SU1311853A1 - Method of determining mean coefficient of friction when machining with revolving cutting tool - Google Patents

Abstract

The invention relates to the processing of materials by cutting and can be used in experimental studies to determine the optimal operating conditions of the tool. The aim of the invention is to reduce the laboriousness of the process by determining the coefficient of friction by changing the speed of rotation of the tool. When machining the workpiece alternately with two rotating cutters, making different helix elevation angles cutting edges and set at the same angle relative to the workpiece, their rotational speeds are measured with the same processing parameters and the average coefficient of friction is determined from the fcp ratio , - with sin jUj): (cos / Z, -c cos / uj, where with Vp,: Vp.;) Y ™, the cutting edge helix for the first and second incisors, respectively; VP - speeds of the direction V, P2 of the first and second incisors respectively. 2 Il. JV eo JV with

Description

113

The invention relates to the processing of materials by cutting and can be used in experimental studies to determine the optimal operating conditions of the tool.

The purpose of the invention is to reduce the process time by determining the coefficient of friction by changing the speed of rotation of the tool.

FIG. 1 shows a cutting edge processing scheme with the right direction of the helix; in fig. 2 - the same, with the left direction of the helix.

The method is carried out in the following way.

The workpiece rotating with speed V is processed by cutter 2 provided with cutting edges 3 with oppositely directed helical lines, which are set at an angle and relative to the surface to be machined and move along axis 4 of workpiece 1 with feed equal to S and cutting depth t.

At the same time, during one revolution of the cutter, the value of its rotational speed Vp is measured separately; when the cutting edge is removed, the helix and Vp are directed in the right direction, when the cutting edge is removed from the left direction and the substitute is removed. velocity values found in the form

lou

 sin | U + with sin / Uz

35

Where

 cos fu, - where with Vp; / Vp;

with cos

R.

j “,, jU4 Vp, / Vp

cronesV

P,

 fz cutting angles of cutting

mock with right and left helix boards, respectively; jU ,, the angles of rise of the cutting edges Q Vp, Vp - the speed of rotation of the tool

- when processing the workpiece

cutting edges with right and left helix directions, respectively.

V "

with the right and left directions of the screw lines, respectively;

- speed of rotation of the cutter when processing the workpiece

cutting edges with right and left helix directions, respectively, determine the desired friction coefficient.

The application of the proposed method reduces the time and simplifies the process of determining the average coefficient of friction when machining with a rotating cutter and can be used in workshop conditions for establishing optimal operating modes of the tool.

Claims (1)

Invention Formula The method for determining the average coefficient of friction when machining with a rotating cutter, provided with cutting edges with oppositely directed screw lines, is different. Since, in order to reduce the process time, the treatment is carried out alternately with cutting edges with right and left helix directions, the corresponding rotation speeds of the tool are measured during its one revolution, the average coefficient of friction is determined from the ratio - p - + s, sin / i / a cos / u, with COS /, Vp, / Vp crown fz lifting angles cutting mock with right and left helix boards, respectively; - cutter rotation speed V " Compiled by V. Zolotov Editor A. Kozoriz Tehred N. Glucenko Proofreader L. Patay 1918/11 Circulation 976 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35 Raushsk nab. 4/5 Production and printing company, Uzhgorod, st. Project, 4 FIG. 2