KR100495673B1 - MAGNETIC STEEL-INSERTED Al/STS CLAD AND FABRICATION METHOD THEREOF - Google Patents

Abstract

The Al / STS clad according to the present invention is characterized by inserting a magnetic iron alloy to improve IH characteristics and formability, and to pre-coated aluminum by hot-dip plating the iron alloy to prevent oxidation and smooth bonding.

Description

Aluminum / stainless clad plate material with magnetic iron plate inserted and its manufacturing method {MAGNETIC STEEL-INSERTED AL / STS CLAD AND FABRICATION METHOD THEREOF}

The present invention relates to an aluminum / stainless clad plate.

Currently, the most commonly used clad plate is an aluminum / stainless (hereinafter abbreviated as Al / STS) clad plate made of a combination of aluminum (Al) and stainless steel. It is widely used in kitchen utensils, etc. by combining light and heat-resistant aluminum with good corrosion resistance and strength and beautiful color of stainless steel. Until a few years ago, stainless steels were made of austenitic stainless steel, which is beautiful in color, excellent in corrosion resistance, and well formed. FIG. 1 illustrates a conventional Al / STS clad plate, in which a single layer or multiple layers of aluminum alloy are inserted between austenitic stainless steels 304 (hereinafter abbreviated as '304'), and deep drawing (Deep drawing) molded by drawing). In some cases, it may be manufactured in a structure without the inner 304.

In recent years, the use of so-called Induction Heating (IH) heaters, in which pots and rice cookers are induction heated by electricity, has been greatly increased. This is because the IH heating method, because the container itself generates heat, high thermal power can be easily obtained, thermal efficiency is high, and operation is easy and safe. IH is caused by hysteresis loss and eddy-current loss due to the change of the magnetic field. The former is only for magnetic objects, and the latter can occur in all conductors. However, home IH heaters are not very high in frequency, so heat generation due to eddy current loss is minimal and heat generation due to hysteresis loss is large.

Therefore, in recent years, ferritic stainless steel (hereinafter, abbreviated as 430) of ferritic stainless steel, which has excellent corrosion resistance and formability and good aesthetics but has good magnetic properties, but has magnetic properties instead of non-magnetic 304 do. FIG. 2 shows a single or multiple layers of aluminum alloy inserted between 304 and 430, and the magnetic 430 is molded to the outside. In this case too, there may be no inner 304. This structure now occupies most of the IH kitchenware.

However, in the case of 430, a rugged surface defect (called so-called ridging or roping) occurs during molding, and in order to remove the 430, the surface must be polished to a depth of several tens to hundreds of micrometers.

In addition, ferritic stainless steel tends to break during molding unless the cladding condition or the molding condition is almost perfect at an elongation of about 30%.

In addition, it is not a very good structure in terms of thermal efficiency. Magnetic materials such as 430 have a so-called skin effect, and heat generation is concentrated on the surface. In this case, stainless steel is poor in thermal conductivity because the heat loss caused by convection is large.

Accordingly, an object of the present invention is to provide a clad plate having excellent IH characteristics while using nonmagnetic 304.

It is also an object of the present invention to provide a clad plate that is excellent in moldability and easy to manufacture.

The present invention provides an Al / STS clad plate material in which magnetic iron or iron alloy is inserted and bonded between aluminum or an aluminum alloy and an austenitic stainless steel.

Specifically, the present invention is an aluminum or stainless clad plate composed of an aluminum or aluminum alloy plate and an austenitic stainless steel plate, wherein the iron or iron alloy plate having magnetic properties between the aluminum or aluminum alloy plate and the austenitic stainless steel plate Provides an aluminum / stainless clad plate inserted and bonded.

The iron or iron alloy sheet material is preferably formed with an aluminum layer on the surface to prevent oxidation.

In consideration of formability and IH characteristics, the thickness of the iron or iron alloy sheet is about 0.2 ~ 1.5mm. On the other hand, the thinner the austenitic stainless steel is, the better, but since it is difficult to clad rolling at about 0.1mm or less, more than that is preferable.

In addition, the present invention is to prepare an aluminum or aluminum alloy plate and austenitic stainless steel plate, to prepare a magnetic plate, to form an aluminum layer on the iron or iron alloy surface, the aluminum or aluminum alloy plate and austenite Provided is a method of manufacturing an aluminum / stainless clad plate comprising inserting and laminating an iron or iron alloy plate having an aluminum layer therebetween, and rolling the stacked sheets, and diffusing the rolled plate. .

The iron or iron alloy sheet material is preferably a magnetic moment greater than 430. In the embodiment of the present invention, carbon steel is used, but other iron-based alloys having magnetic moments larger than 430 may be used, and pure iron may also be used.

