、Nb、Mo、Cs、Ta、W)、FCC金属(Al、Ni、Cu、Rh、Pd、Ag、Ir、Pt、Au、Pb、Co)和HCP金属(Be、Ti、Zr、Mg、Sc、Zn、Y、Ru、Cd、Hf、Os、Co、Re)进行了计算。结果和讨论。定义的空位形成能量的比较表明以下值的比值的有效性:。使用开源GPAW代码获得的值的特征在于与广泛传播的商业分布式程序VASP相同的模式。结果表明,与使用rMGGAC的计算相比,PBE和MGGAC泛函的使用导致相对于实验确定的空位形成能量的轻微偏差。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Obrabotka Metallov-Metal Working and Material Science
Obrabotka Metallov-Metal Working and Material Science METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
1.10
自引率
50.00%
发文量
26
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