SU1395992A2 - Method of determining flow characteristics of lubricant greases - Google Patents

Abstract

The invention relates to the field of studying the physical properties of substances, in particular to the study of the rheological properties of liquid-plastic disperse systems, and can be used to assess the quality of semi-fluid plastic lubricants. The purpose of the invention is to expand the range of systems being analyzed by determining the reliable rheological characteristics of disperse systems. The method involves passing the material under study through three successively connected capillaries with a variable flow rate while maintaining the pressure drop on one of the capillaries of a constant K complex, judging the rheological characteristics of the material under study.

Description

N3

The invention relates to the field of studying the physical properties of substances, in particular to the study of the rheological properties of liquid-plastic disperse systems, and can be used in assessing the quality of semi-fluid plastic greases.

The purpose of the invention is to expand the range of systems analyzed by determining reliable rheological characteristics of liquid-plastic disperse systems.

The goal is achieved by the fact that the material under study is additionally passed through the third successively connected capillary and according to the size of complex K, which is determined by the formula

K .. MRg Z & RZ

(one)

where A, A2 and AZ are constants defined by the geometric dimensions of the capillaries;

ЛР ,, ЛР and uPg - pressure drops on capillaries, rheological characteristics of the studied material are judged.

The value of the complex determined in the proposed method is

a ratio of Tf D 1- t

2, 3 — viscosity in three capillaries. Mecha visco 2; , shear stress and velocity D; shear there is a dependency

Where

DR; - differential pressure on the i-th capillary;

K; h L I - constructive dimensions of the i-ro capillary; radius and length, respectively; Q - consumption of the test material

through capillary ry.

The ratio (-,) / (2 2) with regard to formulas (2), (3) and (4), as well as the fact that the flow rate through three capillaries connected in series is the same, can be easily converted to the form (1):

four

(.-С-) ДР, Ьь

d

.R

(p) dr - (p) & p,

LJ, b,

10 l. - to

- A, LF, - A, DR, -

(five)

five

0

five

PRI me R. The tests were carried out for three samples of semi-solid lubricants - representatives of liquid-plastic dis- nepcHbix systems - type Transol-300, containing thickeners of 4.5 and 6% (concentration of 5% corresponded to the standard lubricant). Samples of lubricants were pumped through the measuring part, maintaining the pressure drop on the second capillary equal to 0.52 kg / cm. The differential pressure values on all capillaries for three samples of lubricants were measured with differential pressure gauges and, converted into unified signals, were applied to the input of a computing device, the output of which was a unified continuous signal proportional to the value of complex K, calculated by the formula

YOLR - DR,

TO

10LR - LR,

(6)

Claims (1)

Invention Formula The method for determining the rheological characteristics of greases according to ed. St. No. 1155914, l and h and y - y and so that, in order to expand the range of systems being analyzed by determining reliable rheological characteristics of liquid-plastic disperse systems, the pressure drop on the third series-connected capillary and the value of complex K are additionally measured formula A, YP, - AeRg AGlRg-ATiRG where A ,, A2 and Ae are the constants defined by the geometric dimensions of the capillaries; P,, uPj and & PJ - pressure drops on capillary, evaluate the rheological characteristics of the studied material.