The aluminum / stainless clad plate of the present invention can be said to be an ideal clad plate that can utilize IH characteristics without using ferritic stainless steel, and is excellent in appearance beauty, corrosion resistance and formability.

In addition, iron alloys are usually easily oxidized at room temperature, so that rust is not easily generated during distribution and storage. In addition, iron is oxidized when heated for the clad, which makes it difficult to bond clads. It does not rust during storage and does not oxidize when heated in cladding, facilitating the joining of austenitic stainless steel and iron alloy.

The clad plate of the present invention is hot-rolled and joined in the state where the iron alloy is inserted between the aluminum and stainless steel as an intermediate material, and when diffused again, aluminum is diffused into the iron alloy to form a strong bond. In the diffusion treatment, the heating temperature is suitably in the range of 200 to 400 ° C.

Hereinafter, the present invention will be described through examples, and the present invention is not limited to the following examples and various modifications and applications can be made within the scope of the claims.

Example

After preparing a 1.1 mm thick general low carbon steel sheet as iron (or an iron alloy), molten aluminum was plated on the surface to obtain an aluminum layer having a thickness of about 15 μm. When aluminum is plated, it is not oxidized to about 550 ° C.

After preparing iron, austenitic stainless steel, and aluminum alloy (Al3003) having aluminum formed thereon, they were laminated in the order of 304 / Al-coated Fe / Al alloy / 304 as shown in FIG. Rolling was carried out at a reduction ratio of about%, and the bonded laminate was diffused at 330 ° C. for 30 minutes.

In addition to the aluminum alloy used in the present embodiment, Al3004 or Al1000 may be used.

Figure 4 is a photograph showing a vertical cross section of the Al / STS structure in which Fe is inserted and bonded by the embodiment.

The laminate after the diffusion treatment was molded by deep drawing as shown in FIG. 3.

For comparison with the present invention, a conventional 430 / Al alloy (Al3003) / 304 clad plate material as shown in FIG. 2 is prepared and molded by deep drawing, and then photographs observed on the 430 side, i.e., the outer side of the molded body. 5 is shown. Looking at the enlarged picture in the upper right of the drawing, it can be seen that a deep ridge occurs on the surface.

Meanwhile, after the 304 / Al-coated Fe / Al alloy (Al 3003) / 304 clad plate formed by the method of the present invention was formed by deep drawing, a photograph of the outer 304 surface was shown in FIG. 6. . Unlike the comparative example of Figure 5 it can be seen that there is no gyro at all.

In addition, in the case of the comparative material 430 / Al3003 / 304 cladding plate, cracks appear in 430, but no crack appeared in the clad plate of the present invention. This is because the elongation of 430 is about 30%, whereas the elongation of 304 is about 60%.

By using the clad structure and manufacturing method of the present invention, Al / STS cladding can improve IH characteristics and greatly improve moldability, thereby making it possible to manufacture clad plate material which is economical and has excellent characteristics.

1 is a clad structure of Al / STS of non-IH characteristics.

2 is a clad structure of Al / STS of IH characteristics.

Figure 3 is a clad structure of Al / STS of the present invention.

4 is an optical micrograph of the clad structure of Al / STS bonded to Fe as in FIG.

5 is a photograph observed from the outside after the deep drawing the clad plate produced as in FIG.

Figure 6 is a photograph observed from the outside after the deep drawing the clad plate produced as in FIG.

*** Explanation of symbols for main parts of drawing ***

304: austenitic stainless steel

430: ferritic stainless steel

Claims (7)

In the aluminum / stainless clad plate composed of aluminum or aluminum alloy plate and austenitic stainless steel plate, Magnetic iron or iron alloy sheet is inserted and joined between aluminum or aluminum alloy sheet and austenitic stainless steel sheet, The iron or iron alloy sheet material has a magnetic moment greater than that of ferritic stainless steel, and an aluminum layer is formed on the surface thereof. Aluminum / Stainless Clad Plate. delete The aluminum / stainless cladding plate according to claim 1, wherein the iron or iron alloy sheet has a thickness in the range of 0.2 to 1.5 mm. The method of claim 1, wherein the aluminum / stainless clad plate is An austenitic stainless steel / aluminum or aluminum alloy / iron or iron alloy / austenitic stainless steel. delete Prepare aluminum or aluminum alloy plate and austenitic stainless steel plate, Prepare an iron or iron alloy sheet having a magnetic moment greater than that of ferritic stainless steel, Forming an aluminum layer on the iron or iron alloy surface, Between the aluminum or aluminum alloy plate material and the austenitic stainless steel plate material by inserting and laminating the iron or iron alloy plate material having an aluminum layer, Roll the laminated sheets, A method for producing an aluminum / stainless clad plate, comprising diffusing a rolled plate. The method of claim 6, wherein the diffusion treatment is heated to a temperature in the range of 200 ~ 400 ℃.