RU2078676C1 - Combined strengthening treatment method - Google Patents

Abstract

FIELD: plastic working of metals. SUBSTANCE: method involves simultaneously applying deforming force of working tool and cyclically changing magnetic field of variable intensity to surface to be treated, with magnetic field and working tool being displaced relative to mentioned surface; orienting lines of magnetic field at an angle of 90 deg relative to direction of tangential component of deforming force during treatment. EFFECT: increased efficiency and improved quality of treated product. 2 cl, 1 dwg

Description

 The invention relates to mechanical engineering technology, to combined methods of surface treatment of metal parts, including surface plastic deformation and magnetic processing. The method provides for the regulated direction of the magnetic field lines relative to the direction of the tangential component of the deformation force.

 Known static methods of finishing and hardening treatment by surface plastic deformation (OUO PPD) methods of rolling and smoothing [1] consisting in plastic deformation of the surface layer of the workpiece in order to improve the quality of the processed surface. Known methods of OUO PPD provide insufficiently high quality of the treated surface.

 A known method of hardening steel parts and a device for its implementation [2] which consists in simultaneously influencing the workpiece surface of the deforming force of the working tool and an alternating magnetic field. The treated surface is not of high enough quality due to the incomplete use of the potential capabilities of the method due to the arbitrary direction of the magnetic field lines.

 The purpose of the invention is to improve the surface quality of the part due to the regulation of the direction of the lines of force of the magnetic field relative to the direction of the tangential component of the deformation force.

The goal is achieved in that the direction of the magnetic field lines during combined hardening processing is regulated with respect to the direction of the tangential component of the deformation force and makes an angle of 90 ^° .

 The drawing shows a diagram of the implementation of the proposed method of combined hardening processing in the conditions of diamond smoothing and the simultaneous magnetization reversal of flat surfaces when working on planing machines.

 The method of combined hardening treatment is as follows.

Part 1 (see drawing) is fixed on a metal cutting machine, such as a planer, on a table or in a vice. In the tool holder of the machine 2 is mounted a deforming device 3 containing a tool 4. On the deforming device by means of an insulating dielectric strip 5, a magnetic circuit 6 is installed with an electric winding 7 connected to an alternating current electric power source. The magnetic circuit 6 is oriented relative to the deforming device 3 so that the direction of the magnetic field lines during combined hardening processing relative to the direction of the tangential component of the deformation force is an angle of 90 ^o . When working on planing machines, the direction of action of the tangential component of the deformation force coincides with the direction of the speed of relative movement of the part and tool. The deforming tool is brought into contact with the workpiece with a predetermined force, while ensuring that there is a gap between the magnetic circuit and the surface to be machined, the drive for moving the working parts of the machine is turned on, and the electrical winding 7 of the magnetic circuit 6 is connected to a power source.

 The interaction of a cyclically changing magnetic wave and a wave of plastic deformation in the contact zone of the tool and the workpiece facilitates the dislocation exit to the surface, grain crushing, and the formation of a new fine-grained structure of the material, characterized by higher mechanical properties. The regulation of the direction of the magnetic field lines relative to the direction of propagation of the plastic strain wave, which coincides with the direction of the tangential component of the deformation force, contributes to an even more active flow of dislocations and carbon atoms from the deep layers to the surface of the part, which makes it possible to intensify the SPD process.

и направлением тангенциальной составляющей силы деформирования

(см. чертеж).The effectiveness of the proposed method is confirmed by the experimental data presented in the table obtained by measuring the microhardness of the flat surfaces of samples of steels 45 and 38 XC, processed on a planer with diamond smoothing and cyclically changing, variable in magnitude magnetic field moving relative to the part together with the tool. The processing was carried out with different values of the angle between the direction of the magnetic field lines

and direction of the tangential component of the deformation force

(see drawing).

 The proposed method of combined hardening treatment can significantly improve the quality of the treated surface of the part.

Claims (2)

 1. The method of combined hardening processing, which consists in simultaneously influencing the work surface of the deforming force of the working tool and cyclically changing, variable in magnitude of the magnetic field moving relative to the workpiece together with the tool, characterized in that during processing the magnetic field lines are oriented relative to the tangential direction component of the deformation force. 2. The method according to claim 1, characterized in that the magnetic field lines form an angle of 90 ^° with the direction of the tangential component of the deformation force.

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