KR20100070905A - Manufacturing method of mg-al stratified composite material - Google Patents

Abstract

PURPOSE: A method for manufacturing a magnesium-aluminum thin-walled layer composite is provided to easily form the aluminum-magnesium layer composite and to enable the formation of a thin plate. CONSTITUTION: A method for manufacturing a magnesium-aluminum thin-walled layer composite comprises: a washing step of washing the surface of a magnesium plate(10); a pre-treatment step of forming scratched on the washed surface of the magnesium plate to eliminate a magnesium oxide layer; and a rolling step of thermally rolling an aluminum plate(20) after attaching the aluminum plate to the pre-treated magnesium plate.

Description

Manufacturing method of Magnesium-aluminum thin layered composite material {Manufacturing method of Mg-Al stratified composite material}

The present invention relates to a method for producing a layered composite material, and more particularly, to a method for producing a magnesium-aluminum thin layered composite material which can make a thin layered composite material using magnesium and aluminum.

Magnesium alloys are attracting attention as lightweight structural materials because they are low density metals and have high specific strength and specific rigidity. Especially, since the whole body material is excellent in mechanical characteristics, such as strength and toughness, future expansion is expected.

Magnesium alloys change in characteristics by changing the type and amount of metal elements to be added. In particular, alloys having a high aluminum content (for example, AZ91 in the ASTM standard) have high corrosion resistance and strength, and thus have a high demand for whole body materials.

However, because magnesium alloy has poor plastic workability at constant temperature due to the crystal structure called the closest hexagonal crystal, the press working of the plate is performed by raising the plate temperature to 200 to 300 ° C. For this reason, the development of a magnesium alloy plate capable of stable processing at low temperatures as possible is desired.

By the way, a variety of methods such as die casting or thixo-molding may be used to manufacture the magnesium alloy plate, but it is difficult to produce a thin alloy plate by these methods.

Another method for producing a magnesium alloy sheet is a rolling method. The magnesium alloy material sheet is preheated to 300 ° C. or higher and rolled using a constant temperature rolling roll, and the preheating and rolling are repeated.

In addition, the technique of obtaining a fine grained magnesium alloy sheet for the purpose of improving plastic workability by rolling by rolling the surface temperature of the rolling roll to 80 to 230 ° C. and the surface temperature of the magnesium alloy material sheet to 250 to 350 ° C. is also known. It is.

The method of manufacturing a magnesium alloy plate using the rolling has a problem such that a large number of crystallized matter, crystal grain size, or surface is roughened.

The present invention has been made to solve the above problems, and an object thereof is to provide a method for producing a magnesium-aluminum thin layered composite material that can produce a thin layered composite of aluminum and magnesium through rolling.

Method for producing a magnesium-aluminum thin layered composite according to the present invention for achieving the above object is a washing step for cleaning the surface of the magnesium plate, pre-treatment to form a scratch to remove the magnesium oxide layer on the surface of the washed magnesium plate And a rolling step of attaching an aluminum plate to the pretreated magnesium plate and hot rolling it.

The rolling temperature in the rolling step is 250 to 400 ℃, the magnesium plate and the aluminum plate is preferably rolled by cross rolling.

The method of manufacturing a magnesium-aluminum thin layered composite according to the present invention is easy to form a layered composite of aluminum and magnesium, there is an advantage that the formation of a thin plate.

Hereinafter, with reference to the accompanying drawings will be described in more detail the manufacturing method of the magnesium-aluminum thin layered composite according to the present invention.

The manufacturing method of the magnesium-aluminum thin layered composite of the present invention (hereinafter referred to as 'layered composite remanufacturing method') includes a washing step, a pretreatment step, and a rolling step as shown in FIG. 1.

The process for each step is as follows.

1. Cleaning step

In this step, to wash the surface of the magnesium plate 10, to facilitate the bonding of aluminum and magnesium material during the rolling process to be described later, to remove foreign substances on the surface of the magnesium plate 10 using ethanol. .

2. Pretreatment Step

The pretreatment step is to form a scratch on the surface of the washed magnesium plate (10).

On the surface of the magnesium plate 10 is formed a magnesium oxide layer due to the reaction of magnesium and oxygen. The magnesium oxide layer may be a cause of weakening the bonding strength by preventing the bonding of the bonding surface during the rolling molding of the aluminum plate 20 and the magnesium plate 10 to be described later.

Therefore, a scratch is formed on the surface of the magnesium plate 10 using the brush 30. In the scratch forming portion, the magnesium oxide layer is peeled off, so that the aluminum plate 20 can be easily bonded.

3. Rolling Step

In this step, the magnesium plate 10 and the aluminum plate 20 are roll formed.

