SU654881A1 - Liquid viscosity determining method - Google Patents

Description

In the case when a given kinematic parameter is maintained (flow rate at pressure, flow rate or velocity of the moving boundary of the Cuett flow) and Y const, (T) y takes place for the Pearsonian fluid (0 | d. (T) y). This shows that heat generation increases rapidly with an increase in the strain rate, especially in the case of highly viscous media. This phenomenon limits the ability to conduct research at high strain rates.

Example. The viscosity of the Newtonian fluid (castor oil) was determined. It was determined that the viscosity of castor oil is constant | d, 10 P in the range of shear rates from 7 55 1 / s at a temperature of 7 ° 20 ° C, and in the range of shear rates from 1 / s to 1 / s, the viscosity continuously drops from 10 to 7.8 P.

The isothermal conditions suggest the constancy of temperature and, therefore, viscosity. At the same time, most studies do not deny the presence of thermal effects, especially in the field of high shear rates for high viscosity, therefore, in the practice of viscometry, it is a matter of detecting a disspative heating to make appropriate corrections to the formulas, which should be done in the above example after 7 55 1 / s.

To obtain comparative data, a parallel determination of the viscosity of the same castor oil was carried out in the absence of a heat sink. It was obtained: the viscosity is constant | a, 10 P in the range of shear rates from 7 0 to 1 / s, the temperature is constant. With an increase in shear rate, the temperature of castor oil rises continuously, and the viscosity drops: so at 71 150 s, 9 ° С, Л1 9.9 and, с-, 7 23.2 ° С,, 69 П,, 2 ° С, (AZ: 7.6 Pit. D., I.e., we obtain an unambiguous and

the continuous dependence of viscosity on temperature without errors associated with dissipative heating. From the above example, it follows that the disregard for the consideration of thermal effects leads to gross measurement errors and incorrect conclusions from them.

The proposed method for determining the viscosity of liquids should not be considered.

As one of the attempts to weaken the effect of the harmful self-heating effect on the measurements, this method creates conditions for the development of self-heating, using it for continuous heating of the liquid, while eliminating the temperature distribution in the working area.

Using this method of viscosity determination over existing ones provides the following advantages:

and improving the accuracy of measurements by eliminating the temperature distribution in the working area; enabling research of the rheological characteristics of various systems at high speeds

deformations; obtaining an unambiguous continuous dependence of viscosity on temperature due to the use of self-heating of the liquid, which significantly improves the quality of the products, the viscosity of which during the process must be controlled.

Claims (2)

1. USSR Author's Certificate No. 200309, cl. G 01N 11/14, 1966. 2. Pavlov, V.P. and Vinogradov, G.V. Reports of the Academy of Sciences of the USSR, 125, No. 5, 1061 (1959).