SU1602722A1 - Abrasive tool - Google Patents

Abstract

The invention relates to the manufacture of diamond tools used in the processing of stone, abrasive, ceramics. The purpose of the invention is to improve the performance and durability of the tool. This is achieved by the fact that a diamond tool contains a body and diamond grains fixed on it with two layers of ties: the first layer adjacent to the body includes adhesive-active components with diamond, for example chromium, titanium, iron, and the second is the main layer - components, providing the necessary durability of the bond, and including chromium, titanium, iron, nickel, chromium carbide and titanium carbide. The ratio of the components of the layers is the following, wt.%: 1 layer - chrome 45, -55,0

titanium - 12.0-15.0

iron 30.0-43.0

P layer - chrome 10.0-15.0

titanium 2.0-5.0

iron 35.0-55.0

nickel 5.0-8.0

chromium carbide 15.0-20.0

titanium carbide 13.0-17.0. 4 silt, 2 tab.

Description

The invention relates to the production of diamond tools used to process stone, abrasive, ceramics.

The aim of the invention is to improve the performance and durability of the tool.

FIG. I shows the tool # 1 tool; in FIG. 2-4 - phased manufacturing tool.

The abrasive tool contains a body and diamond grains fixed on it with two layers of the binder, the first layer is applied directly to the diamonds and contains adhesive-active components with diamond, and the second main layer is applied to the first one and consists of components providing the necessary wear resistance of the bond, B A bond for a diamond tool, including chromium, titanium, nickel, chromium carbide, titanium carbide, iron, the first layer consists of adhesion with diamond chromium, titanium, iron with a ratio of components., May.%:

Chrome 45.0-55.0

Titan12.0-15.0

Iron 30.0-43.0

and the base layer includes higher amounts of chromium and titanium carbides with a ratio of components, wt.%:

to

vj

Yu

SCHE

Chromium

Titanium

Nickel

Chromium carbide

Titanium carbide

Iron

10.0-15.0

2.0-5.0

5.0-8.0

15.0-20.0

13.0-17.0

35.0-55.0

The tie is applied to the tool body by the method of metallization spraying.

The tool includes a housing 1, on which a sublayer 2 is applied. On the underlayer 2 there are grains 3, fixed on the housing with two layers of ties: an adhesive window, an active layer 4 comprising chrome, titanium 9 iron and a main wear-resistant layer 5 including chromium, titanium, nickel, iron, chromium carbide, titanium carbide.

The tool can be made in the following way.

Sublayer 2 is applied to the body 1 prepared for spraying, which provides a good bond between the body and the binder (Fig. 2). On the sublayer with the aid of glue, diamond grains 3 are pre-fixed. After this, the first layer 4 of the bundle (Fig. 3) is applied consisting of adhesive-active diamond with chromium, titanium and. iron when the ratio of components, wt.% Cr 50, Ti 13,5; Fe 36.5. With a diamond grain size of 1600/1250, the thickness of this layer is 0.08-0.12 mm. Finally, diamonds are overgrown with a second layer of binder 5 (Fig, -4), including a masDg Cr of 12.5; Ni 6.5; Ti 3; chromium carbide 17.5; titanium carbide 15.0; Fe 45j5. After that, f open the tops of the diamond grains (Fig. -1),

Diamond tools were tested when machining the mounting holes of grinding wheels on a ceramic type 24 A 40 C2 C5 PI 300x50v x 127 in the following modes: cutting depth 1.5 MM, longitudinal tool feed 0.8 mm / rev; the rotational speed of the workpiece of the grinding wheel is 900 rpm; the frequency of the turning of the tool is 3000 rpm. The treatment was carried out without coolant. Fixed the number of diamond grains, torn from the working surface of the diamond tool,

0 5 Q

about

five

which is determined after 40% of diamond grain wear in height,

Table 1 shows the composition of the bonding layers.

Tools were equipped with diamonds ARS-3 1600/1250,

In tab. 2 shows the test results.

From tab. 2 shows that the efficiency of the proposed tool is greater than. Known. This is due to the presence of an adhesive layer with diamond binder, as well as the presence of a larger amount of carbides and titanium in the second layer of binder:

wear resistance of SVYAZ,

Claims (1)

Invention Formula 1, An abrasive tool comprising a body and diamond grains attached to the body with a bonding layer comprising chrome, titanium, nickel, iron, chromium carbide, and titanium carbide, characterized in that, del. To improve the performance and durability of the tool, it additionally contains an adhesive-active binder layer located between the case and the existing binder layer and comprising chromium, titanium and iron in the following ratio of components, mas: Chrom45.0-55.0 Titan12.0-15.0 Iron30.0-43.0 and the bonding layer contains components in the following ratio,% by weight: Chrome10.0-15.0 Titan2.0-5.0 Iron35.0-55.0 Nickel5.0-8.0 Carbide chroml15,0-20,0 Titanium carbide13.0-17.0 Note: The composition of the prototype is as follows, wt.%: Cr 25.0; Ni 15.0; Ti 5.0; chromium carbide 6.5; titanium carbide 2.0; Fe - 44. Table 2 FIG. five