Deformation of silica glass studied by molecular dynamics: Structural origin of the anisotropy and non-Newtonian behavior
X Bidault and S Chaussedent and W Blanc and DR Neuville, JOURNAL OF NON- CRYSTALLINE SOLIDS, 433, 38-44 (2016).
DOI: 10.1016/j.jnoncrysol.2015.11.029
A novel aspect of the medium-range structure of silica drawn into fibers is studied. The network of silica glass structure is composed of corner- shared SiO4 tetrahedra, and it can be seen as a structure of interconnected rings (Si-O)(n) of various size, denoted nMR (n-membered ring). Molecular dynamics simulations show that small-sized silica rings get a preferential orientation during the drawing, either during the high-temperature stage for 3MR, or during the cooling for 4MR and 5MR, and they persist in this state in the fiber at ambient temperature. This leads to a structural anisotropy, more specifically a "transverse isotropy", because of different longitudinal and transversal physical properties. This anisotropic structural rearrangement during the drawing process induces a non-Newtonian behavior of the modeled glass melt, with strain-rate dependent properties. (C) 2015 Elsevier B.V. All rights reserved.
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