JP2020001093A - Solid-containing metal - Google Patents

Abstract

To provide a method and a device for producing a solid-mixed metal or a metal alloy, suitably, a light metal or a light metal alloy for casting a cast component, suitably, a die cast component.SOLUTION: A method comprises: a step of melting a metal or a metal alloy by using a melting apparatus (2); a step of carrying a melt for casting to a mold (9) to be filled via a feed conductor (3); and a step of feeding a solid to the melt for casting in a meanwhile where the melt for casting is carried in the feed conductor (3), in which the fed solid is mixed into the melt for casting suitably with energy input in at least one mixing zone (6) during the carrying in the feed conductor (3).SELECTED DRAWING: Figure 1

Description

  The present invention is a method and apparatus for producing a solid-enriched metal or metal alloy, preferably a light metal or light metal alloy, for casting a cast part, preferably a die cast part, using a melting apparatus. Melting the metal or metal alloy, transporting the casting melt via a feed conduit to the mold to be filled, and casting the melt during transport in the feed conduit. Supplying solid matter to the apparatus.

  From the prior art, there is known a method for producing a composite material by adding particles in order to improve physical properties such as mechanical strength or to improve durability. There are also known challenges in the injection of solids with large contact angles, especially in the case of light metal melts.

  Particularly for non-metallic solids, the poor wetting properties of the solids due to the large contact angle in the melt have the same meaning as the poor matrix bonding, which is the encapsulation of the solids in the metal or metal alloy. Make it difficult to include Furthermore, such a process is very laborious.

  In the method disclosed in US Pat. No. 7,509,993, particles are added while the casting melt is still liquid in the melting furnace. However, this means that the process up to filling the mold is discontinuous, but rather only a single batch of the furnace batch can be poured in each case, in which case the batch batch of the furnace and the melt It has the disadvantage that it has a different ratio (ratio) to the object. In addition, there is the possibility of precipitation. This is because during the pouring of the casting melt, little mixing takes place.

  The object of the present invention is to provide a method for encapsulating solids in metals or metal alloys, while achieving good wetting of the solids, homogeneous mixing without cluster formation, and guaranteeing a continuous production process, And to propose a device associated with this method.

  This object is achieved according to the invention by mixing the supplied solids with the casting melt during transport in the mixing zone, preferably by means of energy input, and arranging a mixer in the feed conduit. .

  The method according to the invention relates to a method for the production of solids-mixed metals or metal alloys, preferably light metals or light metal alloys, for casting cast parts, preferably die-cast parts.

  First, the metal or metal alloy is melted until the metal or metal alloy transitions to a liquid state and becomes a casting melt.

  The casting melt is conveyed via a feed conduit to the mold to be filled. This may preferably be done by the gradient of the feed conduit and / or by means of a pump. Particularly suitable for feeding the casting melt is an electromagnetic pump.

  To feed the solids into the casting melt, the solids are injected into the casting melt via a metering device during the feed in the feed conduit. To ensure a homogeneous mixing of the solids as well as an optimal wetting, the casting melt is mixed with the solids in a mixing zone, preferably by energy input, during transport or feeding in the feed conduit. In this case, the mixing zone may be arranged in the area of the metering device immediately after the solids are injected.

  Advantageously, the mixing takes place during and / or after the supply of the solids. Optimum mixing prevents solids from clustering and improves the bonding and wetting properties of the solids to the casting melt.

  One preferred embodiment is that the energy input for the mixing is performed using an ultrasonic sonotrode in at least one mixing zone. This means that the solid agglomerates formed are separated by ultrasonic waves using the supplied energy and pulses, which allows the individual solids to better bind to the casting melt. Being able will improve the bonding of the solid to the casting melt. In addition, the contact angle between the solid and the casting melt is also reduced, which again contributes to an improved bond.

  Another advantage of using energy input, preferably ultrasound, is that the oxide layer located on the casting melt, which prevents solids from penetrating based on surface tension, is separated so that the solids It can better penetrate into the casting melt.

  It has proven advantageous if the supply of the casting melt takes place continuously in the feed conduit. This ensures a continuous and continuous process as well as high efficiency.

  Preferably, the solids are formed as fibers and / or particles, where the fibers have an elongated shape and the particles are rather spherical or flaky.

