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Philosophical Magazine Volume 97, 2017 - Issue 20
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Part A: Materials Science

Elastic properties and thermal conductivities of fluor-, chlor- and brom-barium apatites predicted by first-principles simulations

Chengxiu LiInstitute of Multipurpose Utilization of Mineral Resources, Chinese Academy of Geological Sciences, Chengdu, China;Research Center of Multipurpose Utilization of Metal Mineral Resources of China Geological Survey, Chengdu, China;State Key Laboratory of Complex Nonferrous Metal Resources Clean Utilization, Kunming University of Science and Technology, Kunming, China
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Yonghua DuanSchool of Material Science and Engineering, Kunming University of Science and Technology, Kunming, ChinaCorrespondence[email protected]
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Junhui ZhangInstitute of Multipurpose Utilization of Mineral Resources, Chinese Academy of Geological Sciences, Chengdu, China;Research Center of Multipurpose Utilization of Metal Mineral Resources of China Geological Survey, Chengdu, China;State Key Laboratory of Complex Nonferrous Metal Resources Clean Utilization, Kunming University of Science and Technology, Kunming, China
Pages 1708-1728 | Received 18 Jan 2017, Accepted 28 Mar 2017, Published online: 07 Apr 2017
 
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Abstract

First-principles calculations based on density functional theory were employed to investigate the anisotropic elastic properties and thermal conductivities of barium apatite Ba10(PO4)6X2 (X = F, Cl and Br). The bulk, Young’s and shear moduli were predicted. The results of anisotropic indexes and 3-D figures of bulk modulus and Young’s modulus show that the order of degree of elastic anisotropy is Ba10(PO4)6F2 < Ba10(PO4)6Cl2 < Ba10(PO4)6Br2. The thermal conductivities obtained from the Clarke’s model and Cahill’s model reveal that Ba10(PO4)6F2 has the largest thermal conductivity, and Ba10(PO4)6Br2 possesses the smallest one. The anisotropy of thermal conductivity indicates that the thermal conductivity in the (0 0 0 1) plane is larger than that in the plane.

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