On the Plastic Deformation of Pure Solid Lithium Sulfate and Lithium—Potassium Sulfate Mixtures

Abstract

A simple rotational viscometer has been constructed for measurements at elevated temperatures in the region 10⁹ - 2 × 10¹² poise, and has been used to study the deformation of pure fcc lithium sulfate (temperature range 740-860°C) and mixtures of this salt with potassium sulfate. These substances resemble highly-viscous non-NEWTONian liquids, and for a given torque the apparent viscosity can be represented by the conventional relation η=η₀ exp (Q/R T). For pure lithium sulfate, measurements with a torque of 19 × 10⁷ dyne-cm gave the values η₀= 4.24 × 10^-4 poise and Q = 7.4 × 10⁴ cal/mole for the two constants. Two mixtures containing 1.0 and 2.2 mole-% K₂SO₄, respectively, were studied. In the homogeneous solid solution phase the viscosity showed a dependence on the thermal prehistory of the salt during the first few days at a given temperature. This effect was not detected for the pure lithium sulfate or for the two-phase region of the mixtures. The temperature dependence of the viscosity was less pronounced for the homogeneous phase than it was for the pure salt, while it was very great in the two-phase region. It is suggested that viscosity (or electrical conductivity) measurements should be a possible method to determine the position of the solidus curve for mixtures of this type.