  Advantageously, the fibers or particles are from the group of carbon fibers, aluminum oxide, basalt, silicon carbide, aramid, metal fibers, coated fibers and / or derivatives thereof. Tests have shown that these fibers and flakes or particles have good heat resistance and do not burn out in the casting melt, which has been thermostated at high temperatures.

  One preferred embodiment is that the feed conduit is thermostated. Due to the possibility of different temperature adjustments via the feed conduit, the condition of the casting melt can be influenced. That is, for example, by being able to cool the feed conduit, the casting melt will be actively cooled, and the state of the casting melt will be semi-solid, or a semi-solid range of metal or metal alloy. Will be within. Of course, it is also possible to heat the feed conduit in order to make the casting melt liquid or keep it liquid.

  It is advantageous if the casting melt is cooled in the feed conduit during transport until the casting melt is in a semi-solid state. Based on the semi-solid state, it becomes possible to knead the solids, which also improves the bond between the solids and the alloy. Over a certain range, the casting melt has the same state and thus can be appropriately injected with solids, or the connection between the solids and the metal or metal alloy is, for example, kneaded Alternatively, in order to be improved using sonication, it is advantageous if the temperature is kept at a certain temperature level.

  The invention is distinguished in another configuration in which the solids are kneaded into the semi-solid casting melt in the mixing zone. The kneading is also carried out in a separate mixing zone, preferably also located in the feed conduit.

  An apparatus according to the invention for producing solid-contaminated metals or metal alloys, preferably light metals or light metal alloys, for casting cast parts, preferably die cast parts, comprises a metal or metal alloy in which the metal or metal alloy is melted. A melting apparatus, for which a furnace is preferably used. To feed or transport the casting melt, the apparatus has a feed conduit. The metering device of the device according to the invention is used for feeding solids into the casting melt, the metering device being connected to the feed line. The device according to the invention has at least one mixer for homogeneously mixing the casting melt, the mixer being arranged in a feed conduit, wherein the mixing of the casting melt is carried out during transport or feeding. Done.

  Advantageously, the mixer is formed as an ultrasonic sonotrode. Mixing the solids, preferably in a liquid casting melt, using ultrasonics improves the bond between the casting melt and the solids for a variety of reasons as described above.

  It has proved advantageous if a pump, preferably an electromagnetic pump, for pumping the casting melt is arranged in the feed line. This ensures a continuous and controllable transport or pumping of the casting melt.

  It has been found that the preferred embodiment is for the feed conduit to have a bypass conduit. In this case, the bypass conduit allows multiple passes of the casting melt through the injection and mixing zone. This allows a high amount of solids to be supplied or to be supplied as well as a high degree of mixing. Preferably, the bypass conduit is also temperature-adjustable.

  Preferably, the metering device has an injector for injecting solids into the casting melt. This ensures a continuous solids injection into the casting melt.

  It is advantageous if the feed conduit has a pipe narrowing in the region of the metering device. This allows a lower pressure in a narrower range, whereby the solids in the metering device are entrained by suction.

  The metal or metal alloy according to the invention is preferably used for the production of cast parts, in particular die-cast parts, in which case the cast parts are preferably used as vehicle parts. Of course, other fields of use are also conceivable. The composition of the corresponding metal or metal alloy is tailored to the application and requirements and correspondingly gives a suitable solid.

  All components can be freely combined with one another, and the features of the method can be freely combined with one another, as well as the description of the features and uses of the device.

  One embodiment of the present invention will be described with reference to the drawings. The present invention is not limited to only this embodiment.

FIG. 1 shows an apparatus according to the invention for producing a solid or mixed metal or metal alloy.

  In the drawing shown in FIG. 1, an apparatus 1 according to the invention for producing a metal or metal alloy mixed with solids is shown. The device 1 comprises a melting device 2, preferably a furnace for melting metals and metal alloys. The casting melt thus obtained is conveyed via the feed conduit 3 to the casting mold 9 to be filled.

