SU1627390A1 - Mass for manufacturing diamond tools - Google Patents

Abstract

The invention relates to the manufacture of a diamond tool. The purpose of the invention is to increase the productivity of the tool when sharpening a drilling tool. The composition of the diamond layer of the grinding heads includes grinding powders made of synthetic high-strength diamonds of the AU type and a bond based on copper. A low-strength diamond synthetic polycrystalline grinding powder ARS-3, ARK-4 with a grain size of 63 / 40- 200/160 diamond is additionally introduced into the mass in the following ratio of components, vol.%: Sanding powder AU 12.5 - 37.5; filler 6 - 19; metal bond rest.

Description

& L

WITH

The invention relates to the manufacture of diamond tools.

The purpose of the invention is to increase the tool productivity when sharpening drill bits with soldered carbide inserts by eliminating the clogging of the cutting layer.

The essence of the invention lies in the fact that synthetic polycrystalline grinding powder ARS-3, APC-4 with a grain size of 63 / 40-200 / 160 is introduced into the mass containing a metal bond and a mixture of high-strength and low-strength diamonds as the latter.

Synthetic diamonds of АС12 or АС65 grades according to GOST 9206-80 with a grain size of 160 / 125-400 / 315 are used as artificial high-strength diamonds, polycrystalline grinding powder is used as a filler (highly abrasive component - tails, siftings, waste from the products of crushing of polycrystalline blanks)

with a grain size of 63/40 200-160, and as a bond - a metal bond M2-01 according to TU-037-181-76.

Polycrystalline diamonds of the APC-3 type of fine fractions are, as a rule, a by-product (non-primary) crushing product of polycrystalline diamonds of CB type (specs) obtained by sintering diamond micropowders in the region of a stable state of cubic carbon modification, i.e. in the area of high pressures and corresponding temperatures, which determines the preparation of billets, which are characterized by a clearly pronounced fine structure, size of billets after sintering, and characteristics. These circumstances, in combination with the features and degree of crushing of the blanks, determine, in turn, the features, structure and properties of APC-3 diamonds of fine fractions. Virtually all of the above applies to diamond grades.

ck

u vj with

H)

about

ARK-4, a product of the crushing of polycrystalline diamonds of carbonado type (ASPK).

The extremely pronounced polycrystalline structure of diamonds APS-3, ARK-4 in comparison with other brands of diamonds in itself determines both the very low strength of these diamonds and in full accordance with all well-known laws of finely dispersed polycrystalline abrasive materials simultaneously and their high cutting ability.

Additional factors that determine the specificity of APC-3 diamonds, in addition to the finely dispersed polycrystalline structure, are a much smaller percentage of impurities than in diamonds of the AC2 type (ACO) or, for example, AC4 and a greater degree of internal strength of each grain or micrograin , as a result of incomplete stress relief inside the structure after the application of loads during crushing.

That is why, both in the process of pressing the diamond-bearing matrix, and in the process of grinding (restoration) of carbide inserts with grinding heads, there is a further permanent gradual destruction of individual fine polycrystalline grains of ARS-3,

ARK-4 into separate even smaller micro-sprouts and microaggregates, which contributes to embrittlement of the bond and its transformation into a specific diamond-metal composition with a practically increasing total area of the abrasive fine aggregate and a simultaneous gradual natural decrease in the grain size of the ARS-3, ARC-4 and further reduction the ductility of the bond and an increase in its brittleness and resistance to salinization.

The components of the mass in the manufacture of the tool selected in the following ratio, vol.%:

High-strength diamonds

(АС-15, АС-65) 12.5-37,5

Low-strength diamonds

(ARS-3, ARK-4) 6-19

Metal connection Else

Claims (1)

Invention Formula Diamond tool making mass, including metallic bond, low-strength and high-strength diamonds, characterized in that, in order to increase tool productivity when grinding bit crowns, as a low-strength diamond, the mass contains a product of grinding polycrystalline diamonds with a grain size of 63/40 - 200/160 .