L. P. Lazareva scite author profile

We have performed neutron diffraction isotopic substitution experiments on aerodynamically levitated droplets of CaSiO(3), to directly extract intermediate and local structural information on the Ca environment. The results show a substantial broadening of the first Ca-O peak in the pair distribution function of the melt compared to the glass, which comprises primarily of 6- and 7-fold coordinated Ca-polyhedra. The broadening can be explained by a redistribution of Ca-O bond lengths, especially toward longer distances in the liquid. The first order neutron difference function provides a test of recent molecular dynamics simulations and supports the MD model which contains short chains or channels of edge shared Ca-octahedra in the liquid state. It is suggested that the polymerization of Ca-polyhedra is responsible for the fragile viscosity behavior of the melt and the glass forming ability in CaSiO(3).

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Local structural variation with oxygen fugacity in Fe2SiO4+ fayalitic iron silicate melts

Alderman

Lazareva

Wilding

et al. 2017

Geochimica et Cosmochimica Acta

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The structure of molten Fe 2 SiO 4+x has been studied using both high-energy x-ray diffraction and Fe Kedge x-ray absorption near-edge structure (XANES) spectroscopy, combined with aerodynamic levitation and laser beam heating. A wide range of Fe 3+ contents were accessed by varying the levitation and atmospheric gas composition. Diffraction measurements were made in the temperature (T) and oxygen partial pressure ranges 1624(21) < T < 2183(94) K (uncertainties in parentheses) and-5.6(3) < ΔFMQ < +2.8(5) log units (relative to the Fayalite-Magnetite-Quartz buffer). Iron K-edge XANES measurements covered the ranges 1557(33) < T < 1994(36) K and-2.1(3) < ΔFMQ < +4.4(3) log units. Fe 3+ contents, x = Fe 3+ /ΣFe, estimated directly from the pre-edge peaks of the XANES spectra varied between 0.15(1) and 0.40(2). While these agree in some cases with semi-empirical models, notable discrepancies are discussed in the context of the limitations in both the models and in the calibrations used to derive oxidation state from XANES spectra. XANES pre-edge peak areas imply average Fe-O coordination numbers, n FeO , close to 5 for all Fe 3+ /ΣFe. Diffraction measurements yielded values of 4.4(2) < n FeO <

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Assessment of efficiency of windbreak and dust suppression walls for coal terminals

Moskovaya

Olishevskiy

Lazareva

2017

IOP Conf. Ser.: Earth Environ. Sci.

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Zhukova

Lazareva

Artemyanov³

2001

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Zhukova

Lazareva

Glushchenko

2001

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L. P. Lazareva

Structure of Molten CaSiO₃: Neutron Diffraction Isotope Substitution with Aerodynamic Levitation and Molecular Dynamics Study

Local structural variation with oxygen fugacity in Fe2SiO4+ fayalitic iron silicate melts

Assessment of efficiency of windbreak and dust suppression walls for coal terminals

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L. P. Lazareva

Structure of Molten CaSiO3: Neutron Diffraction Isotope Substitution with Aerodynamic Levitation and Molecular Dynamics Study

Local structural variation with oxygen fugacity in Fe2SiO4+ fayalitic iron silicate melts

Assessment of efficiency of windbreak and dust suppression walls for coal terminals

Untitled

Untitled

Contact Info

Product

Resources

About

Structure of Molten CaSiO₃: Neutron Diffraction Isotope Substitution with Aerodynamic Levitation and Molecular Dynamics Study