DE1941270C - Filters for cleaning molten aluminum or its alloys - Google Patents

Description

The invention relates to a filter for cleaning schisckilüssigeiQ aluminum or its alloys.

For this purpose already had gas blowing processes, treatment of various liquids and Filter processes using glass wool or ceramic materials have been widely used.

This is also done according to a well-known practice. as Means for removing impurities in the recovery of light metal waste a Melt of a mixture of anhydrous calcium chloride with calcium fluoride is used. Further it is already known to refine silicon-containing aluminum alloys for suppression the gross calculation of the primary silicon crystals the melt after the first refinement with a digestible refining salt mixture a compacted Salt mixture with high sodium fluoride concentration t! Add.

And finally, it is already known in cast iron, a device for cleaning the molten iron Provide iron from silicon-containing slag and the oxide particles contained in the melt which the melt through one of small channels existing filter and then through a tube filled with small refractory basic particles to be led.

In the known methods ν d devices, however, not all of the impurities contained in the molten metal, such as oxides, segregations and non-metallic inclusions and gaseous impurities such as hydrogen, are eliminated, so that it is difficult to obtain molten aluminum without impurities.

The invention is now based on the object of providing a filter material for cleaning molten To propose aluminum, with which all the impurities contained in the melt are eliminated can be achieved by continuously creating a very stable viscous molten salt film on the Surface of the filter material, which is indestructible by impact.

To solve this problem, the filter consists of a filter produced by melting or sintering A composite comprising at least one metal halide and at least one compound of C, N, B or Si contains, wherein the composite is arranged between two porous walls of a container.

In a further embodiment of the invention, the composite contains various ceramic substances, powders and masses of refractory materials or metals, refractory fibers such as carbon fibers, glass or Metal fibers.

According to the invention it is also provided that the container with the filter in the vessel for the molten Metal! is arranged floating and a pump for sucking the filtered melt from the is provided with a flange upper opening of the container.

And finally, in a further development of the invention, the filter is in a riser pipe of a low-pressure casting device arranged.

The properties of the filter Km-J according to the invention its high ion binding power, which is greatly increased loncabindekraft in the molten material, its complete indestructibility by impacts and the Aus. Completion of binders, such as ethanol hexachloride, to melt the constituents such as the metal halide, as well as the achievement of crystals that are stable, structurally homogeneous and isotropic for hours by strong cooling of the molten product. This gives a very characteristic mechanical characteristic

The filter material according to the invention continuously produces a very stable viscous molten one Salt film on the surface of the filter raw material.

The FUm sets the interfacial energy between the molten metal and the impurities down and lowers the interfacial tension and further adsorbs the impurities through the Wetting. This molten salt film is slightly ionized as the crystallinity decreases and continuously produces a gaseous product at a very slow rate.

This gaseous product mechanically removes gaseous impurities such as hydrogen.

The gaseous product and the free ionized atoms generate the gas atmosphere or the thin metal compound film on the surface of the molten metal and prevent the atmosphere from coming into contact with the molten metal !, vc, - by avoiding oxidation for hours and at the same time destroying the oxide film, so that the metal is kept in the normal state due to the decrease in diffusion into the oxide layer.

The filter material according to the invention is odorless and smoke-free and is more for the cleaning process effective than 100 working hours for a single installation. As a result of the aforementioned effect, a obtain stable molten metal.

With a filter material dit-fci type, which the contains the aforementioned substances, the surface crystals of the molded materials are gradually activated, to release ions or gases, with a tendency for the filter material to shrink into its surface area must be seen. However, due to the existence of the heat resistant and fireproof materials that are exposed at the locations that occur in the filter material, the surface area protected against being reduced in size and the filter passages against expansion, so that the impurities are filtered qualitatively be able.

Furthermore will. Fibers are used for the same reasons and show a characteristic filtering effect. The molded materials with fibers are also improved in their mechanical strength, so that it becomes possible to obtain thin and flat shaped materials.

Some exemplary embodiments according to the invention are described below with reference to the drawing: It shows

F i g. 1 is a view in vertical section of an embodiment;

F i g. 2 is a view in vertical section of a second embodiment;

F i g. 3 is a view in vertical section of a third embodiment;

F i g. 4 is a view in vertical section of a fourth embodiment;

F i g. Figure 5 is a view in vertical section of a fifth embodiment.

In one shown in FIG. 1 shown vessel for the molten liquid Metal 11 floats a flanged open container 12 made of graphite or made of a ceramic material,

when the filter material has a specific gravity less than that of the molten metal. The container 12 is made up of a floating ring or an air vessel 14. Asbestos kept floating if the material has a higher specific weight than the molten metal

The part 13 is formed by a porous base of the container 12 and a porous cover plate 15 closes the container, which contains the filter material A stacked on the base plate. Molten metal passes through the porous base and is cleaned by the filter material A and by the a flange-provided opening of the container 12 is pumped away through the porous cover plate 15. ~

The container 12 can be secured by a support or by a bracket.

Nm: h of the second embodiment are in the melting vessel 21 shown in FIG. 2 is shown, a separating plate 22 made of graphite, ceramic or metal, a no porous bottom plate 23 and a top plate 24 are installed. The FiHciiiiaicriä! A is au! of the bottom plate 23 and covered by the top plate 24. The molten metal! passes through the porous bottom plate H connected to the partition plate and is cleaned by the filter material and then sucked off through the porous olere plate 24.

According to the third embodiment, the in FIG. 3 a vessel 32 made of ceramic and two porous walls 33, which are connected to the bottom of the vessel 32 and have a certain distance from one another, so that they form a space with a certain volume which is filled with the filter material A. .

