SU1247724A1 - Device for determining friction coefficient of particle materials - Google Patents

Abstract

The invention relates to a technique for tribological testing, and can be used to evaluate the friction of dispersed materials. The purpose of the invention is to increase accuracy and performance due to the height of the chamber in the form of a container with flat transparent walls, on which calibration curves of the values of the theoretically calculated friction coefficients are plotted, and the registration of the coefficients of friction are performed with a strobe when the camera rotates about an axis parallel to the flat walls . 1 il. g GO 4 KO 4iik

Description

The invention relates to a technique for tribological testing and can be used to evaluate friction materials used in construction, powder metallurgy or mining.

The purpose of the invention is to improve the accuracy and productivity of the coefficient of friction assessment of dispersed materials. ten

The goal is achieved by making the camera in the form of a container with flat transparent walls, on which the calibration curves are plotted of theoretically calculated friction coefficients, and the registration of the coefficients of friction is performed with a strobe when the camera rotates about an axis parallel to the flat walls.

The drawing schematically shows the proposed device.

The device comprises a base 1, a camera 2, a drive 3 of the rotational movement of the camera 2, a bearing 4 and a stroboscope (not shown). One of the walls 25 5 of the chamber 2 is made of an optically transparent material, and the calibration curves of 6 values of the theoretically calculated friction coefficients are plotted on it .30

The device works as follows (once.

The dispersed material under study is poured into chamber 2 and, with the aid of actuator 3, the chamber is rotated about a vertical axis. In this case, the dispersed material under the action of centrifugal forces is distributed in the chamber so that its free surface takes the form, for example, dd, which is close to a paraboloid of rotation. Che15

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cut transparent wall 5 s. using a stroboscope, one observes the curve formed in the contact between the dispersed material and the wall 5, i.e. behind the vertical cross section curve of the resulting free nosepXHOcTt rotation. The magnitude of the coefficient of dispersion of the dispersed material is determined by the calibration curve 6, which best matches the curve of the free surface section.

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The use of this device can significantly increase the accuracy

15 estimates of the coefficient of friction of dispersed material due to an increase in the number of measurements, and an increase in productivity is achieved by a simple evaluation method, eliminating the use of measurements of the shape of the cross section curve of the resulting free rotational surface.

Claims (1)

Invention Formula A device for determining the coefficient of friction of dispersed materials, comprising a base for placing the dispersed material, rotational movement of the chamber, as well as means for recording the coefficient of friction, which is different. so that, in order to improve accuracy and performance, the camera is made in the form of a tank with flat transparent walls, on which calibration curves of values are plotted. The theoretically calculated coefficients of friction, and the means for recording the coefficient of friction are made in the form of a stroboscope. VIIIPI Lakaz 4116/41 .. Circulation 778 Subscription Random polygons pr-tie, Uzhgorod, st. Project, 4 Subscription