The aluminum plate 20 is fixed to both sides of the magnesium plate 10 on which scratches are formed, and then rolled using a rolling roll 40. The magnesium oxide layer is scratched on the surface of the magnesium plate 10. Since the aluminum plate 20 and the magnesium plate 10 are easily bonded to each other.

As for the rolling process of this invention, hot rolling by which rolling is performed at the temperature of 250-400 degreeC is preferable.

2 and 3, an enlarged image of an enlarged joint portion of a magnesium-aluminum thin layered composite obtained by hot rolling at 300 ° C and 380 ° C is disclosed.

In both cases, the thickness of the magnesium plate 10 and the aluminum plate 20 was 2T, which was hot-rolled at each temperature, first compressed to 1.5T, and then re-rolled to 1T. .

In both cases, as shown in the enlarged view of the 1T compressed joint, it can be seen that the joint surface is naturally bonded instead of heterogeneous.

In this case, when the rolling temperature in the hot rolling is 300 ° C. and 380 ° C., the magnesium-aluminum thin layered composite is easily formed. Although not disclosed, the magnesium plate 10 and the aluminum plate 20 may be formed at 250 ° C. and 400 ° C. It can be seen that the bonding is easy.

However, although not disclosed, when the rolling temperature is less than 250 ℃, the deformation resistance is too large when rolling, and when the rolling temperature exceeds 400 ℃, the surface becomes uneven due to oxidation on the surface, It was a difficult problem to match the precision.

Therefore, it is preferable that the rolling temperature in a rolling process is made in the range of 250-400 degreeC.

4 is a view showing the results of the energy dispersive spectroscopy (EDS) analysis of the junction portion and both sides with respect to the junction portion of the magnesium plate 10 and the aluminum plate 20.

Part A is a magnesium plate 10, and as shown in the graph, it is possible to confirm that the part A is a magnesium plate 10 through the energy values for the scanned wavelengths. In the same way, the part C is an aluminum plate 20. You can see that.

Part B is a junction between the magnesium plate 10 and the aluminum plate, and the energy values of magnesium and aluminum are both shown. Through the EDS analysis, it can be seen that the aluminum plate 20 and the magnesium plate 10 are completely bonded.

The rolling process is preferably also made through cross rolling.

5 to 7 disclose microstructures of magnesium-aluminum thin layered composites processed by normal rolling and cross rolling, respectively.

5 is a microstructure of a magnesium-aluminum thin layered composite rolled by general rolling, and FIGS. 6 and 7 are rolled by a cross rolling machine having a cross angle of 2.5 ° and 7.5 °, respectively, of the rolling roll 40. Magnesium-aluminum thin layered microstructure.

Rolling was performed in the same condition except for the cross angle of the rolling rolls 40 during each rolling, and the annealing temperature and time after rolling were all the same, and then the microstructure was observed.

As can be seen in the figure, in the case of the magnesium-aluminum thin layered composite rolled by the cross-rolling roll 40, the size of the grains of the microstructure was relatively higher than that of the magnesium-aluminum thin layered composite processed by the general rolling. Was small. And when the cross angle of the rolling roll 40 is 7.5 ° it was confirmed that the size of the microstructure grains relatively smaller than when the 2.5 °.

The smaller the grain size of the microstructure, the thinner the thickness of the magnesium-aluminum thin layered composite can be formed. Therefore, when the rolling process is performed by cross rolling, the thin plate processing of the magnesium-aluminum thin layered composite is made easier. It can be confirmed that.

In the method of manufacturing the magnesium-aluminum thin layered composite according to the above-described step, the thin plate of the magnesium plate 10 and the aluminum plate 20 may be formed, and the joining may be easily performed at the joint surface.

1 is a conceptual diagram showing each step of the manufacturing method of the magnesium-aluminum thin layered composite according to the present invention,

2 and 3 is an image showing an enlarged view of the junction when the hot rolling temperature is 300 ℃, 380 ℃, respectively;

Figure 4 is a graph showing the results of EDS analysis at both sides and the junction on the basis of the junction of magnesium plate and aluminum plate,

5 to 7 are images showing the grain size of the microstructure when the cross angle of the rolling roll 40 is 0 °, 2.5 °, 7.5 °, respectively.

Claims (3)

A washing step of washing the surface of the magnesium plate; A pretreatment step of forming a scratch to remove the magnesium oxide layer on the surface of the washed magnesium plate; And attaching an aluminum plate to the pre-treated magnesium plate and then rolling it to hot roll the magnesium plate. The method of claim 1, The rolling temperature in the rolling step is a method for producing a magnesium-aluminum thin layered composite, characterized in that 250 to 400 ℃. The method of claim 1, The magnesium plate and the aluminum plate in the rolling step is a method of manufacturing a magnesium-aluminum thin layered composite, characterized in that the rolling by cross rolling.

Images