The molten metal passes through the porous front side wall and is cleaned by the filter material A and then pumped up through the porous rear side wall.

According to the fourth embodiment, this is shown in FIG. The melting vessel 41 shown in FIG. 2 is provided with an outlet 42 and with a porous wall 43. The filter material A is packed in the space formed by the porous walls 43, the walls 43 having a certain distance from each other; the molten metal enters the room from below through the lower porous wall and is passed through the filter material A and the upper porous wall at the outlet 42. pumped away.

In the fifth embodiment, in a sealed low-pressure casting device 51, as shown in FIG. 5, the lower part of a riser pipe 52 filled with filter material A and provided with a porous plate 53 and with a porous cover 54 on the stacked filter material A.

The porous bottom plate and the cover plate can be built into the upper part of the pipe, and furthermore a frame can be arranged below the lower part. The molten one. Metal passes through the porous bottom plate, is cleaned by the filter material A and injected under pressure from the pipe into the mold 55 after passing through the porous cover plate 54.

The effect achieved by the cleaning method used on the above-mentioned floorboards is described below:

The composites used in the above examples have the following compositions:

Calcium noride 10 to 40 »/ _e

Borax 5 to 5%

Magncsium fluoride 30 to 6 ° / ₀

ceramic fabric 5 to 15%

Lithium carbonate 5 to 15%

The component containing metal halide can also be composed as follows:

Calcium 10 to 30% / ₀

Sodium 5 to 20 ° / ₀

Potassium 5 to 20 ⁰ / _e

Lithium chloride 5 to 20 ° ,,,

The above compositions are put together, melted at 1200 C and placed in the poured well-chilled form. The texture is homogeneous and isotropic. These cast materials are in molten aluminum actively and reduce the Interfacial tension of molten aluminum and impurities and adsorb and remove the impurities through their wetting properties.

It also removes a trace amount of fluorine and chlorine gas, that is created continuously, mechanically the gases, for example hydrogen, that are in the molten liquid Metal are contained and / replace the oxide film generated on the surface of the molten η metal, thereby the oxidation of molten aluminum and, at the same time, diffusion of gases such as hydrogen. Even in the case in which the filter material consists of a molding of a kind of metal-halogen salt, it shows a similar behavior in molten ones Metals and it exerts its cleaning effect on the molten metals.

Then the oxidation products, which are contained in the molten aluminum, with the filter material according to the invention has been cleaned and such that has not been cleaned, analyzed quantitatively. About 500 kg of aluminum wire scrap was gradually added over 110 hours melted in a graphite crucible, and piobes were taken out in a graphite mold every 10 hours. Under an untreated sample is one Understand uncleaned sample in the molten state.

Analysis table 1

time

Immediately afterwards
After 10 hours ..
After 40 hours ..
After 80 hours ..

Sample AIiO, (· /,) untreated sample ( ⁰ Z ₀ )

0.0010
0.0015
0.0015
0.0015

cleaned sample (/,)

0.0005
0.0008
0.0008
0.0012

Untreated sample: without using the filter material

experiment carried out.

cleaned sample: using the filter material * experiment carried out.

Analysis table 2

That used for Analysis Table 1 100 hours Filtration medium was crushed to half size and reused.

The effect of the filter material on the aluminum alloy was tested and the harmful effect of the filter material ·} checked for the metal.

time

Immidiatly after
After 10 hours ...

sample

unbchandcltc sample (· / ")

purified sample (° / o)

0.0016 0.0016

0.0007 0.0010

Analysis Table 3 (1) Material: Wire waste

time

Before treatment

Immediately after the treatment

After 30 hours

(2) Material: Al-Si alloy

Worth analyzing

Si
(V.)

Fc

Cu

time

Before treatment ..

After treatment ..

Si

10.98

10.99

Fe

0.69

0.69

The ll ° / _o strength Al-Si alloy of the material (2) in the analysis of Table 3 was cleaned twice after the purification procedure of Example 1, and in the die-casting process 2290 pieces were a cover housing for motor vehicles manufactured and made ready. There was only a defective piece observed as compared to the error ratio of 0.4 ° to 1 ° / ₀ in the conventional degassing and flux method. The method according to the invention results in a reduction in the error ratio to less than 0.0004%.

10

Claims (4)

Patent claims: 1. Filters for cleaning molten aluminum or its alloys, thereby characterized in that it is made from a composite material produced by melting or sintering consists, which at least one metal halide and at least one compound of Contains C, N, B or Si and is arranged between two porous 0 59 0 62 0 13 ί 0 77 walls of a container. j ' ^ao 2. Filter according to claim 1, characterized n _O c _n <L, " _u S _ni , shows that different ceramic 0.86 j 0.61 0.14 0.34 j _{mix Slof} f _c p _{ulver and compositions of your} firm f 0.57 j 0.62 0.13 j 0.31 materials or metals, refractory fibers, such as Carbon fiber, glass fiber or metal fiber as are included. 3. Device for filtering molten aluminum using the filter according to Claim 1, characterized in that the container with the composite in the vessel for the molten metal is floating and a pump for sucking off the filtered Melt from the upper flange provided with a opening of the container is provided. 4. Device for filtering molten aluminum using the filter according to Claim 1, characterized in that the filter material is in a riser pipe of a low-pressure casting device is arranged. Analysis value Cu Mg 2.50 i 0.12 Approx (Vo) (V.) 0.002 JO ₁ OOl 2.60 j 0.13 0.003 j 0.001 1 sheet of drawings