An ab initio molecular dynamics exploration of associates in Ba-Bi liquid with strong ordering trends

Fictive associates are widely used to describe and model liquid phases with strong ordering trends. However, little evidence is known about the assumed associates in most cases. In the present work, an ab initio molecular dynamics (AIMD) study is employed to investigate the characters of the Ba-Bi l...

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Veröffentlicht in:	Acta materialia 2020-05, Vol.190 (C), p.81-92
Hauptverfasser:	Ma, Jianbo, Shang, Shun-Li, Kim, Hojong, Liu, Zi-Kui
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Sprache:	eng
Schlagworte:	ab initio molecular dynamics enthalpy of mixing of liquid medium range order molten structure Short range order
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description	Fictive associates are widely used to describe and model liquid phases with strong ordering trends. However, little evidence is known about the assumed associates in most cases. In the present work, an ab initio molecular dynamics (AIMD) study is employed to investigate the characters of the Ba-Bi liquid, in which associates have been assumed in existing thermodynamic modeling. It is found that in the Ba rich melt, the Bi atoms are almost completely surrounded by Ba atoms. The Bi-centered coordination polyhedrons are strongly associated to crystalline structures of Ba5Bi3 and Ba4Bi3 with a longer lifetime than other polyhedrons during the AIMD simulations. In addition, these Bi-centered polyhedrons in Ba rich melt connect with each other through vertex, edge, face, and/or bipyramid sharing to form medium range orders (MRO). In the Bi rich melt, the Ba-centered polyhedrons also form MROs, but they are both structurally and compositionally diverse with a shorter lifetime. These findings from AIMD study provide evidences that there exist a strongly ordering Ba4Bi3 associate and a weakly ordering BaBi3 associate in the Ba-Bi liquid. The predicted enthalpy of mixing in the liquid agrees well with the results by the CALPHAD modeling in the literature. Snapshots of AIMD configurations for some connected Bi- and Ba-centered coordination polyhedrons in molten Ba1-xBix with x = 0.025 (a), 0.05 (b), 0.10 (c), 0.90 (d), 0.95 (e), and 0.975 (f). The green and purple spheres represent Ba and Bi atoms, respectively. [Display omitted]
doi_str_mv	10.1016/j.actamat.2020.03.024
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However, little evidence is known about the assumed associates in most cases. In the present work, an ab initio molecular dynamics (AIMD) study is employed to investigate the characters of the Ba-Bi liquid, in which associates have been assumed in existing thermodynamic modeling. It is found that in the Ba rich melt, the Bi atoms are almost completely surrounded by Ba atoms. The Bi-centered coordination polyhedrons are strongly associated to crystalline structures of Ba5Bi3 and Ba4Bi3 with a longer lifetime than other polyhedrons during the AIMD simulations. In addition, these Bi-centered polyhedrons in Ba rich melt connect with each other through vertex, edge, face, and/or bipyramid sharing to form medium range orders (MRO). In the Bi rich melt, the Ba-centered polyhedrons also form MROs, but they are both structurally and compositionally diverse with a shorter lifetime. These findings from AIMD study provide evidences that there exist a strongly ordering Ba4Bi3 associate and a weakly ordering BaBi3 associate in the Ba-Bi liquid. The predicted enthalpy of mixing in the liquid agrees well with the results by the CALPHAD modeling in the literature. Snapshots of AIMD configurations for some connected Bi- and Ba-centered coordination polyhedrons in molten Ba1-xBix with x = 0.025 (a), 0.05 (b), 0.10 (c), 0.90 (d), 0.95 (e), and 0.975 (f). The green and purple spheres represent Ba and Bi atoms, respectively. 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However, little evidence is known about the assumed associates in most cases. In the present work, an ab initio molecular dynamics (AIMD) study is employed to investigate the characters of the Ba-Bi liquid, in which associates have been assumed in existing thermodynamic modeling. It is found that in the Ba rich melt, the Bi atoms are almost completely surrounded by Ba atoms. The Bi-centered coordination polyhedrons are strongly associated to crystalline structures of Ba5Bi3 and Ba4Bi3 with a longer lifetime than other polyhedrons during the AIMD simulations. In addition, these Bi-centered polyhedrons in Ba rich melt connect with each other through vertex, edge, face, and/or bipyramid sharing to form medium range orders (MRO). In the Bi rich melt, the Ba-centered polyhedrons also form MROs, but they are both structurally and compositionally diverse with a shorter lifetime. These findings from AIMD study provide evidences that there exist a strongly ordering Ba4Bi3 associate and a weakly ordering BaBi3 associate in the Ba-Bi liquid. The predicted enthalpy of mixing in the liquid agrees well with the results by the CALPHAD modeling in the literature. Snapshots of AIMD configurations for some connected Bi- and Ba-centered coordination polyhedrons in molten Ba1-xBix with x = 0.025 (a), 0.05 (b), 0.10 (c), 0.90 (d), 0.95 (e), and 0.975 (f). The green and purple spheres represent Ba and Bi atoms, respectively. 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However, little evidence is known about the assumed associates in most cases. In the present work, an ab initio molecular dynamics (AIMD) study is employed to investigate the characters of the Ba-Bi liquid, in which associates have been assumed in existing thermodynamic modeling. It is found that in the Ba rich melt, the Bi atoms are almost completely surrounded by Ba atoms. The Bi-centered coordination polyhedrons are strongly associated to crystalline structures of Ba5Bi3 and Ba4Bi3 with a longer lifetime than other polyhedrons during the AIMD simulations. In addition, these Bi-centered polyhedrons in Ba rich melt connect with each other through vertex, edge, face, and/or bipyramid sharing to form medium range orders (MRO). In the Bi rich melt, the Ba-centered polyhedrons also form MROs, but they are both structurally and compositionally diverse with a shorter lifetime. These findings from AIMD study provide evidences that there exist a strongly ordering Ba4Bi3 associate and a weakly ordering BaBi3 associate in the Ba-Bi liquid. The predicted enthalpy of mixing in the liquid agrees well with the results by the CALPHAD modeling in the literature. Snapshots of AIMD configurations for some connected Bi- and Ba-centered coordination polyhedrons in molten Ba1-xBix with x = 0.025 (a), 0.05 (b), 0.10 (c), 0.90 (d), 0.95 (e), and 0.975 (f). The green and purple spheres represent Ba and Bi atoms, respectively. [Display omitted]</abstract><cop>United States</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.actamat.2020.03.024</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0002-6524-8897</orcidid><orcidid>https://orcid.org/0000-0002-6247-3474</orcidid><orcidid>https://orcid.org/0000000265248897</orcidid><orcidid>https://orcid.org/0000000262473474</orcidid><oa>free_for_read</oa></addata></record>
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title	An ab initio molecular dynamics exploration of associates in Ba-Bi liquid with strong ordering trends
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