SU1703427A1 - Diamond tool - Google Patents

Abstract

The invention relates to a diamond tool, in particular to diamond cutting wheels, used to process particularly hard materials. The invention improves processing performance. The goal is achieved by the fact that in the instrument containing the body and the cutting layer, including diamond and galvanic coupling with ultradisperse filler, the quality of the last bond contains diamond with a particle size of 40-60 nm in an amount of 0.3-1.6%. 1 tab. 2 Il.

Description

The invention relates to a diamond tool, in particular to diamond cutting wheels, used to process particularly hard materials, mainly sapphire, corundum, garnets, policor, and the like.

The aim of the invention is to improve the processing performance due to the fact that in a diamond tool comprising a body and a cutting layer including an ultrafine aggregate bond and diamond, as a filler, the bond contains ultrafine diamonds with a particle size of 40-60 nm in the amount of 0, 3-1.6%.

FIG. 1 shows a diamond cutting disc with an inner cutting layer; in fig. 2 - cutting layer in section.

The diamond wheel contains body 1. The cutting layer 2 is on the inner circumference of which. The cutting layer contains diamonds 3, the filler is ultradispersed diamonds 4 and the link is nickel 5. Diamonds 3 have sizes from units to hundreds of micrometers, and ultradispersed diamonds 4 have 40 60 nm.

The use of ultrafine diamonds as a filler with dimensions close to the cluster state of the substance significantly affects the properties of link 5. And, accordingly, the characteristics of the circle.

The mechanism of the influence of ultrafine diamonds is understood if we consider the process of formation of the cutting layer 2.

During galvanic deposition of nickel 5, ultrafine diamonds 4 are the centers of crystallization, forming a fine periodic structure with a varying stress state of the bond. The consequence of this is an increase in the hardness of the cutting layer.

Experimental batches of diamond cutting wheels with an inner cutting layer AKVR 422x136 and AKVR 422x156 with abrasive diamonds АС 15 with grit 100/80 and АС 6 grit 50/40 were made

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GOST 9206-80; Electrolytic nickel with an ultradispersed diamond filler with an optimal size of 40-60 nm was used as a binder. The amount of ultrafine diamonds in the bond is 0.3-1.6%.

Tests of circles were made not machine model Almaz-BM.

Circles equipped with diamond powder of mark АС 15 100/80, single crystals of gadolinium — helium — grenades with a diameter of 76 mm were divided into plates. The plates with a thickness of 1.5 mm were cut off, the cutting speed was set at 15 m / s, the working feed rate was 6–8 mm / min, and the coolant flow rate was 10–12 l / min. Cutting was carried out with the rotation of the single crystal. After cutting off every five plates, the cutting edge was edited by cutting an abrasive bar based on KZM 40/28 powder.

The test results are presented in the table.

As can be seen from the table, the use of ultradispersed diamonds of 40–60 nm in an amount of 0.3–1.6% as a filler in galvanic bonding makes it possible to increase the productivity of processing expressed in increasing the size of the working feed without decreasing tool life.

Claims (1)

Invention Formula A diamond tool comprising a housing and a cutting layer comprising galvanic coupling with an ultrafine filling material and diamond, characterized in that, in order to increase processing performance, as an ultradisperse filling material, diamond contains particles with a particle size of 40-60 nm in the amount of 0 , 3-1,6% .. 1 f FIG. 2