SU1740111A1 - Method of treating diamond rock-decomposing bits with die from tungsten-cobalt mixtures with copper impregnating compound - Google Patents

Abstract

The invention relates to the manufacture of drilling tools containing diamonds in a matrix of sintered powder material, and can be used in the mining industry in the manufacture of diamond rock-crowns. The purpose of the invention is to increase the wear resistance. The method includes dimensional electrochemical sharpening of a diamond rock-cutting crown, the matrix of which is formed of copper-impregnated tungsten-cobalt powder mixtures, and subsequent cryogenic treatment, carried out by immersing the crown in liquid nitrogen with aging in it until the surface is soothed. The method provides savings in penetration by increasing the service life of the tool and by increasing the average penetration rate, (L C

Description

The invention relates to the manufacture of drilling tools containing diamonds contained in a matrix of sintered powder material, and can be used in the manufacture of diamond crown.

A known method of manufacturing a diamond drilling tool, including filling diamond, placed in a form with a powder mixture, impregnation of the mixture with a metal melt and pressing.

However, this method does not allow to obtain a tool with high wear resistance and does not allow to control the output value depending on the physicochemical properties of the passable rocks.

Similar drawbacks also characterize another well-known method of treating a diamond drilling tool, in which, although an improvement is applied in the form of a cryogenic treatment of a mold after impregnation of a powder mixture that forms a matrix, with a liquid metal, high performance properties are not achieved.

The closest to the proposed method is the processing of diamond rock-breaking crowns with a matrix of tungsten-cobalt mixtures with copper impregnation (prototype), which includes the operation of dimensional electrochemical machining. The use of dimensional electrochemical treatment informs the method

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useful properties, which consist in the possibility of varying the value of output (i.e., the amount of diamonds protruding above the surface of the matrix) depending on the physicomechanical properties of passable rocks.

However, it is not possible to improve tool wear resistance using this method.

The purpose of the invention is to increase wear resistance.

The delivered chain is achieved by the fact that in the method of processing diamond rock-breaking crowns with a matrix of tungsten-cobalt mixtures with copper impregnation, including dimensional electrochemical sharpening, according to the invention, after dimensional electrochemical sharpening, the crown is subjected to cryogenic treatment by immersion in liquid nitrogen with aging to calm its surface .

The method is carried out as follows.

Example. A serial diamond crown with a matrix of copper impregnated tungsten-molybdenum mixture is degreased in a stream of white spirit, then dried and placed in an electrolyte medium in an electrochemical sharpening device, according to a well-known technique. After sharpening on

The required release size of the instrument is washed, dried, and installed in a cassette, immersed in a container with liquid nitrogen. After holding (approximately 8–10 min), when the nitrogen surface is calmed down, the cartridge is removed from the container and the diamond tool is laid out on a rubber mat, protected from shocks. After heating in atmospheric air, the instrument is ready for operation.

Industrial experiments have shown that the claimed method increases the wear resistance of diamond rock-cutting tools such as crowns.

By increasing the service life of the tool and by increasing the average penetration rate, the economy is more than 5 rubles per meter of drilling.

Claims (1)

DETAILED DESCRIPTION A method for treating diamond rock-breaking crowns with a matrix of tungsten-cobalt mixtures with copper impregnation, including dimensional electrochemical grinding, characterized in that, in order to improve wear resistance, after dimensional electrochemical grinding, the crown is subjected to cryogenic treatment by immersion in liquid nitrogen with calm its surface.