SU106928A1 - Method for determining the stability of colloidal systems against mechanical destruction - Google Patents

Description

Methods are known for determining the stability of counting systems against mechanical destruction using various types of penetrometers and viscometers, in particular rotary ones. A significant disadvantage of these methods is that they make it impossible to practically use the results obtained, since the mechanical properties are estimated by conventional empirical indicators, such as the number of penetration that does not characterize the operational properties.

This circumstance is primarily due to the fact that the mechanical destruction of the system is carried out in physically uncertain conditions.

In the described method, this disadvantage is eliminated by the fact that the test product is fed into the gap between the stator and the rotor of the device, where abrasion and destruction of the structure of the product under investigation occurs at a constant velocity gradient, temperature and a certain time of destruction, which can vary over wide ranges.

A longitudinal section of the device with which it is used to determine the stability of colloidal systems against mechanical destruction is shown in the drawing.

The main parts of the device are coaxially arranged stator 1 and rotor 2, driven by an electric motor or other drive, connected to the shank 3 of the rotor.

The alignment of the stator and the rotor, when the latter rotates, is ensured by mounting the rotor in ball bearings 4 placed in the upper 5 and lower 6 covers. The presence of cuts at an angle of 45 ° on the covers and a tight fit of the latter to the inner cylinder ensures reliable sealing of the device. In the top cover, at the hole for the rotor roller, there is a rubber seal-gland 7 pressed by a nut 8.

Tested lubrication. from the screw syringe through the opening 9 is fed into the gap between the stator and the rotor and, when the latter rotates, it is subjected to shear-fracture deformation.

Size; The instrument is selected in such a way that non-uniformity, for example, the condition of the flow of lubricant due to destruction in the gap between the rotor and the statute, is not njjeei.Hna.ia oKi. Removal of lubricant from the device is made through the opening 10.

For the P-set 1P1o 1 node's temperature, the device has a housing //, in which C: pk p1aet those) forming a liquid.

By varying the temperature of the ice, it is possible to vary the temperature of the lubricant at the moment when it is different from a wide range.

The change in the gradient of the shift rate of the flow is 1) the measure of the rotor speed, and the time spent on the destruction of the lubricant, by changing the speed of feeding the lubricant to the device 3 width. 1st floor: 1 hour with a lubricant Iropz lubricant:; one with a thermometer, which has a south-facing measurement in the channel to drain the lubricant from the instrument.

The colloidal system under investigation, the metal lubricant, is placed in the I screw screw, which is attached to the rotary device.

After that, the rotor of the device is brought in from 5adi 1M

rotational speed and rotation of the knob and the knob, lubricant is supplied to the rotary instrument at a given speed, and the thermostatically supplied fluid and its temperature are adjusted so that the lubricant, B151 inlet and 1, and from the device, has a predetermined temperature.

Upon reaching the installation of the operation of the plant, lubrication, leaving the device, sampling, research work.

Subject invention

The method of determining the number of systems in a p-type device; a tanyon-1 viscometer or elastometer, which is due to the fact that it does not have a definite stability. . As a result of the systems against mechanical destruction, the test product is fed into the gap between the stator and the rotor of the device, 1-ds causes wear and destruction of the structure of the test and product at a constant gradient of ecg), temperature and a certain time pa3pynjeHnH, which will decrease wide ranges.