KR20020085092A - Apparatus for discontinuously dispersion-reinforced MMC fabrication - Google Patents

Abstract

PURPOSE: An apparatus for manufacturing a metal matrix composite material having uniformed dispersion of reinforcement powder under the optimum process conditions by designating various related factors as variables is provided. CONSTITUTION: The apparatus for manufacturing a metal matrix composite material(1) comprises an induction melting furnace(10) equipped with a high frequency induction generator(110), the induction melting furnace uniformly dispersion-reinforces discontinue reinforcement powder into liquid metal matrix to cast the metal matrix composite material, and the apparatus is associated with factors influencing on uniformed dispersion of the reinforcement powder in the melting furnace, that is, temperature of mixing and tapping, preheating of the reinforcement powder, shape of an impeller for uniformed agitation, position and agitation speed of the impeller, and supply of powder, wherein the apparatus further comprises a temperature controller(14) and a thermocouple(16) for temperature controlling of the induction melting furnace, a mixing controller(20) that is removably installed at the induction melting furnace to control mixing of molten metal in the melting furnace, a pressure pump(30) for mixing and tapping the molten metal at the same time, a gas preheater(40) for injecting the reinforcement powder into the melting furnace at a certain preheated gas pressure, a vibrator for solving injection nonuniformity of the reinforcement powder due to coagulation of discontinuous reinforcement powder, and a rotating unit(60) and an impeller(70) that are mounted on one gear box(80) to disperse coagulation and segregation of the reinforcement powder.

Description

Apparatus for discontinuously dispersion-reinforced MMC fabrication

The present invention relates to an apparatus for producing a discontinuous dispersion-enhanced metal base composite material, and more particularly, to an apparatus for manufacturing a metal-base composite material by dispersing and strengthening a discontinuous reinforcing material in a metal base liquid phase.

As is well known to those skilled in the art, metal-based composites are largely divided into discontinuous dispersion-reinforced metal-based composites and fiber-reinforced metal-based composites depending on the shape of the material added as the reinforcement powder. Non-continuous dispersion-reinforced metal base composites are generally made by dispersing and strengthening a fine ceramic that is stable at high temperatures to a base metal. Such metal base composites have high toughness and high hardness of reinforcement materials such as oxides, carbides, and nitrides. It is known that a material having excellent mechanical properties, such as a high strength, modulus of elasticity, toughness, etc. is significantly improved compared to a conventional metal material by a combination of high temperature stability and the like.

The method of manufacturing the discontinuous metal base composite material may include preform infiltration, UPAL process, powder metallurgy, spray forming, precision casting, LANXIDE, and the like. have. Among these manufacturing methods, the manufacturing process is complicated, the cost is too large, the size of the casting is limited, or the mass production is difficult, and many applications are limited.

In contrast to the manufacturing methods described above, the melt casting method has excellent casting applicability and can be molded by applying existing casting and forging methods, which is inexpensive, advantageous for mass production, and low in cost compared to other methods. high portential.

By the way, in the above-mentioned melt casting method, it is difficult to uniformly disperse and mix the liquid molten metal and the solid reinforcing material. In the molten casting method having such problems, the factors which have a significant influence on the uniform dispersion of the reinforcing material in the molten metal include mixing and tapping temperatures, preheating of the reinforcing material, the shape of the impeller for uniform stirring, the position and stirring speed of the impeller, and the powder. It is known that there is a supply method.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and the object of the present invention is to provide a device capable of manufacturing a metal-based composite material having a uniform dispersion of reinforcement materials under optimum process conditions by specifying various factors as variables. have.

On the other hand, the present invention is to provide a discontinuous dispersion-reinforced metal-based composite material manufacturing apparatus designed to facilitate the exchange and attachment of parts to consider the various process variables involved and melt casting by combining the existing process technology.

1 is a block diagram of a metal base composite material manufacturing apparatus according to the present invention.

Figure 2 is a schematic view showing a gas tube and a nozzle and a pressure pump device for induction melting furnace and reinforcement dispersion according to the present invention.

Figure 3 is a block diagram showing a gas preheater, gas flow regulator, reinforcement hopper, vibration device and reinforcement injection check window according to the present invention.

Figure 4 is a block diagram of a gearbox equipped with a rotating device and an impeller according to the present invention.

5 is a configuration diagram showing the form and the position of the impeller according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1: Metal base composite material manufacturing apparatus 10: Induction melting furnace

16: thermocouple 20: mixing controller

30: pressure pump device 40: gas preheater

50: vibration device 60: rotating device

70 impeller 80 gearbox

110: high frequency induction generator 116: nozzle for gas + reinforcement

In order to achieve the above object, the apparatus for producing a discontinuous dispersion-enhanced metal base composite material according to the present invention includes an induction melting furnace having a high frequency induction apparatus, and the induction melting furnace uniformly disperses and strengthens the discontinuous reinforcing material in the metal base liquid phase. And casting the metal base composite, the manufacturing apparatus is a factor that affects the uniform dispersion of the reinforcement in the melting furnace mixing and tapping temperature, preheating of the reinforcement, the shape of the impeller for uniform stirring, the position of the impeller and Its characteristics are that it is related to the stirring speed and the supply of powder.

