SU1173270A1 - Method of determining material friction ratio at plastic deformation by tool - Google Patents

Abstract

METHOD FOR DETERMINING THE MATERIAL COEFFICIENT AT S1ASTI-. CHECK DEFORMATION TOOL, which means that an axial force is applied to the axisymmetric sample and an additional force factor, the deformation parameters are measured, which determine the coefficient of friction, characterized in that, in order to improve accuracy, an additional force factor is applied along the axis of the sample and in the opposite direction with respect to the axial force, register the moment of occurrence of the sample deformation zone and determine the friction coefficient by the formula sinet / „) 2 si2jL, - 267UT Т + СО8в (. where g is the yield strength of the sample material; R is the sample radius before deformation; g is the radius of the tool deforming in accordance with crc; about the angle of inclination of the generator, the deformation point angle; P and the axial force and additional force factor, and as the axial force and additional power factor using hydrostatic pressure.

Description

1 The invention relates to experimental methods of mechanics of a deformable solid body, in particular to the processing of materials by pressure, and Can be used to determine the contact friction coefficient for various types of plastic deformation: drawing, rolling, extrusion, stamping, etc. The aim of the invention is to improve the accuracy of determining the coefficient of friction of the material in the α-region. deformation. The drawing shows schematically the device for implementing the proposed method. The device contains a high pressure container 1, a deforming element 2 installed therein, and sample 3 interacts with it. Container 1 contains a working chamber 4 and a backpressure chamber 5 designed to fill the working medium and connected to pressure gauges 6 and 7 the heating unit b provides. preset container temperature 1. Chambers 4 and 5 are connected respectively to a pump (not shown in the drawing and a choke (not shown in the drawing) The deformation rate of sample 3 and is changed by hydrostatic pressure determined by the capacity of the pumps. The method is as follows. 702 A working medium (e.g., a liquid) is supplied by a pump (not shown) to the working chamber 4 of the container 1. As a result, an axial force P, - acts on sample 3, which is recorded by a pressure gauge 7. Increase the force P Heads in which sample 3 begins to deform and move through tool 2. In this case, in chamber 5, counterpressure, the working medium is compressed, creating in chamber 5 an additional force factor P, directed along the axis of sample 3 and in opposite with respect to axial force P The value is recorded with the help of a manometer 6. The moment of occurrence of the sample deformation point is recorded — with the combined effect of the values P and E, and the coefficient of friction is determined using an approximate formula. Example. Sample 3, made of solder, is deformed at a speed of 1 mm / s through a steel tool with specified values of the angle of inclination of the forming cone and radius r of deforming over cus. The predetermined rate of deformation of the sample 3 is ensured by the pump capacity. A mixture of glycerol and ethylene glycol (1: 1) is used as the working medium. After measuring P and Pj and calculating using the formula, the coefficient of friction J 0.1 is obtained.

Claims (1)

THE METHOD FOR DETERMINING THE MATERIAL FRICTION FACTOR DURING PLASTIC - _ SAND DEFORMING WITH A TOOL, which consists in applying axial force and an additional force factor to an axisymmetric * model, measuring the deformation parameters, which determine the friction coefficient, which is different in order to to increase accuracy, an additional force factor is applied along the axis of the specimen and in the opposite direction with respect to the axial force, it registers the instant of occurrence of the deformation zone of the specimen and determines ffitsient friction formula sindL, x 2 sinoC ^=; ~ ““ Sov5. 'where ζ is the yield strength of the sample material; R is the radius of the sample before deformation; · G is the radius of the deforming band of the tool; оС - angle of inclination of the generatrix of the cone of the deformation zone; 'P and P _g - axial force and additional force factor, and as the axial force and additional force factor using hydrostatic pressure. 0- ^7., 1173270 I 1173270 2