RU2429195C1 - Procedure for surface of diamond grains roughing - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: procedure for surface of diamond grains roughing consists in mixing diamond grains with metal powder and in heating obtained mixture to temperature of 800-1100°C in vacuum as high, as 10^-2-10^-4 mm. As metal powders there are taken powders of iron, nickel, cobalt, manganese, chromium, their alloys or mixtures. Powders not inter-reacting with diamond grains at heating can be added to the mixture.

EFFECT: fabrication of diamond grains with optimal amount of recesses, possessing specified geometric parametres; reduced losses of diamond material and maintaining strength characteristics of grains.

4 cl, 1 dwg

Description

The invention relates to the field of processing diamond grains, and more particularly to obtaining roughness on the surface of diamond grains. Such grains can be used for the manufacture of diamond tools, such as grinding wheels, a straightening tool, a tool for drilling equipment, for instrumentation, etc.

It is known that the performance of a diamond tool to a large extent depends on the holding strength of diamond grains by a bundle during the operation of the tool. In the manufacture of organic-bonded diamond tools, mainly low-strength diamond grains, such as AC2, AC4 and AC6, are used, which are shaped in the form of aggregates, splices, debris. Such grains have a developed surface. Due to the development of the surface, they are well held by the bunch. In tools on metal bundles manufactured by the method of electroplating or electroplating or by the methods of powder metallurgy, soldering, etc. and intended, for example, for processing difficult materials with large material removal, high-strength diamond grains are used, which are whole crystals, crystal fragments, splices, i.e. crystals that have mostly flat or non-planar smooth surfaces. Such grains have poor adhesion to the ligament and fall out during the operation of the tool before they are completely worn out. To improve the holding strength of diamond grains in such tools, either a bond is formed that forms an adhesive bond with diamond grains, or a metal coating is applied to the surface of the grain, which also forms an adhesive bond with both the surface of the diamond grains and the metal bonding binder. These methods of improving the retention of diamond grains in a bunch are not always possible to apply. For example, in the manufacture of galvanically coupled tools, they are unacceptable, because the fixing of diamond grains on the surface of the body occurs only due to mechanical adhesion forces, and the use of metallized grains causes dendritic formation on the surface of the tool. Another way to improve the bonding of diamond grains with a bundle is to apply roughness to a smooth surface of diamond grains, which is a different type of recess, pit, etc. In the manufacture of the tool, the binder material enters these recesses and more reliably holds the grains in the bundle.

A known method of obtaining roughness on the surface of diamond grains, in which diamond grains are subjected to etching by keeping them in molten nitrate - potassium nitrate at a temperature of about 700 ° C. As a result of etching, recesses and grooves appear on the surface of the diamond grain, which are filled with the ligament material during the manufacture of the tool, firmly holding the grains during the operation of the tool (German patent No. 1108641, Е21В, 1957, US patent No. 5349342, CL 51-298, 1968). The disadvantage of this method is that when nitrate is treated, in addition to the formation of depressions, not only the surface of the diamond grain is etched, but sharp cutting edges and crystal angles are more intensely etched, which leads to a significant loss in the weight of the diamond material and a sharp decrease in grain strength in general . This is especially true for synthetic diamonds.

Closest to the proposed solution is a method of obtaining a roughness on the surface of diamond grains described in the application of Germany No. 3625743, class. СВВ 31/06, 1986). The method consists in the fact that diamond powders are mixed with metal powders, the mixture is placed in a hydrogen or hydrogen-containing medium, heated to 700-900 ° C and kept for some time. As metal powders take iron, cobalt, nickel, their mixture or alloy. When heated, diamond carbon diffuses into metal particles with which the grain surface is in contact, and hydrogen reacts with the carbon dissolved in the solid metal to form methane gas. The disadvantage of this method is that the process of removing diamond material from the surface of diamond grains in hydrogen or a hydrogen-containing medium is continuous, depending on the partial pressure and humidity of H ₂ , and therefore is difficult to control. As a result, too large depressions may form on the surface of the diamond grain and, accordingly, there will be large losses of diamond material and, consequently, severe destruction of the diamond crystal. In addition, the method does not provide for the possibility of obtaining the optimal number of recesses on the surface of the diamond grain, and this is also associated with a loss of crystal strength and unreasonable loss of diamond material. In addition, the hydrogen medium during the various processes is explosive, and also requires constant monitoring.

The technical task is to simplify the method of obtaining roughness on the surface of diamond grains, the possibility of obtaining diamond grains with the optimal number of depressions on the grain surface and the optimal geometric parameters of these depressions, and as a result, reducing the loss of diamond material and maintaining the strength characteristics of the grains.

