DE1008005B - Process for the production of raw materials for sintering - Google Patents

Description

GERMAN

It is known that in general for the production of powder metallurgical products as possible fine-grained starting powder must be used. This is particularly true in manufacturing of hard metal, of soft magnetic alloys on a metallic and oxidic basis and of permanently magnetic materials on a metallic and oxidic basis. With these productions the powders, especially the metal powders, are mixed individually or finely ground in several, where appropriate, master alloys are also added which contain two or more of the metals are. This mixture is pressed into shaped bodies and then sintered. The sintering takes place in reducing or inert atmosphere or in a vacuum.

In particular, if mixed crystals are to be produced by the sintering process, one is possible finely ground powder is a general requirement. This is particularly true during manufacture of sintered magnets.

The powder or powder mixture must be poured into compression molds. Due to the delicacy of the Powder does not trickle, so that bridges form in the cavities to be filled. Kick while pressing Press folds on; a lubricant must also be used, which causes the Powder itself and the tools enter. The dust losses while working are relatively high. An automatic production, i. H. an automatic filling with a subsequent automatic pressing process, is therefore not possible with these very fine powders. It has therefore already been suggested to add coarser powder components to the fine powder. This will result in a better flowability achieved, which, however, entails segregation, especially when there are several powder components brings and continues to diffusion difficulties on the one hand as a result of the segregation and on the other as a result which leads to coarse powder fractions. The dust itself is not prevented by this. To the Achieving the best physical and mechanical values of the sintered body is therefore still the case It is customary to process the finest powder and tuition it with the finger or other means to fill in the mostly complicated molds.

The addition of additives to relieve the pressure, such as metal soaps or other lubricants in powder form, It does improve the pressing properties to the extent that they are common when pressing ultra-fine powder Press wrinkles are reduced. A favorable influence on the flowability of the metal or oxidic However, powders do not have these additives.

There has also been a change in the process of manufacturing the fine metal powders in the simplest of forms
of raw materials for sintering

Applicant:
German stainless steel works

Corporation,
Krefeld, Gladbacher Str. 578

Fritz Frehn, Dartmund-Aplerbeck,
has been named as the inventor

To compress molded bodies and to coarsely comminute them in mills in order to produce a specific granulate. This process has various disadvantages, since on the one hand the resulting granulate has different grain sizes and on the other hand the resulting fine dust practically means a loss. The resulting dust can only be compressed two or three times; then he has become "deaf" and no longer squeezes. Another disadvantage of this process is that the pre-pressed articles for granulation have to be produced with a lower surface pressure per cm ² than corresponds to the final compression pressure for the actual molding. Otherwise the granules cannot be compressed.

There is therefore an urgent need to find a free-flowing and pressable starting material for the To create sintering when using very fine powders, but the powder unit itself is retained got to. Since most sintered materials made from the finest powders are those with specific, physical properties, a very special purity of the end products is required.

According to the invention, this object is achieved by the starting powder with certain organic Plastics, such as resins or the like. Is mixed in a suitable organic solvent are resolved. Granulators produce granules which, after the solvent has been driven off is granular and has excellent pourable properties. The removal of the solvent can either be done in the granulator take place or be carried out after the granulation.

The granulate itself consists of grains, each of which mixes a larger amount of powder, encased in synthetic resin, contain. The resin should have the property of escaping without residue during sintering. As a special

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It has proven more useful to use polymers or copolymers of acrylic acid and / or Use methacrylic acid. These so-called acrylic resins are in esters, ketones or in aromatic or chlorinated hydrocarbons dissolved. This solution is mixed with the starting powder Mixer treated until a powdery mass that is slightly sticky due to pressure is formed is fed to a suitable granulator.

So-called countercurrent mixers can also be used to produce the granulate. By The individual powder particles are joined to one another in a suitable position of the mixing paddles provided in these. Granules that differ greatly in terms of grain size are produced, which are spherical in each case Have shape. The different granulate size is disadvantageous. The coarsest granules have to be added afterwards be crushed. The powder particles have in

The resulting dried granulate is outstandingly only slightly collapsed compared to the individual granulate grains Compressible because it trickles and holds the shapes well. It is therefore the first two granulators mentioned above. The resin film causes a certain lubricity or sliding of the powder grains both

A B d

g g

when pressing as well as when ejecting. At the late

To give preference to processes in which, as a result of the necessary pressures, a relatively solid granulate is obtained is generated, which has a small filling space

p g

This is a factor that is particularly important when pressing, e.g.

h Pß d Wihk

aging of the pellets made from this granulate, which also have excellent edge strength, the acrylic resins are split without harmful components in the sintered body are of less importance.

During the granulation, the solvent at least partially evaporates, and it can optionally be useful when granulating with

allow. The evaporation products are absorbed by the oil of the vacuum pumps by means of a slight increase in temperature or the hot air part without the supply of harmful or cold air, the escape of the solution or condense in the cold part
the S inter arrangement, for example in one of the

Upstream vacuum pump
A.

a condenser,

by means of favor. It can also be done in such a way that the granulate is discharged onto a conveyor belt runs, which serves as a drying belt. During the

a separation and discharge of the condensation transport on this belt becomes heated air, products is made. So there is neither carburization, preferably from 50 to 60 °, inflated or blown through, Another oxidation, nitration or the like occurs from the escape of the solvent Sintered compacts made of granules. Solidification of the resin component, so that a

Instead of acrylic resins, polystyrene, solid granulate that can only be destroyed by pressure, can be dissolved in acetone, ethyl acetate, ether, methyl chloride, 30 stands. This granulate has excellent pouring properties

Carbon tetrachloride, benzene, toluene, xylene, etc. can be used. Here, too, the prerequisite is that the solvents attack the metals neither at room temperature nor at elevated / temperature or act as catalysts for damaging processes.