In a preferred embodiment of the present invention, a thermostat and thermocouple are provided for temperature control of the induction furnace.

In a preferred embodiment of the present invention, the apparatus further includes a mixing controller for detachable attachment to the induction furnace and controlling the mixing of the molten metal in the melting furnace, and a pressure pump device capable of simultaneously tapping and mixing the molten metal.

In a preferred embodiment of the present invention, a gas preheating device for injecting the reinforcing material to the melting furnace at a predetermined pre-heated gas pressure, and a vibration device for eliminating the unevenness of the reinforcing material injection by agglomeration of discontinuous reinforcing material do.

In a preferred embodiment of the present invention, there is provided a rotating device and an impeller for dispersing agglomeration and segregation of the reinforcing material, wherein the rotating device and the impeller are mounted in one gear box.

In a preferred embodiment of the invention, the rotating device comprises a timing belt, the impeller takes the form of a pair of single or a pair of two-stage impellers to produce a uniform vortex, each pair of impellers opposite to each other Direction of rotation.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the discontinuous dispersion-reinforced metal base composite material manufacturing apparatus according to the present invention. Terminologies used herein are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a person skilled in the art, and the definitions are based on the contents throughout the present specification. Will have to be lowered.

1 is a block diagram of a discontinuous dispersion-reinforced metal base composite material manufacturing apparatus according to the present invention, Figure 2 is a block diagram of a gas tube and nozzle and pressure pump device for induction melting furnace and reinforcing material dispersion according to the present invention. 3 is a configuration diagram of a gas preheater, a gas flow regulator, a reinforcement hopper, a vibration device and a reinforcement injection check window according to the present invention, and FIG. 4 is a configuration diagram of a gear box equipped with a rotating device and an impeller according to the present invention. 5 is a configuration diagram showing the shape and the position of the impeller according to the present invention.

First, referring to FIG. 1, the metal-based composite material manufacturing apparatus 1 according to the present invention has an induction melting furnace 10 having a high frequency induction generating device 110. Induction melting furnace 10 is provided with a thermostat 14 and a thermocouple 16 for temperature control. In addition, the metal base composite material manufacturing apparatus 1 of the present invention may be detachably attached to the induction melting furnace 10, and the mixing control apparatus 20 and the molten metal of the melting furnace 10 for controlling the mixing of the molten metal in the melting furnace 10 may be used. The reinforcing material due to the cohesion phenomenon of the gas preheater 40 and the discontinuous reinforcing material for injecting the pressure pump device 30 and the reinforcing material into the melting furnace 10 at a predetermined preheated gas pressure to mix and tap at the same time And a vibrator 50 (FIG. 3) to eliminate non-uniformity of injection. In addition, the manufacturing apparatus 1 of the present invention includes a rotating device 60 and an impeller 70 for dispersing coagulation and segregation of the reinforcing material, and the rotating device 60 and the impeller 70 are as shown. It is mounted on one gear box 80. The rotating device 60 preferably has a timing belt 62, and the impeller 70 takes the form of a pair of single impellers or a pair of two-stage impellers as shown in FIG. 5 to produce complex vortices. The pair of impellers can rotate in opposite directions.

1 through 5, reference numeral 112, which is not described, is a weight balancer for weighting, 114 is a gas tube which is a gas supply line, and 116 is for injecting gas and reinforcing agent guided by the gas tube 114. Nozzle for gas + reinforcement, 120 is a flow check window for checking the reinforcement injection, 122 is a hopper (reinforcement powder hopper) for storing the reinforcing agent, 124 is a cylinder for storing argon gas, Figure 3 132 is a gas flow meter for adjusting the flow of gas. On the other hand, although the high frequency induction generating device 110 for generating high frequency induction in the present invention manufacturing apparatus 1 is shown as being separate from the induction melting furnace 10, the high frequency induction generating device 110 in the present specification is It is assumed that the induction melting furnace 10 is included.

The operation of the metal-based composite material manufacturing apparatus of the present invention configured as described above will be described with reference to FIGS.

For reference, for the configuration of the manufacturing apparatus of the present invention, the factors that have a significant influence on the uniform dispersion of the reinforcing material in the melt of the melting furnace 10 have been investigated, the important factors include mixing and tapping temperature, preheating, uniformity of the reinforcing material There was the shape of the impeller 70 for the stirring, the position and stirring speed of the impeller, the method of supplying the powder, and the like. Therefore, the manufacturing apparatus of the present invention is designed and manufactured in consideration of the above process variables.

1 is a view showing the discontinuous dispersion-reinforced metal base composite material manufacturing apparatus according to the present invention as a whole, the high frequency induction generating device 110 in the manufacturing apparatus of FIG. The temperature of the melting furnace 10 is controlled by the thermostat 14 and the thermocouple 16 installed in the high frequency induction generator 110. That is, the temperature controller 14 and the thermocouple 16 cuts off the power supply to prevent the temperature rise when the melt temperature of the melting furnace 10 of the manufacturing apparatus 1 exceeds the set temperature, and the melt temperature is lower than the set temperature. When the power is turned on again, the temperature of the molten metal is maintained within a set temperature range.

