Density and surface tension of M2O-TeO2(M = Li, Na and K) melts

Shinichiro Haruki; Hirofumi Tokunaga; Sohei Sukenaga; Noritaka Saito; Kunihiko Nakashima

doi:10.2320/jinstmet.74.629

Density and surface tension of M₂O-TeO₂(M = Li, Na and K) melts

Shinichiro Haruki, Hirofumi Tokunaga, Sohei Sukenaga, Noritaka Saito, Kunihiko Nakashima

IMRAM - Division of Process and System Engineering

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The density and the surface tension of the binary tellurite melts, (M ₂O-TeO₂ M = Li, Na and K) were measured. We investigated the thermal and compositional dependences of the properties. It was found that the density and the surface tension of the binary tellurite melts decreased with increasing temperature and M₂O content. The dependences of the density and the surface tension were attributed to the behavior of added cation and the structural change of melt. It was thought that the added cation intruded into the interspace of the complex tellurite anion, and molar volume decreased, when the radius of added cation was small. TeO₄ trigonal bipyramid changes to TeO₄" trigonal bipyramid and TeO₃ trigonal pyramid with increasing temperature and M₂O content. We explained that the dependences of the density and the surface tension on the behavior of added cation and the structural change of melt.

Original language	English
Pages (from-to)	629-634
Number of pages	6
Journal	Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals
Volume	74
Issue number	10
DOIs	https://doi.org/10.2320/jinstmet.74.629
Publication status	Published - 2010 Oct

Keywords

Density
Glass melt
Melt structure
Surface tension
Tellurite

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title = "Density and surface tension of M2O-TeO2(M = Li, Na and K) melts",

abstract = "The density and the surface tension of the binary tellurite melts, (M 2O-TeO2 M = Li, Na and K) were measured. We investigated the thermal and compositional dependences of the properties. It was found that the density and the surface tension of the binary tellurite melts decreased with increasing temperature and M2O content. The dependences of the density and the surface tension were attributed to the behavior of added cation and the structural change of melt. It was thought that the added cation intruded into the interspace of the complex tellurite anion, and molar volume decreased, when the radius of added cation was small. TeO4 trigonal bipyramid changes to TeO4{"} trigonal bipyramid and TeO3 trigonal pyramid with increasing temperature and M2O content. We explained that the dependences of the density and the surface tension on the behavior of added cation and the structural change of melt.",

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author = "Shinichiro Haruki and Hirofumi Tokunaga and Sohei Sukenaga and Noritaka Saito and Kunihiko Nakashima",

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AU - Haruki, Shinichiro

AU - Tokunaga, Hirofumi

AU - Sukenaga, Sohei

AU - Saito, Noritaka

AU - Nakashima, Kunihiko

PY - 2010/10

Y1 - 2010/10

N2 - The density and the surface tension of the binary tellurite melts, (M 2O-TeO2 M = Li, Na and K) were measured. We investigated the thermal and compositional dependences of the properties. It was found that the density and the surface tension of the binary tellurite melts decreased with increasing temperature and M2O content. The dependences of the density and the surface tension were attributed to the behavior of added cation and the structural change of melt. It was thought that the added cation intruded into the interspace of the complex tellurite anion, and molar volume decreased, when the radius of added cation was small. TeO4 trigonal bipyramid changes to TeO4" trigonal bipyramid and TeO3 trigonal pyramid with increasing temperature and M2O content. We explained that the dependences of the density and the surface tension on the behavior of added cation and the structural change of melt.

AB - The density and the surface tension of the binary tellurite melts, (M 2O-TeO2 M = Li, Na and K) were measured. We investigated the thermal and compositional dependences of the properties. It was found that the density and the surface tension of the binary tellurite melts decreased with increasing temperature and M2O content. The dependences of the density and the surface tension were attributed to the behavior of added cation and the structural change of melt. It was thought that the added cation intruded into the interspace of the complex tellurite anion, and molar volume decreased, when the radius of added cation was small. TeO4 trigonal bipyramid changes to TeO4" trigonal bipyramid and TeO3 trigonal pyramid with increasing temperature and M2O content. We explained that the dependences of the density and the surface tension on the behavior of added cation and the structural change of melt.

KW - Density

KW - Glass melt

KW - Melt structure

KW - Surface tension

KW - Tellurite

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ER -

Density and surface tension of M₂O-TeO₂(M = Li, Na and K) melts

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Keywords

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