RU4093U1 - ABRASIVE TOOL - Google Patents

Abstract

1. An abrasive tool containing a working part made of a mixture of diamond grains and filler particles rigidly bound by a metal binder, distributed over its volume, and a holder placed in the central zone of the working part, characterized in that the holder has nests designed to be placed in them parts of diamond grains and / or filler particles, the connection of diamond grains with a metal binder is made in the form of a cladding metal film deposited on their surface, and the outer surface of the working part is made with a roughness commensurate with the size of diamond grains. The tool according to claim 1, characterized in that the working part contains up to 95% of filler particles with a hardness of less than 1.5 times less than the hardness of diamond grains and more than 1.5 times more brittleness. The tool according to claim 1, characterized in that the filler of the working part is made of SiO.4. Tool according to claim 1, characterized in that the filler particles are made in the form of metal granules and/or metal alloy. The tool according to claim 1, characterized in that the metal binder of the working part is made of cupronickel.

Description

ABRASIVE TOOL.

This utility model relates to the production of abrasive tools based on the manufacture of an abrasive mixture from materials with different characteristics in hardness and brittleness.

Known metal-abrasive tools obtained by electrochemical methods or sintering, including hot extrusion of powder blanks in various protective environments. The technologies used for this purpose, due to the large number of variable factors, impede the stability of the main parameters in serial production, which in some cases reduces the quality of manufactured tools 1, 2.

The closest in technical essence to this is an abrasive tool, the manufacturing method of which is described in 3.

Known abrasive tool contains a holder rigidly bonded to the working part, made in the form of a mixture of abrasive diamond grains and particles of a filler with a metal binder.

The disadvantage of the prototype is the loss of working properties when sparkling from the surface of the working part of the diamond grains. In addition, in the case of the formation of voids and cavities during twisting in the tool body, its wear resistance decreases.

at 24 D 17/00. „The technical result of the proposed utility model is to increase the quality of the working properties of the manufactured tool through the use of a mixture of diamond abrasive grains and brittle filler particles comparable with their size with a binder material from which the working part of the tool is formed. Occurring during operation sparking the outer surface of the tool in this case leads to the formation of pores, chips, etc., which do not worsen, but improve the abrasive cutting functions of the tool, due to better conditions for the removal of grinding materials and an increase in the shoulder of the cutting link, increasing the tool life. The indicated technical result of the claimed utility model is achieved by the fact that an abrasive tool containing a working part made of a mixture of diamond grains rigidly bonded by means of a metal binder and comparable filler particles distributed over its volume, and the holder located in the central zone of the working part has sockets designed to accommodate parts of diamond grains and / or filler particles in them, the bond of diamond grains with a metal binder is made in the form deposited on their surface clad metal film, the outer surface of the working part is made rough. The working part contains up to 95% of filler particles with a hardness of less than 1.5 times less than the hardness of diamond grains and more than 1.5 times greater brittleness. In addition, the working part contains filler particles of Si02, for example, glass, sand and / or quartz. In addition, the working part contains filler particles in the form of granules of metal and / or metal alloy. In addition, the metal binder of the working part is made of cupronickel. The utility model is illustrated by the following illustrations.

Figure 1 shows the appearance of the tool. Fig. 2a shows the outer surface of the tool with a chip formed. On Fig - various particles are shown on the outer surface, creating due to the lever arm with support the moment of additional exposure. Fig. 3 shows a diamond grain coated with a metal film (for example, molybdenum) by cladding it for better fixation in the molten metal that binds the diamond grains.

Figure 1 shows a tool containing a holder, with sockets 2, a metal bundle 3, sockets 2 are designed to accommodate part of the diamond grains 4 and / or particles of filler 5 in them, a block form in the form of a graphite glass in which the tool is made, rough surface 7 of the outer side of the working part of the tool.

In Fig. 3, diamond grain 4 is shown with a clad metal film 8 deposited on its surface.

The working part of the tool is formed by a mixture of diamond grains 4 with a metal film 8, filler particles 5 and a metal binder 3 (metal binder).

The tool is as follows.

Take the block form 6 in the form of a graphite glass, the inner walls of which have a roughness of 7, the dimensions of the irregularities

which are commensurate with the size of diamond grains.

In the central part of the block mold 6, a holder 1 is placed, which has slots 2 designed to accommodate diamond grains 4 and / or filler particles 5 in them. Diamond grains are pre-coated with a metal film 8 by cladding. The block form is filled over the entire volume with clad diamond grains 4 and filler particles 5. Then fill the filled block form with a metal binder 3 in the molten state.

Pre-cladding of diamond grains 4 with a metal film 8 allows during the curing of the molten metal binder 3 in a mixture of diamond grains 4 coated with a metal film 8 and filler particles 5 to form the working part of the abrasive tool by means of diffusion processes between all components involved in its manufacturing.

1. The author's certificate of the USSR N 1703718 C25D5 / 02, 1989

2. The author's certificate of the USSR N 1705052, B24D3 / 34.1988

3. The author's certificate of the USSR N 2042499, B24D 17/00, 1995 / prototype.

Claims (5)

1. An abrasive tool containing a working part made of a mixture of diamond grains rigidly bonded by means of a metal binder and filler particles distributed over its volume, and a holder located in the central zone of the working part, characterized in that the holder has slots designed to be placed in them parts of diamond grains and / or filler particles, the bond of diamond grains with a metal binder is made in the form of a clad metal film deposited on their surface, and the outer surface of the working parts made with a roughness commensurate with the size of the diamond grains.  2. The tool according to claim 1, characterized in that the working part contains up to 95% of filler particles with a hardness of less than 1.5 times less than the hardness of diamond grains and more than 1.5 times more brittle.  3. The tool according to claim 1, characterized in that the filler of the working part is made of SiO.  4. The tool according to claim 1, characterized in that the filler particles are made in the form of granules of a metal and / or metal alloy. 5. The tool according to claim 1, characterized in that the metal binder of the working part is made of cupronickel.