The technical result is achieved by the fact that in the method of obtaining roughness on the surface of diamond grains, comprising mixing diamond grains with metal powder, heating the mixture and separating diamond grains from metal powders, the mixture is heated in vacuum at a temperature of 800-1100 ° C.

As metal powders, powders of iron, nickel, cobalt, manganese, chromium, their alloys or mixtures are taken.

To separate diamond grains from metal powders after heat treatment, diamond grains are exposed to acid.

To regulate the number of recesses (etching pits) on the surface of diamond grains, powders are added to the mixture of diamond grains and metal powders, which, when heated, do not interact with diamond grains. As such powders can be used, for example, powders of oxides, carbides, nitrides, silicides, etc.

The photograph (see figure 1) shows the surface relief of the diamond grain after heating it in the presence of a metal powder in vacuum.

The method is as follows.

Diamond grains are mixed with a metal powder, which is taken as powders of iron, nickel, cobalt, manganese, their alloys or a mixture. These metal powders in the presence of diamond form solid solutions and carbide compounds at fairly low temperatures - 800-1100 ° C. The amount of metal powder should be such that all diamond grains are surrounded by it. A vacuum is created in the device and the mixture is heated to a temperature of 800-1100 ° C. The magnitude of the vacuum is 10 ^-2 -10 ^-4 mm RT.article The exposure time at a temperature of 0.5-1.5 hours. When heated to the indicated temperature, metal powders that come in contact with the surface of diamond grains form solid solutions and carbides at the contact points due to the carbon of the diamond material. With an almost complete transition of the metal powder to the carbide state, the process will practically stop. Thus, the depth and geometry of the pit formed on the surface of diamond grains can be controlled by the size of the metal powder, temperature, and heating time. At a temperature lower than 800 ° С, the process of dissolution of diamond carbon in a metal proceeds too slowly, and a temperature higher than 1100 ° С is impractical, because heating diamonds above this temperature reduces the toughness of rough diamonds. After cooling, the sintered brittle agglomerate, consisting of diamond grains and metal powder, is destroyed and diamond grains are isolated from the bulk of the crushed agglomerate. Isolated diamond grains are “hedgehog” grains, on the surface of which metal powders are firmly adhered to the grain due to the formation of a carbide phase. Diamond grains with attached metal powders are treated with an acid or mixture of acids to dissolve the metal and carbides. The surface relief of the processed diamond grain includes flat areas and depressions obtained by the reaction of carbon of diamond material and metal powder.

The choice of the size of metal powders is determined mainly by the required dimensions of the recesses that must be obtained on the surface of the grain, the size of the initial diamond grains, etc. It is generally proposed to take powders from 1 μm to 45 μm. But you can take larger metal powders.

The number of recesses on the surface of diamond grains is controlled by the introduction of powders into the mixture, which, when heated under the indicated processing conditions, do not interact with diamond grains. In this case, a partial replacement of metal powders occurs, as a result of which the number of contacts of the diamond grain - metal powder decreases and, accordingly, the total number of depressions on the surface of the diamond grain decreases. The processing of diamond grains is also carried out as described above. As powders that do not interact with diamond grain during heating, for example, powders of oxides, carbides, nitrides, silicides (alumina, silicon carbide, tungsten carbide, etc.) are taken.

These powders may be proportional to metal powders, but may be finer or larger than metal powders.

On the surface of the diamond powder in the described manner, you can get recesses - pits of various shapes, because The method of processing diamond grains in vacuum allows you to copy the surface shape of the metal powder. For this, it is possible, for example, to take the initial metal powders obtained by various technology of their preparation, which most often determines the shape of the powder grains. So, for example, powders obtained by spraying have a spherical shape, powders obtained by reduction have an indefinite shape, and chemically they have a flaky shape. To obtain recesses having a dendritic surface, dendritic powders should be taken.

Thus, the proposed method for obtaining roughness on the surface of diamond grains allows, without complicating the process, to obtain depressions (etching pits) on the surface of diamond grains of the required dimensions, in the required amount, of the desired shapes without significantly reducing their initial strength.

Claims (4)

1. A method of obtaining a roughness on the surface of diamond grains, comprising mixing diamond grains with metal powder, heating the mixture and separating the diamond grains from metal powders, characterized in that the mixture is heated in vacuum at a temperature of 800-1100 ° C. 2. The method according to claim 1, characterized in that the powders of iron, nickel, cobalt, manganese, chromium, their alloys or mixtures are taken as metal powders. 3. The method according to claim 1, characterized in that they are exposed to acids to separate diamond grains from metal powders after heating. 4. The method according to claim 1, characterized in that powders are added to the mixture of diamond grains and metal powders, which, when heated, do not interact with diamond grains.

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