  Preferably, for feeding the casting melt in the feed conduit 3, a pump 11 is used which ensures that a constant and preferably continuous flow of the casting melt flows through the feed conduit 3. . A metering device 4 for injecting solids, preferably particles or fibers, into the casting melt is arranged or connected to the feed conduit 3. At least one mixer 5 is arranged in the feed conduit 3 for mixing the solids and the casting melt, and a plurality of mixers 5 may be arranged in a plurality of different positions of the feed conduit 3. Advantageously, in the area of the metering device 4 there is already a mixer 5, preferably formed as an ultrasonic sonotrode, which ensures mixing of the solids in the preferably still liquid casting melt. are doing. Alternatively, a further mixing zone 6 with a corresponding mixer 5 can be arranged in the feed line 3, where the casting melt is preferably in the semi-solid state and the mixer When kneaded with 5, the casting melt will still be mixed, which allows for a good bond of the solid to the casting melt. In order to ensure an optimal condition of the casting melt, the feed line 3 can be adjusted in temperature, whether by heating or by cooling, which can be individually adapted. In a possible embodiment, a bypass conduit 8 is arranged in the feed conduit 3, which allows the casting melt to pass through the injection and mixing zone 7 in the feed conduit 3 multiple times, In this way, the casting melt is supplied with a corresponding solid until the casting melt has the desired composition and is well mixed and then filled into the mold 9. I have.

DESCRIPTION OF SYMBOLS 1 Apparatus 2 Melting apparatus 3 Feeding pipe 4 Metering apparatus 5 Mixer 6 Mixing zone 7 Injection / mixing zone 8 Bypass conduit 9 Mold 10 Injection zone 11 Pump

Claims (15)

A method for producing a solid or mixed metal or metal alloy, preferably a light metal or light metal alloy, for casting parts, preferably for die casting parts,
Melting the metal or metal alloy using a melting device (2);
Transporting the casting melt via a feed conduit (3) to a mold (9) to be filled;
Supplying a solid to the casting melt while conveying the casting melt in the feed conduit (3);
The method comprising:
Mixing the supplied solids with the casting melt in at least one mixing zone (6) during transport in the feed conduit (3), preferably by means of an energy input. how to.   The method according to claim 1, wherein the mixing is performed during and / or after the supply of the solid.   The method according to claim 1, wherein the mixing is performed in one mixing zone (6) using an ultrasonic sonotrode, and using ultrasonic waves to excite the casting melt and the solid.   The method according to claim 1, wherein the supply of the casting melt is performed continuously in the feed conduit.   The method according to any one of the preceding claims, wherein the solids are fibers and / or particles.   The fiber according to any one of claims 1 to 5, wherein the fiber is derived from the group of carbon fiber, aluminum oxide, basalt, silicon carbide, aramid, metal fiber, coated fiber and / or derivatives thereof. The described method.   7. The method as claimed in claim 1, wherein the temperature of the feed conduit is adjusted.   Method according to one of the preceding claims, wherein the casting melt is cooled in the feed conduit (3) during transport, preferably until the casting melt has a semi-solid state. .   9. The method according to claim 1, wherein the solids are kneaded into the casting melt in a semi-solid state in one mixing zone (6). Apparatus (1) for producing solid-contaminated metals or metal alloys, preferably light metals or light metal alloys, for casting cast parts, preferably die cast parts, in which the metal or metal alloy is contained. A melting device (2) to be melted, preferably a furnace, a feed conduit (3) and a metering device (4) for feeding solids into the casting melt; The apparatus (1), wherein the metering device (4) is connected to the feed conduit (3) and has at least one mixer (5) for homogeneously mixing the casting melt.
Apparatus (1), characterized in that the mixer (5) is arranged in the feed conduit (3) and that the mixing of the casting melt takes place during transport.   The device (1) according to claim 10, wherein the mixer (5) is formed as an ultrasonic sonotrode.   Device (1) according to claim 10 or 11, wherein a pump (11), preferably an electromagnetic pump, for pumping the casting melt is arranged in the feed conduit (3).   The feed conduit comprises a bypass conduit (8), which allows a plurality of passes of the casting melt through an injection and mixing zone (7). Device (1) according to any one of the preceding claims.   14. Apparatus according to any of claims 10 to 13, wherein the metering device (4) has an injector for injecting the solid into the casting melt.   10. The method according to claim 1, wherein the metal or the metal alloy, preferably a light metal or a light metal alloy, is used in the production of cast parts, in particular die-cast parts, and preferably the cast parts are used as vehicle parts. Use of the metal or metal alloy according to claim 1.