SU1227438A1 - Method of opening grains of abrasive tool - Google Patents

Description

The invention relates to the production and operation of an abrasive tool and can be used when opening diamond grains of a tool on a metal bond.

The aim of the invention is to improve the quality of the opening of the grains without weakening their fixation in the bond by additionally acting on the surface of the circle with a fractional flow directed at an obtuse angle to the direction of the speed of movement of the tool.

Figure 1 shows a scheme for implementing the proposed method; Fig. 2 illustrates the effect of abrasive grains on the tool surface (node I in Fig. 1); FIG. 3 is the same as the fraction flow (node 1 in FIG. 1).

To open 1 diamond grains at tool 1, monitor 3 with flexible hoses 4 and 5 is used, and through hose 4, a suspension of abrasive grains is fed through pump 6 with kirchatka 7 from tank 8, and through hose 5 - compressed air. To supply the shot fraction, a monitor 9 with flexible hoses 10 and .11 is used, and a shot suspension is supplied through the hose 10 through a pump 12 with a pinch 13 from a tank 14, and through a pinch 11 - compressed air.

The opening of the grains is carried out as follows.

The flexible hose 4 in the slurry abrasive grains in the form of high-speed flow 15 is thrown onto the diamond layer 16 of the tool 1 at an angle oi. to the direction of the speed of movement of the tool V. The angle Ы is selected within the limits of 25–30, providing both the maximum removal of the metallic bond 17 and the exposure of the front face of the diamond grains 2,

Upon impact of the abrasive grains with a speed of the order of 100 m / s, intense erosion of the metal ligament 17 and exposure of the diamond grains 2 occur. In this case, the area of the metal ligament adjacent to the front face of the diamond grains 2 is more intensively worn and the face of the diamond grains is protected from flow and is generally not subject to wear.

After exposure of the diamond grains 2, the diamond layer 16 falls under the high-speed flow 18 of the fraction, which is ejected onto the diamond layer 16 of the tool 1 at an angle of 90 ° C to the direction of the speed of movement of the tool V. For example, glass beads with a diameter of 5-6 times smaller than the size of diamond grains are used as a shot. Upon impact of the shot with a speed of about 100 m / s, plastic deformation occurs, the work hardening and hardening of the bond 17, which leads to an increase in its wear resistance, an increase in the stability of diamond grains 2 and, ultimately, an increase in the durability of the diamond tool.

An example implementation of the proposed method.

The tool was opened in the form of a diamond disc saw with a diameter of 1100 mm with a diamond grain size of 630/500, concentration of 50% on the metal bond M. The speed of movement of the periphery of the saw in the process of opening was V, 0.002 m / s. In the process of opening the flow of abrasive grains, accelerated by the air flow, was directed with a large (about

100 m / s) speed on the diamond layer at an angle of SU 25 ° and c1 30 to the direction of the speed of movement of the periphery of the saw. Silicon carbide abrasive grains with an average grain size of 0.12 mm and their weight concentration in water of 15% were used. Sawing of the Gazganskoye field marble was carried out before the diamond circular saw was blunt. The test results showed that tool wear resistance increases by 1.35 times, a reduction in diamond consumption is 0.03 carats / m, and the tool processing performance increases by 1.3 times compared to the tool, the opening of which grains is carried out only by the flow of abrasive grains. .

Thus, an additional impact on the surface of the instrument with a stream of a fraction at an obtuse angle provides an improvement in the quality of opening its grains.

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17

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Claims (1)

METHOD FOR OPENING BEANS AB-. OF A DEVELOPING TOOL, according to which the tool is informed of uniform movement, and the work surface is exposed to a flow of abrasive grains directed at an acute angle to the direction of the tool’s speed of movement, which is characterized by the fact that, in order to improve the quality of opening, the tool’s working surface is additionally influenced by the flow fractions directed at an obtuse angle to the direction of the tool speed equal to 90 + c <, where c £ is the angle of influence of the flow of abrasive grains. 1 1227438