SU1068276A1 - Metallic binder for abrasive tool manufacture - Google Patents

Abstract

METAL BOND FOR THE MANUFACTURE OF ABRASIVE TOOLS, containing gallium, copper and oloyo, characterized in that, with the aim of increasing the productivity and durability of the tool when working with coolant on a spring basis, it additionally contains sulfur in the following correlation of components. wt.%: 32.9-73.9 Gallium 25.0-63.0 Copper 1.0-20.0 Tin 0.1-5.0 Sulfur

Description

The invention relates to the manufacture of an abrasive tool, incl. diamond, on metal bonds by powder metallurgy. The known metallic bond for the manufacture of an abrasive tool containing gallium, copper and tin, 1J. However, a tool made on a known bond requires frequent dressing, which leads to a decrease in productivity and an increase in abrasive consumption. The aim of the invention is to increase the productivity and durability of the tool when working with water-based coolant. The goal is achieved by the fact that the metallic bond for the manufacture of abrasive tools, including gallium, copper and tin, additionally contains sulfur in the following ratios of components, wt.% Gallium32.9-73.9 Copper25.0-63.0 Tin1.0 -20.0 Sulfur 0.1-5.0 The introduction of sulfur makes it possible to obtain in the binder composition evenly spaced intermetallic compounds, GagS, etc., which are formed due to the addition of gallium with sulfur. In their turn, these non-metallic metals interact with water, decomposing or dissolving in it. This process contributes to uniform wear of the wheel when using water as a coolant and prevents clogging of the wheel when it is used. The incorporation of sulfur in an amount of less than 0.1 wt.% Is insufficient to improve the performance of the wheel, and the introduction of sulfur over 5 wt.% Leads to excessive embrittlement of the bond and wear of the tool. The manufacturing technology of the proposed binder is as follows: liquid gallium or its liquid alloy with tin is mixed with copper powder at 35 ° C using pure gallium or using its alloy with tin; sulfur is then added to the mixture and mixed further; Alg gas powder is introduced into the powder composition thus obtained and poured into the mold; after cold briquetting, the bond is sintered at, then the mold is removed from the furnace and subjected to hot pre-pressing: the specific pressure of cold briquetting and hot pre-pressing is 1.5 tf / m. The binder compositions are listed in Table 1. Table 1

Based on the above compositions, tools with a diamond concentration of 100 were manufactured.

A performance comparison was made with a tool containing the same amount of diamonds as on the known bond, as well as the basic bond M25 (copper, tin, zirconium diboride.

The tests were carried out under the following conditions.

Equipment - modernized

machine mod. SP-b. . Technological modes:

speed of the circle is 80 rpm. speed of the billet is 1000 rpm. longitudinal feed 30. х / min Semi-finished products of diamonds with a diameter of 3.8-4 / 0 MT-I were processed. Coolant - water. The results of the test circles on

compounds 1-4, known and basic

(M25) are given in table. 2

As a result of the tests, it was found that, compared with the tool, the linkage and the base tool (M25) are known based on the offer of a & linkage when used as a coolant water has very high performance properties: compared to Table 2

performance with a known bond is 150% higher and specific diamond consumption is 50% lower; compared with circles on the M 25 bond, productivity is 50% higher, specific diamond consumption is 40-50% lower.

Claims (1)

METAL BOND FOR THE PRODUCTION OF ABRASIVE TOOLS, containing gallium, copper and oloyo, characterized in that, in order to increase productivity and wear resistance of the tool when working with VOC on a vein basis, it additionally contains sulfur at the following tov, wt.%: ratio of components Gallium 32.9-73.9 Copper 25.0-63.0 Tin 1,0-20,0 Sulfur 0.1-5.0 "H S ω from Ζ * · H- * >