Polymethacrylic acid methyl ester has proven to be particularly useful for the production of granules, dissolved in acetone, proved. 2 to 4% of this polymethacrylic acid methyl ester is added to the metal powder added after being diluted with acetone.

During the mixing process, acetone is added as needed to make it a slightly sticky mass arises.

speed and can be used for pressing a wide variety of moldings. Appropriately is the granules adjusted so that they contain fine, medium and coarse granules, because this as possible small filling spaces can be achieved in the molds. When pressing very small geometric shapes small granulates are expediently used, thanks to the use of the finest perforations in the granulators can be obtained without difficulty.

The granules produced according to the invention can be kept for any length of time, since the organic substance protects the powder particles against oxidation and corrosion. This is another benefit of the measures according to the invention as it is possible in this way

A wide variety of mixers can be used for mixing

are used, preferably those are used, powder batches of the most varied types as desired uses that have a pan mill or with kneading to make them long-lasting and thus for each poor are equipped. The resulting generation, which has been worked through so well, is optionally available Mixture is then fed to the granulator. to have.

A granulator has proven to be particularly useful. In contrast to, for example, the granulate is

proven that two or three cylindrical tubes, 50 the pure metal powders, are completely independent of the weather, depending on the desired grain size with different and it therefore does not, as before, need to be considered Holes in the wall are provided against the maintenance of a certain degree of moisture

Rotate continuously at different speeds. The material to be granulated will run in opposite directions d

to be laid. It is well known that the different moisture content makes metallic finest powder

rotating cylinders automatically fed and in the 55 difficulties insofar as the filling and tapping holes driven into the walls. The volume is subject to taking into account the moisture it constantly changes both pressing and shearing strength content and extreme dimensional stability forces. The granules emerge axially at the front from the open speed of the compacts in many cases could not be achieved. Cylinder out, so that a fully continuous By using the granules, which according to the Way of working is possible. The granulate itself is made from 60 invention, these difficulties are perfectly even grain size, whereby the grains are eliminated.

size depends on the diameter of the bores The necessity when pressing very fine powders in the hollow cylinder walls. Using the grains of gra- lubricant makes in sintering nulates are cylindrical. considerable difficulty because of the lubricant In another, for the purposes of the invention 65, considerable residues can be left behind in the sintering The granulation process will let the easily stick, reducing the physical and mechanical

The remaining powder mixture is pressed through a perforated sieve plate using a pan mill. The size of the granules is determined by the size of the holes in the perforated disc.

py

Properties are deteriorated. When using the granules produced according to the invention the use of lubricants is kept to a minimum. Furthermore, the wear and tear of the

Tools significantly reduced by the thin resin film.

When the granules produced according to the invention are used, practically hardly any dust losses occur one that has so far been unavoidable when processing ultra-fine powders. A harmful one This eliminates dust build-up in the workplace. The entire manufacturing process of Powder mixtures and their processing has become practically dust-free because the actual Mixing of the various metal powder components in mixers is made dust-free and at the Insertion of the binding agent or solvent into the powder mixture produced, practically no dust is generated, because the liquid introduced into the powder immediately prevents the formation of dust.

The granulate can be further processed in any automatic press, whereby a certain amount of granulate is fed to the die by means of an automatically running filling shoe and the process of pressing and ejecting takes place automatically in the rhythm of the filling. Such automatic presses of both hydraulic and mechanical types could hitherto be used in processing Finest powders are not used, which has an extraordinary effect on the production process had an adverse effect.

Even with mechanical or hydraulic presses that are set up without an automatic filling shoe, The use of the granulate has considerable advantages because the filling funnel is now done by hand by simply painting over the cavity of the compression molds always fills evenly and refilling of the earlier, non-free-flowing powder is omitted.

Claims (8)

35 PATENT CLAIMS: 1. Process for the production of easily compressible starting materials from powders for the Sintering, especially for the production of hard metals, soft magnetic alloys metallic or oxidic basis as well as permanent magnetic materials on metallic or oxide-based, characterized in that plastics dissolved in organic agents, such as resins od. Like., Are mixed with the powder and granulated, during or after the Granulation drives off the solvent. 2. The method according to claim 1, characterized in that for the production of the granules Resins are used that escape without residue during sintering. 3. The method according to claim 1 and 2, characterized in that copolymers of acrylic acid and / or methacrylic acid, dissolved in esters, ketones, aromatic or chlorinated hydrocarbons, be used. 4. The method according to claim 1, characterized in that polystyrene dissolved in acetone, toluene, Benzene or the like is used. 5. The method according to claim 1, 2 and 3, characterized in that polymethacrylic acid methyl ester, dissolved in acetone, is used. 6. The method according to claim 1 to 5, characterized in that powder and plastics means Solvent in a mixer, preferably one with a pan mill or kneader a powder mixture that is slightly sticky due to pressure. 7. The method according to claim 1 to 6, characterized in that the resulting according to claim 5, slightly sticky powder mixture is fed to a granulator. 8. The method according to claim 1 to 7, characterized in that the generated in the granulator Granules are dried on a conveyor belt, if necessary with blowing warm or cold air will. © 709 508/392 4.