FIG. 2 shows a gas tube 114 and a nozzle 116 and a pressure pump device 30 for dispersing the reinforcement supplied from the induction furnace 10 and the reinforcement hopper 122, referring to the nozzle 116. The reinforcing material can be injected while changing the position of) and the pressure pump device 30 can be mounted on the melting furnace 10 to mix and melt a large amount of molten metal at the same time. In addition, since the gearbox 80 including the impeller 70 is detachable and can be separated from the induction melting furnace 10, it is possible to facilitate tapping.

FIG. 3 shows a gas preheater 40 and a gas flow regulator 132, a reinforcement hopper 122 and a vibrator 50, and a reinforcement injection check window 120 for injecting reinforcement. Inert gases (eg, Ar, N ₂ ) may be preheated and the flow rate may be controlled using a gas flow regulator 132. According to the controller 1 of the present invention, the reinforcing material may be injected by the gas pressure whose flow rate is controlled by the gas flow controller 132. The gas is heated up to 600 ° C. by the gas preheater 40. The vibration device 50 generates vibration in the reinforcing material hopper 122 in order to solve the injection unevenness caused by the aggregation phenomenon of the discontinuous reinforcing material so that a certain amount of reinforcing material is injected.

FIG. 4 shows a gearbox 80 for mounting the rotary device 60 using the timing belt 62 and two impellers 70 simultaneously. Referring to this, by using the timing belt 62, FIG. It is possible to prevent the heating of the impeller electric motor due to the heat conduction phenomenon of the impeller 70. In the present invention, one or two impellers 70 may be mounted at the same time to mix reinforcing materials.

FIG. 5 shows the shape and position of a pair of single impellers 70a and a pair of two-stage impellers 70b mounted on the gearbox 80 according to the present invention. Referring to this, the present invention relates to one impeller. Not only can be used, but also a pair of impellers can be used to mix reinforcement at the same time. At this time, single or two-stage impellers 70a and 70b are used to generate a strong and uniform turbulence flow to disperse the segregation of segregation and reinforcement. The pair of two-stage impellers 70b described above can more effectively distribute the reinforcing material by alternately attaching blades to each other and rotating them in opposite directions.

As described above, according to the present invention, in manufacturing the metal base composite material, various process factors may be designated as variables to manufacture the metal base composite material having a uniform dispersion of reinforcing materials under optimal process conditions.

In addition, the present invention provides an advantage that can be used in various kinds of complexities requiring uniform mixing of the known liquid phase and solid phase reinforcement.

On the other hand, the present invention is in response to the development of a high damping capacity (material) material that can absorb the vibration energy of the material and the material itself for light weight, such as aluminum composite material in the field according to the issue of environmental problems It is used in the research and development of composite materials and offers practical advantages for mass production systems.

While the preferred embodiments of the present invention have been described in detail above, those skilled in the art will appreciate that various modifications of the present invention may be made without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations can be made. Therefore, changes in the future embodiments of the present invention will not be able to escape the technology of the present invention.

Claims (7)

In the metal base composite material manufacturing apparatus, Induction melting furnace having a high frequency induction apparatus, The induction melting furnace uniformly disperses and strengthens the discontinuous reinforcing material in the metal base liquid, casting a metal base composite material, The manufacturing apparatus may be associated with mixing and tapping temperatures, preheating of the reinforcing material, shape of the impeller for uniform agitation, position and stirring speed of the impeller, and supply of powder, which factors affect the uniform dispersion of the reinforcing material in the furnace. Metal-base composite material manufacturing apparatus characterized in that. The apparatus of claim 1, wherein a temperature controller and a thermocouple are provided for controlling the temperature of the induction furnace. The apparatus of claim 1, further comprising: a mixing controller for attaching and detaching the induction furnace, and a pressure pump device for mixing and simultaneously tapping the molten metal for controlling the mixing of the molten metal in the melting furnace. Metal base composite material manufacturing equipment. The gas preheater for injecting the reinforcement material into the melting furnace at a predetermined preheated gas pressure, and a vibration device for eliminating the unevenness of the reinforcement injection caused by the agglomeration of the discontinuous reinforcement material. Metal base composite material manufacturing apparatus. According to claim 1, provided with a rotary device and an impeller for dispersing the aggregation and segregation of the reinforcing material, The rotating device and the impeller is a metal base composite material manufacturing apparatus, characterized in that to be mounted on one gear box. 6. The rotating apparatus of claim 5, wherein the rotating device includes a timing belt, The impeller is a metal-based composite material manufacturing apparatus characterized in that it takes the form of a pair of single or a pair of two-stage impeller to create a complex vortex. 7. The apparatus of claim 6, wherein the pair of impellers are rotated in opposite directions.