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Title: Connectivity of glass structure. Oxygen number
Authors: Min'ko, N. I.
Medvedev, E. F.
Keywords: Authors of BSTU
Issue Date: 2018
Publisher: IOP Publishing
Abstract: With reference to mathematics, crystal chemistry and chemical technology of synthesis of glass structures in the solution (sol-gel technology), the paper is devoted to the study of the degree of connectivity of a silicon-oxygen backbone (fSi) and the oxygen number (R) [1]. It reveals logical contradictions and uncertainty of mathematical expressions of parameters, since fSi is not similar to the oxygen number. The connectivity of any structure is a result of various types of bonds: ion-covalent, donor-acceptor, hydrogen bonds, etc. Besides, alongside with SiO2, many glass compositions contain other glass-forming elements due to tetrahedral sites thus formed. The connectivity function of a glassy network with any set of glass-forming elements is roughly ensured by connectivity factor Y [2], which has monovalent elements loosening a glassy network. The paper considers the existence of various structural motives in hydrogen-impermeable glasses containing B2O3, Al2O3, PbO, Na2O, K2O and rare-earth elements. Hence, it also describes gradual nucleation, change of crystal forms, and structure consolidation in the process of substance intake from a matrix solution according to sol-gel technology. The crystal form varied from two-dimensional plates to three-dimensional and dendritical ones [3]. Alternative parameters, such as the oxygen number (O) and the structure connectivity factor (Y), were suggested. Functional dependence of Y=f(O) to forecast the generated structures was obtained for two- and multicomponent glass compositions.
Description: Min'ko N. I. Connectivity of glass structure. Oxygen number / N. I. Min'ko, E. F. Medvedev // IOP Conf. Series: Materials Science and Engineering. - 2018. - Vol.327. - 032038.
URI: http://dspace.bstu.ru/jspui/handle/123456789/1902
Appears in Collections:Chemistry, chemical technology and special purposed composites

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