RU115261U1 - MULTI-LOCAL PRESS FORM FOR PRESSING POWDERS - Google Patents

Abstract

A multipurpose mold for pressing powders containing a matrix, an upper punch, a holder, a set of lower punches, a set of middle inserts forming cavities for filling powder, characterized in that the upper punch is made in the form of a single flat plate, the size of which along the outer contour corresponds to the size the inner contour of the matrix, and the elastic elements are installed between the lower punches under the corresponding middle inserts.

Description

The utility model relates to powder metallurgy and technology, in particular to molds for pressing powders and powder compositions.

A known mold for pressing flat products (Ceramic hard alloys / Romanova N.I., Chekulaev P.G., Dusev V.I. et al. - M.: Metallurgy, 1970. - p.137-138), including two cheeks, two crackers, a limiter, a set of middle liners, a set of upper punches, a set of linings (lower punches) according to the number of pressed products, two studs connecting the cheeks and crackers.

The disadvantage of the design of this mold is that the matrix is assembled by means of a pair of pins. In the molding process, when a specific pressing force is applied to the punches, high lateral pressure arises on the cheeks of the die from the side of the pressed material, which will lead to the disclosure of the die and marriage of the products. Another disadvantage is the high complexity and cost of manufacturing a set of punches and linings. Ceramic carbide powders are a mixture of carbides of tungsten, tantalum, titanium and other metals with the addition of cobalt powder.

As noted in the work of O.V. Romana (Roman, O.V., Gabrielov, I.P. Powder metallurgy - waste-free energy-saving technology. - Minsk: Belarus, 1986. - p. 43), for the manufacture of punches and mold dies for pressing difficultly deformed powder materials should be used , for example, such an expensive and difficult to process steel as 3X2B8. The complexity of manufacturing parts of molds consists in a large number of machining operations, including roughing, finishing transitions of turning or milling, grinding and polishing work surfaces, to achieve the required accuracy parameters according to 7-8 quality and roughness of the order of Ra0.8-Ra1 , 6. To obtain the required parameters of strength and hardness of the workpiece blank, molds must be forged or stamped, and heat treatment should be provided before finishing machining operations. In addition, due to the high strength and hardness of the material of the parts of the molds, special tools should be used in machining operations, which also increases the manufacturing cost.

The closest in technical essence and the achieved effect to the proposed solution is the mold for pressing powders according to the patent (SU 923744, IPC B22F 3/14, B30B 15/02, claimed 02.07.80. Publ. 30.04.82. - Bull. No. 16), containing a multi-seat matrix, a base plate, a set of upper and lower punches, a holder with cavities, coaxial nests of the matrix, elastic elements located in the cavity of the holder under the lower punches (prototype).

The advantage of this mold, compared with the above, is that there are no pins in the design of the multi-seat matrix, it is closed, so the matrix does not open when working loads are applied.

The disadvantage of the prototype, as well as the analogue, is the high complexity and cost of manufacturing all the parts of the mold. The disadvantages include the fact that the multi-seat matrix of this mold is made of graphite. Meanwhile, it is known that graphite has a reduced strength and significant anisotropy of properties and differently resists compressive and bending loads that arise, in this case, during the pressing of products (bending strength is 2 or more times lower than compressive strength). Unfortunately, the composition, brand and properties of the graphite used are not indicated in the patent.

In one of the publications (Tyrin, V.A., Polisar, E.L., Chernykh V.A. Features of the technology for the production of large-sized crucibles for melting copper and its alloys // Non-ferrous metallurgy, 1973, No. 3. - p.45- 46) it is proved that the tool (injection molds) made of electrode graphite has reduced strength and resistance. The applicant in the laboratory, made a pilot mold of electrode graphite manufactured by Chelyabinsk Electrode Plant OJSC. When pressing the first product from a carbon powder composition with a resin with a specific pressing pressure of 300 MPa, the matrix and punches were destroyed, which confirms the data from the above article.

When describing the pressing process, the prototype does not specify: the average size and shape of the chromium particles, bulk density, the degree of compaction during molding, the type of protective medium during heating (vacuum, argon, helium), which does not allow to establish how, at a specific pressure of 10 MPa was achieved 100% density compacts.

In the monograph of the world's largest specialist in the field of powder metallurgy and. technology F. Eisenkolba (Eisenkolb F. Successes of powder metallurgy. - M .: Metallurgy, 1969. - p. 355-365) it is indicated that chromium powder is one of the hardest metal powders and is very difficult to form. Moreover, the specific molding pressure should reach values of the order of 500 MPa. Moreover, after pressing and sintering at t _p = 1450-1500 ° C for 3-4 hours, it is not possible to achieve a density above 85% of theoretical, and the porosity in this case reaches 15%.

The objective of the proposed solution is to reduce the complexity and cost of manufacturing a mold, by simplifying the design of the tool (punch).

The problem is solved in that in a multi-seat mold for pressing powders containing a matrix, an upper punch, a clip, a set of lower punches, a set of middle liners forming cavities for filling the powder, and elastic elements located in the clip, according to the proposal, the upper punch made in the form of a single flat plate, the size of which along the outer contour corresponds to the size of the inner contour of the matrix, and the elastic elements are located between the lower punches under the corresponding inserts average.

This design allows you to reduce the number of machined parts of the mold (instead of three or more upper punches it is enough to make one), thereby reducing the complexity of manufacturing the tool and its cost.

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a General view of the mold in section along a vertical plane at the initial moment of pressing; figure 2 is the same at the final moment of pressing products.

The license mold consists of a matrix 1, an upper punch 2, a holder 3, in which lower punches 4 and elastic elements 5 made of polyurethane are installed. The middle 6 inserts are mounted on the elastic elements, so that the upper ends of the middle inserts and the upper end of the matrix are located in the same plane N.

The mold works as follows.

Powder 7 is poured into openings of the mold in the open state in such a way that the upper end of the matrix 1, the middle inserts 6 and the upper surface of the backfill comprise one plane N, which makes it possible to simplify the leveling operation.

Turn on the press. When the working stroke of the upper punch 2 (figure 2, along the arrow P _in ) between the walls of the matrix, the upper punch, the liners of the middle and lower punches, closed cavities with the powder 7 are formed. The powder 7 is pressed. The middle liners 6 under the influence of the vertical pressure P _in from the side of the punch 2 move down, deforming the elastic elements 5.

According to the proposed solution, compacts with dimensions of 20 × 30 × 80 mm were made from a carbon composition (artificial graphite ground 80%, phenol-formaldehyde powder resin 20%) with a particle size of about 80 microns and a bulk density of 0.6 g / cm ³ . In this case, the specific pressing pressure was 300 MPa, the movement speed of the upper punch was 2.5 mm / s, the temperature of the powder mixture was 170 ° C, exposure under pressure was carried out for 5 minutes. The density of the obtained compacts was in the range of 1.85-1.9 g / cm ³ , no delamination was found.

The implementation of the upper punch in the form of a single flat plate allows you to reduce the complexity of manufacturing a multi-place mold by reducing the number of machined parts while ensuring the required quality of the pressed products.

Claims (1)

License mold for pressing powders containing a matrix, an upper punch, a holder, a set of lower punches, a set of middle liners forming cavities for filling powder, characterized in that the upper punch is made in the form of a single flat plate, the size of which on the outer contour corresponds to the size the inner contour of the matrix, and the elastic elements are installed between the lower punches under the respective middle liners.