SU565775A1 - Method of manufacturing bimetal cutting tools - Google Patents

Description

The invention relates to tooling, in particular, to the manufacture of composite hard-splicing tools by casting, and can be used in the manufacture of metal-cutting, drilling, mining tools and in the production of reinforced castings. A known method of manufacturing a composite tool, including installing a dorsal alloy plate in an earth mold, having a cavity corresponding to the configuration of the holder, and pouring said cavity with liquid metal 11. At the same time, the core is soldered to the casting or by melting a solder plate, either due to the mutual diffusion of solid particles and a metal of the holder. This technology allows for relatively high performance, however, along with the advantages, it has a very significant drawback due to the phenomenon of the so-called hot blow. High-temperature (14OO-16OO ° C) melts of iron or steel when zapivka cold The plates cause its cracking, especially characteristic for Plates of metal-ceramic mat & rial, which sharply reduces the strength and strength of the tool. There is also known a method for producing armor castings in a reducing environment consisting of carbon monoxide created by burning charcoal introduced into a mold heated to 960-1070 С 2. However, in a medium of carbon monoxide it is impossible to get past joining of the cast metal with a titanium carbide hard alloy plate and, due to the formation of chemically stable titanium oxide Ti O2 (rutile modification) on the surface of the latter. The purpose of the invention is to obtain a reliable connection of the cutting plates with the poured metal and increase the strength of the tool.

This is achieved by heating the plate up to 800 -. 1100 C with simultaneous purging of the linear form with the products of the dissociation of ak aak, 5

Oxide film on a carbide ram is destroyed by mechanical means, for example. er, brushing, then they are edged with ripoem, placed in a mold, and the heating is started after pouring in a reducing medium, such as ammonia dissociation products,

The supply of the reducing mixture is stopped immediately before pouring the metal, 15

At the same time, on the carbide plates of the titanocarbide group, after the stealing, there is a protective layer of cyanide copper (layer thickness of 5-7 microns).

The reducing mixture not only prevents the contact surfaces of the cutting plates from oxidation during the preheating process, but also allows the removal of remnants of intact oxides, which ensures a reliable connection of the cutting plates K with the alloy being cast.

The nature and effectiveness of the invention is illustrated by examples of the method implementation, Example 1 ,. When producing cast tools with steel holders, reinforced tungsten carbide hard alloys, copper-nickel-based alloys with a melting point of 1200 Hf: 130O s (constant) are used as solders. Carbide plates edged along the contour with solder are placed in sand molds on the liquid glass link: Forms fit into a pile, and connect their cavities interconnected by channels: / to the dissociator. 40 products of dissociation of ammonia (hydrogen and nitrogen) are continuously supplied to the mold cavity, the stack is placed in a quenching furnace and preheated to 85 ° -9OO C, then the forms are removed from the furnace, 45 gas supply is stopped and the steel is melted . Under the action of the heat of the melt, the solder melts and, when solidified, firmly connects the plates to the holders. At the same time, the solder acts as a insulating shield, since some of the heat is used to smooth the solder

At the same time, in the process of preheating in a reducing atmosphere, the blown & 55 would not only prevent the oxidation of the surfaces of the plates, but also remove the previously cut off ones. oxides, which significantly increased the hardness of the carbide compound. holder plates, .60

Tests have shown that the tool obtained by this technology withstands shear forces of 2200 4 260 O kg / cm without destroying it, while similar indicators for a tool manufactured by known technology do not exceed 1400 -: 1600 kg / cm

Example 2 In the same way, cast tools with holders are made of high strength cast iron. Copper is used as solder. The durability of cast tools increases by 3.5 - 5 paai

Example 3 In a similar way, composite cutters with cutting plates are made from titanium-carbold alloys, which have a greater tendency to oxidation and higher resistance of oxides than alloys of the tungsten-carbide group, after mechanical removal of the oxide film from contact surfaces The layers were electrolytically coated with a layer of 547 AIKM copper cyanide. Then the plate was soldered in solder and the operations indicated in the first example were performed.

The protective coating of cyanic copper prevents the oxidation of the hard-to-recover titanocobalt alloy, and the dissociation of ammonia eliminates oxidation and removes the formed oxide from the surface of the protective coating itself.

In the manufacture of reinforced castings, the materials of which have similar values of linear expansion coefficients and the oxides of which are easily destroyed in a reducing environment, the need for tinting and the eye is not eliminated.

Making the tool by casting with the introduction of reducing gas mixtures with preheating can significantly increase the strength of the joints of the cutting inserts with the holder by eliminating oxidation during heating and due to the removal of previously formed oxides. These factors, in turn, provide improved quality, durability and durability of Hhci weapons.

The method makes it possible to cast the cutting tool in multi-seat many brown sandy forms, for example, from a liquid-glass mixture, which allows a 10–12-fold increase in labor productivity compared to the conventional tool manufacturing process mechanically with subsequent soldering of the cutting plates.

Claims (2)

Invention Formula A method of manufacturing a bimetallic cutting tool, including cleaning the surface of a hard alloy cutting plate from oxides, applying a layer of protective coating and solder on them, installing the said plate in a mold, heating them in a reducing medium and pouring into an alloy mold, t l and due to the fact that, in order to increase the durability of the cutting of the cutting plate with the cast alloy, the cutting plate is heated to 800 - 11 oC with simultaneous blowing of the mold with ammonia dissociation products . Sources of information taken into account in the examination: 1, USSR author's certificate No. 1089951, M. CL. 22 D 19/06, 1957 2. N. N. N. Shmelkov, Reinforced Castings, M., Mashgiz, 1958, p. 1OO-103, 98g99, 120.