SU1337730A1 - Device for determining limit shear stress of viscoplastic materials - Google Patents

Abstract

The invention relates to the field of rheology research in plastic masses and may find application in the pulp and paper and chemical industries. The purpose of the invention is to improve the measurement accuracy by creating a uniform shear field of the material under study when applying various modes of vibration activation. When voltage is applied to the vibrator coils, the bottom of the cuvette begins to perform periodic oscillations that generate pressure pulsations affecting the internal structure of the test mass, which leads to a change in the strength properties of the mass, which characterize the ultimate shear stress. 1 il. i (L her 00 with

Description

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The invention relates to devices for the investigation of rheology and in plastic materials and can be applied in the pulp and paper and chemical industries.

The purpose of the invention is to improve the measurement accuracy by creating a uniform shear field of the material under study when applying different modes of vibroactivation.

The drawing shows the device, a general view.

A device for determining the ultimate shear stress comprises a housing 1 and a cuvette 2 for the material to be used. The walls of the cuvette 2 are rigidly attached to the housing 1, and the bottom 3 of the cuvette 2 is made of an elastic material, such as rubber, and connected to the stem 4 of the oscillator, for example, with an electrodynamic vibrator 5. The working body in the form of a plate 6 is placed on the carriage 7, made with the ability to move relative to the cuvette 2 along the supporting surfaces 8 mounted on the housing 1 of the meter 9 shear force, such as a strain gauge, is fixed on the carriage 7 and connected to the loading device 10 by means of the thread 11.

The test mass, for example a suspension of sulphate pulp, is placed in a cuvette 2 and leveled in thickness. The voltage is applied to the coils of the vibrator 5, the bottom 3 of the cuvette 2 begins to perform periodic oscillations according to the selected mode of vibroactivation, which generate pressure pulsations affecting the test mass, which leads to a change in the strength properties of the mass, which characterize the ultimate shear stress. Since the side walls of the cuvette 2 do not oscillate and are rigidly attached to the device body 1, when

AND 2

A uniform shear field is created to the (5lePa11i x yiipyrofo of the bottom 3 of the cuvette 2n), which improves the accuracy of determining the shear force on the surface of the plate 6. A load is applied to the loading device 10 until the carriage 7 begins to move along the supporting surfaces 8. the shear occurring on the surface of the plate 6 at the moment of the beginning of the movement of the carriage 7 is recorded by the meter 9. The signal from the meter goes to the measuring complex, where it is processed and converted into the value of the shear force on the surface The shafts of plate 6 with this mode of vibroactivation.

Using the proposed technical solution, it is possible to determine p1 with low precision, the strength characteristics in optic plastic materials subjected to various vibroactivation modes in order to identify the optimal vibroactivation mode of materials to intensify technological processes, increase accuracy and save material resources.

Claims (1)

Invention Formula A device for determining the limiting stress and shear in the elastic masses, comprising a housing with a cuvette, a loading device, a plate-shaped working body and a shear force meter, characterized in that, in order to improve the measurement accuracy by creating a uniform shear field of the test material when applying different modes of vibroactivation, the bottom of the cuvette is made of elastic material, such as rubber, and is connected to the oscillator rod.