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A new equation describing the temperature dependence of the electrical resistivity of alkali containing silicate melts

Priven, A.I.

A new two parameter empirical equation describing the temperature dependence of the electrical resistivity of glass forming melts is proposed: log rho=A+B/(logT-2 dot 65), where rho is the specific electrical resistivity, T is the absolute temperature, and A and B are empirical parameters that depend on the chemical composition. The equation enables a rather accurate extrapolation of the experimental temperature dependencies of the electrical resistivity from 1073-1273 K up to 1673 K, where it is rather difficult to measure this property, with the standard error in the extrapolated logarithmic resistivity values ranging from 0 dot 02-0 dot 085. For most common soda-lime-silica glasses, a single parameter equation is also proposed for estimates in the temperature range 1073-1673 K with standard error in the extrapolated logarithmic resistivity values of not more than 0 dot 07.

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A new equation describing the temperature dependence of the electrical resistivity of alkali containing silicate melts

Priven, A.I.

A new two parameter empirical equation describing the temperature dependence of the electrical resistivity of glass forming melts is proposed: log rho=A+B/(logT-2 dot 65), where rho is the specific electrical resistivity, T is the absolute temperature, and A and B are empirical parameters that depend on the chemical composition. The equation enables a rather accurate extrapolation of the experimental temperature dependencies of the electrical resistivity from 1073-1273 K up to 1673 K, where it is rather difficult to measure this property, with the standard error in the extrapolated logarithmic resistivity values ranging from 0 dot 02-0 dot 085. For most common soda-lime-silica glasses, a single parameter equation is also proposed for estimates in the temperature range 1073-1673 K with standard error in the extrapolated logarithmic resistivity values of not more than 0 dot 07.

A new equation describing the temperature dependence of the electrical resistivity of alkali containing silicate melts

Priven, A.I.

A new two parameter empirical equation describing the temperature dependence of the electrical resistivity of glass forming melts is proposed: log rho=A+B/(logT-2 dot 65), where rho is the specific electrical resistivity, T is the absolute temperature, and A and B are empirical parameters that depend on the chemical composition. The equation enables a rather accurate extrapolation of the experimental temperature dependencies of the electrical resistivity from 1073-1273 K up to 1673 K, where it is rather difficult to measure this property, with the standard error in the extrapolated logarithmic resistivity values ranging from 0 dot 02-0 dot 085. For most common soda-lime-silica glasses, a single parameter equation is also proposed for estimates in the temperature range 1073-1673 K with standard error in the extrapolated logarithmic resistivity values of not more than 0 dot 07.

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Titel:

A new equation describing the temperature dependence of the electrical resistivity of alkali containing silicate melts

Beteiligte:

Priven, A.I. (Autor:in)

Erschienen in:

Glass Technology ; 46 ; 263-270

Erscheinungsdatum:

2005

Format / Umfang:

8 Seiten, 9 Quellen

ISSN:

Medientyp:

Aufsatz (Zeitschrift)

Format:

Print

Sprache:

Englisch

Schlagwörter:

Silicat , elektrische Leitfähigkeit , Umformen , Schmelzen , Alkalihydroxid , Glasschmelze (geschmolzenes Glas) , Glasschmelzen (Glasherstellung) , Kalknatronsilicatglas

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