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Liquid–liquid phase transition in simulated liquid Al2O3·2SiO2

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Published 14 November 2006 2006 The Royal Swedish Academy of Sciences
, , Citation Vo Van Hoang et al 2006 Phys. Scr. 74 697 DOI 10.1088/0031-8949/74/6/017

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Author affiliations

1 Department of Physics, Institute of Technology, National University of HCM City, 268 Ly Thuong Kiet, District 10, HochiMinh City, Vietnam

2 Computational Physics Laboratory, Department of Physics, College of Natural Sciences, National University of HochiMinh City, Vietnam

Dates

  1. Received 26 April 2006
  2. Accepted 2 October 2006
  3. Published

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Abstract

Liquid–liquid phase transition in liquid Al2O3·2SiO2 (AS2) has been studied at 4200 K in a model containing 3025 particles under periodic boundary conditions with Born–Mayer type pair potentials via molecular dynamics (MD) simulation. Structure and dynamics of models at densities ranging from 2.60 to 4.20 g cm−3 at a temperature of 4200 K have been analysed in detail through the partial radial distribution functions (PRDF), coordination number distribution, bond-angle distribution, interatomic distances and diffusion constant. We found clear evidence of transition from a tetrahedral to an octahedral network structure in the model upon compression, like that observed in simple oxide systems. Moreover, the transition is accompanied by an anomalous diffusion of components in the system.

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10.1088/0031-8949/74/6/017