RU2296314C1 - Method for determining friction coefficient - Google Patents

Abstract

FIELD: agricultural mechanical engineering, research of friction coefficients of materials.

SUBSTANCE: researched material is positioned on surface made in form of cylinder, rotation frequency of which is determined from formula

where n - cylinder rotation frequency, s^-1; g - free fall acceleration, m/s²; r - internal radius of cylinder, meters. Researched material is positioned on internal surface of cylinder, while friction coefficient is determined from formula

where α - angle of tow of researched material by cylinder, grad.

EFFECT: possible determining of friction coefficient of both solid and free-flowing materials without their advance fastening in special sample.

1 dwg

Description

The invention relates to the field of agricultural engineering, and in particular to methods for studying the coefficients of friction of materials.

A known method of determining the coefficient of friction, based on the placement of the test material on an inclined plane. The angle of inclination of the plane to the horizon is increased until the movement of the test material begins. This angle is the desired angle of friction, respectively, the tangent of this angle is equal to the coefficient of friction / 1 /.

The disadvantage of this method is that in this way it is impossible to study the coefficient of friction of bulk materials without first fixing them in a special sample.

The closest technical solution to the proposed invention is a method for determining the coefficient of friction, including the friction of the test material on a rotating surface made in the form of a flat disk, under the action of centrifugal force and friction force, the sample is deflected, which is then recorded in the diagram. Finally, the coefficient of friction is found by comparing the resulting table and the calibration schedule / 2 /.

The disadvantage of this method is the inability to conduct a study of the coefficient of friction of bulk materials without first fixing them in a special sample.

The objective of the present invention is to determine the coefficient of friction of both solid and bulk materials without first fixing them in a special sample.

The problem is achieved in that the surface on which the test material is placed is made in the form of a cylinder, the rotational speed of which is determined by the formula

where n is the cylinder speed, s ^-1 ;

g is the acceleration of gravity, m / s ² ;

r is the inner radius of the cylinder, m,

moreover, the test material is placed on the inner surface of the cylinder, while the friction coefficient is determined by the formula

where α is the angle of drag of the test material by the cylinder, deg.

The drawing shows a diagram of an installation for determining the coefficient of friction.

The device includes a cylinder 1 mounted on a shaft, in bearings and a drive mechanism 2. Inside the cylinder, the material under study is located 3. The device contains a graduated angle scale 4 located in the lower part of the installation, and an angle indicator 5. Moreover, the installation includes a set of cylinders 1 made from various materials.

The device operates as follows.

Cylinder 1, due to the drive mechanism 2, rotates with a constant frequency n, determined from the expression

where g is the acceleration of gravity, m / s ² ; r is the internal radius of the cylinder, m. If the rotation frequency is greater, then it is possible to capture the material due to centrifugal force and involve it in a circular motion together with the cylinder / 3 /. Reducing the speed will adversely affect the accuracy of research. Due to the friction force, the investigated material 3 will be pulled by the inner surface of the cylinder 1 by a certain angle α relative to the lower point of the inner surface of the cylinder 1. This angle is determined using an angle scale 4 and a manually moved angle indicator 5. The friction coefficient is determined by the formula

/3/.

/ 3 /.

Literature

1. Klenin N.I. Agricultural and reclamation machines. / N.I. Klenin., V.A. Sakun. - M .: Kolos, 1994, p. 18-21.

2. Sablikov M.V. Agreecultural machines. Agreecultural equipment. Part II / M.V.Sablikov. - M .: Kolos, 1968, p. 6-8.

3. Mechanical engineering. Encyclopedia. Ed. Advice: K.V. Frolov (pre) and others. M.: Mechanical Engineering. Agricultural machinery and equipment. T IV - 16 / I.P. Ksenevich, G.P. Varlamov, N.N. Kolchin and others; under the editorship of I.P. Ksenevich. 1998 .-- P.272.

Claims (1)

A method for determining the coefficient of friction, including the friction of the test material on a rotating surface, characterized in that the surface on which the test material is placed is made in the form of a cylinder, the rotational speed of which is determined by the formula

where n is the cylinder speed, s ^-1 ; g is the acceleration of gravity, m / s ² ; r is the inner radius of the cylinder, m, moreover, the test material is placed on the inner surface of the cylinder, while the friction coefficient is determined by the formula

where α is the angle of drag of the test material by the cylinder, deg.