SU833431A1 - Diamond tool metallic binder - Google Patents

Description

(54) METAL BOND FOR DIAMOND TOOLS

The invention relates to the manufacture of grinding and polishing tools and can be used in factories producing diamond tools. Metal binder are known in the diamond abrasive industry and are used to make the diamond bed of a grinding tool. As a base, this metal bond contains copper, into which metals and compounds such as tin, nickel, cobalt, aluminum, silicon, zinc, antimony, cadmium, metal fluorides of t, II and -1 groups II are additionally introduced, Group I alkali metal chlorides, sulfides, l, sulfates; 1M metal binder should be merged; their relatively high plasticity should be merged, which leads to a large consumption of abrasive when grinding hard materials, such as diamond, etc. Also known as metallic bond containing as bases of copper, and t Also tin and nickel., which is used to make headgear circles. The percentage of the listed components in connection may be the following: Cu 81.4 Sn 18.6 Cu 76.8 Sn 19.2 Ni 4 Cu 72.4 Sn 13.2 Ni 14.4 Sinterka 1 metal binder is carried out in reducing atmosphere at 2. The efficiency and wear resistance of a grinding diamond tool made of a metal bond of the indicated composition is low, which hinders the use of a diamond tool for processing natural diamond and superhard materials. In addition, the metal bond adheres to the surface of the material being processed during sintering, and sintering must be carried out in a reducing atmosphere, which requires the use of special equipment. The purpose of the invention is to create a metal bond for grinding and polishing diamond tools, which is more efficient and durable when processing natural diamonds that do not adhere to the surface of the diamond being processed and are not oxidized during sintering in air.

To achieve this goal, a metal binder containing copper, tin, nickel is added to the metal binder, in addition, a metal oxalate selected from the group, Na C0, is added. CUC204. , .G SnC “O /

,,

.

at

This ratio of the components take the following, wt.%:

Sn17,0-19,0

Metal VIII of group 9.5-10.5 (N1, Fe, Co)

Oksgshat meteshlov 0,01-1,0 SeaEverything else

The oxalapl metals chosen have a high decomposition temperature of 450-55 ° C, contribute to better sintering of the metal binder, increase hardness, are readily available and are manufactured in powder form.

The operability and wear resistance of metal bonds are much higher than those of a known composition. Optimum addition of metal oxalate is in the range of 0.01-1.0 wt.%, With a further increase in its amount to 3.0 5, 0 wt.% These values change slightly. The introduction of metal oxalate into the composition of the binder above 5.0 wt.% Leads to the formation of porosity in the diamond layer, voids, cavities and, consequently, to the unsuitability of the instrument. The content of t-oxalate metal in the binder is less than 0.01 wt.% Does not lead to the required increase in the performance and wear resistance of the binder, does not protect it from oxidation during sintering, and to a lesser extent increases its sintering.

The higher serviceability and wear resistance of the metal proposed link allows to obtain an economic effect of at least 500.0 thousand rubles, in the national economy when introducing a grinding diamond tool made of it.

Claims (2)

1. USSR Author's Certificate No. 402458, cl. B 24 D 3/06, 1976. 2. US Patent 2189259, cl. 51-309, published. 1946.