@article {Priven:June 2005:0017-1050:263,
	author = "Priven, A.I.",
	title = "A new equation describing the temperature dependence of the electrical resistivity of alkali containing silicate melts",
	journal = "Glass Technology",
	volume = "46",
	year = "June 2005",
	abstract = "A new two parameter empirical equation describing the temperature dependence of the electrical resistivity of glass forming melts is proposed: log<I><IMG SRC="/iso-ents/isogrk32/rho-s.gif" ALT="rho">=A+B/</I>(log<I>T</I>&#150;2&#183;65), where <I><IMG SRC="/iso-ents/isogrk32/rho-s.gif" ALT="rho"></I> is the specific electrical resistivity, <I>T</I> is the absolute temperature, and <I>A</I> and <I>B</I> 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&#150;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&#183;02&#150;0&#183;085. For most common soda&#150;lime&#150;silica glasses, a single parameter equation is also proposed for estimates in the temperature range 1073&#150;1673 K with standard error in the extrapolated logarithmic resistivity values of not more than 0&#183;07.",
	pages = "263-270(8)",
	url = "http://www.ingentaconnect.com/content/sgt/gt/2005/00000046/00000003/art00004"
}