SU1646681A1 - Method for determining optimal cutting conditions - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to methods for determining optimal cutting conditions for all types of cutting. The purpose of the invention is to reduce the labor intensity and simplify the method for determining the cutting mode for any kind of machining. The application of magnetic induction, the application of a magnetic mark on the workpiece reflects the change in the elastic stress in the material, which is formed under the influence of cutting conditions. The optimal cutting mode is considered to be such a mode in which magnetic induction has a minimum value of 1 tab.

Description

The invention relates to mechanical engineering, in particular to methods for determining optimum cutting conditions. and is intended to determine the optimal modes for all types of cutting (turning milling, sharpening, grinding and other types of cutting).

The aim of the invention is to reduce the labor intensity and simplify the method for determining the optimal cutting mode (feed rate or depth) for any kind of machining (turning milling, grinding, sharpening).

The magnetic induction of the magnetic tag is chosen as the initial parameter. It is known that the energy of the elastic deformation W is equal to

W ACT

(one)

J

where A is the amount of deformation;

tension in the material. The specific energy balance is

Wa, (2)

where Wa is the specific mechanical energy arising due to the relative deformation A under the action of mechanical stress o;

 specific change in magnetic energy due to the value of Wa: In a more complete form

СЬ

I iQs

About 00

(w -, “n).

(3)

where fJ.o is a magnetic constant;

IMj and // n-magnetic permeability in the loaded and unloaded state;

N-tension sex in the material

Magnetic induction is equal to

J j N. (4)

Substituting the value through magnetic induction into formula (3), we obtain

La (Vs-Vn). (5)

PE N Denoting 2 a const, get

Yes a (aa - Vn). (6)

Thus, the application of magnetic induction of the applied magnetic mark reflects the change in the elastic stress in the material, which is formed under the influence of cutting conditions.

Example. To determine the optimal cutting speed when turning steel 45 with cutting tools with mechanical fastening of the cutting plates TN-20 without a tungsten plate, a magnetic mark is applied to the workpiece using a solenoid and the magnitude of the induction in the magnetic mark is measured at various cutting speeds.

The results are shown in the table. The optimum speed is 200 m / min, as the maximum speed corresponds to the smallest value of magnetic inductance (B 0.4).

In a similar way, it is possible to determine the optimum feed and cutting depth,

FORUMAWLAH AND ISLANDS

The method of determining the optimal cutting conditions, which consists in measuring the values of a preselected initial parameter under different cutting conditions, characterized in that, in order to reduce labor-intensiveness and simplification, magnetic induction is chosen as the initial parameter

the material being processed, put a magnetic mark on it, process it under different cutting conditions, record the magnitude of the magnetic induction and consider the optimum mode at which the magnetic induction has a minimum

value.

Claims (1)

10 FORMULA AND PORTRAIT The method of determining the optimal cutting conditions, which consists in measuring the values of a pre-selected initial parameter for various cutting modes, characterized in that, in order to reduce the complexity and simplification, the magnetic induction of the processed material is selected as the initial parameter, a magnetic mark is applied to the part, and it is processed under various cutting conditions, the magnitude of the magnetic induction is recorded and the one in which magnetic induction has a minimum value is considered the optimal mode. Parameter Research result Cutting speed, m / min Magnetic mark induction V, mTs 100 150 200 250 300 4.2 2.6 0.4 0.8 1.9