Effects of Transition Metal Solutes on the Electrical Resistivity of Copper and Gold Between 4° and 1200°K

Abstract

We have determined the solute contribution ρ_i(T,c) of the solutes Cr, Mn, Fe, Co, and Ni in copper and of the solutes Mn, Fe, and Co in gold over the temperature range 4° to 1200°K and over a wide range of solute concentrations. The parameter ρ_i(T,c) for a given solute is defined here as the difference ρ_i(T,c) =ρ_alloy(T,c)—ρ_solvent(T). The temperature dependence of ρ_i is quite complicated for several of the solutes, in particular, Fe and Co. For example, in an alloy containing 0.05 at.%Fe in copper this quantity ρ_Fe exhibits a minimum at 25°K and a maximum at 65°K. Alloys of Fe in gold exhibit a broad maximum in ρ_Fe at temperatures between 70° and 200°K, depending upon the iron concentration. In all the alloys investigated, except for Ni in copper, ρ_i decreases with increasing temperature in the region of high temperatures (above about 500°K).