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First-principles investigation of mechanical and thermodynamic properties of nickel silicides at finite temperature -=SUP=-*-=/SUP=-

Wen, Zhiqin ; Zhao, Yuhong ; Hou, Hua ; [et al.]

Ioffe Institute Russian Academy of Sciences ; 2018

In: Физика твердого тела Vol. 60, No. 5 ( 2018), p. 964-

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In: Физика твердого тела, Ioffe Institute Russian Academy of Sciences, Vol. 60, No. 5 ( 2018), p. 964-

Abstract: First-principles calculations are performed to investigate lattice parameters, elastic constants and 3D directional Young's modulus E of nickel silicides (i. e. beta-Ni 3 Si, delta-Ni 2 Si, theta-Ni 2 Si, varepsilon-NiSi, and alpha-NiSi 2 ), and thermodynamic properties, such as the Debye temperature, heat capacity, volumetric thermal expansion coefficient, at finite temperature are also explored in combination with the quasi-harmonic Debye model. The calculated results are in a good agreement with available experimental and theoretical values. The five compounds demonstrate elastic anisotropy. The dependence on the direction of stiffness is the greatest for delta-Ni 2 Si and theta-Ni 2 Si, when the stress is applied, while that for beta-Ni 3 Si is minimal. The bulk modulus B reduces with increasing temperature, implying that the resistance to volume deformation will weaken with temperature, and the capacity gradually descend for the compound sequence of beta-Ni 3 Si & gt;delta-Ni 2 Si & gt; theta-Ni 2 Si & gt;varepsilon-NiSi & gt;alpha-NiSi 2 . The temperature dependence of the Debye temperature Theta D is related to the change of lattice parameters, and Theta D gradually decreases for the compound sequence of varepsilon-NiSi & gt;beta-Ni 3 Si & gt;delta-Ni 2 Si & gt;theta-Ni 2 Si & gt;alpha-NiSi 2 . The volumetric thermal expansion coefficient alpha V , isochoric heat capacity C v and isobaric heat capacity C p of nickel silicides are proportional to T 3 at low temperature, subsequently, alpha V and C p show modest linear change at high temperature, whereas C v obeys the Dulong-Petit limit. In addition, beta-Ni 3 Si has the largest capability to store or release heat at high temperature. From the perspective of solid state physics, the thermodynamic properties at finite temperature can be used to guide further experimental works and design of novel nickel-silicon alloys.

Type of Medium: Online Resource

ISSN: 0367-3294

URL: Article

DOI: 10.21883/FTT.2018.05.45875.292

Language: Russian

Publisher: Ioffe Institute Russian Academy of Sciences

Publication Date: 2018

detail.hit.zdb_id: 2823623-3

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