JP2001091511A - Method for discriminating aluminum alloy flattening rubbish - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for easily discriminating 5000- and 6000-family Al alloys that are indispensable for re-utilizing an Al alloy flattening material rubbish where 5000 and 6000 families are mixed as a dissolved raw material. SOLUTION: The surface of an Al alloy flattening material rubbish where 5000-and 6000-family Al alloys are mixed is subjected to alkali etching for obtaining color tone difference, and the 5000- and 6000-family Al alloy flattening material rubbish is identified by the difference in the color tone.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for identifying wrought aluminum alloy scrap (hereinafter, aluminum is simply referred to as Al).

[0002]

2. Description of the Related Art Packaging materials such as cans, electronic materials such as magnetic disks, outer plates and structural materials or parts for transport machines such as automobiles, ships and vehicles, and structural materials and parts such as home appliances, and the like. High strength for architectural and structural members such as roofing materials
AA to JIS 50 with high strength and excellent formability as Al alloy material
00 series, AA to JIS 6000 series with excellent moldability and bake hardenability
(Hereinafter simply referred to as 5000 series to 6000 series)
Various aluminum alloy wrought materials such as forged materials are used as is well known.

On the other hand, in recent years, scraps of aluminum alloy wrought materials (hereinafter referred to as scraps) which have been scrapped for use in these products or produced in the process of manufacturing products using these Al alloy materials. There is a social need for the use of recycled materials in terms of environmental protection and resource saving. And
Recycling of wrought aluminum alloy in the original sense means that this wrought aluminum alloy is not used as a melting raw material for lower-grade castings, but as a raw material for melting a standard aluminum alloy for wrought aluminum. It is to reuse.

When wrought aluminum alloy scrap is reused as a standard aluminum alloy melting raw material for wrought material, for example, 6000 series wrought aluminum scrap with a small amount of alloying elements (Si: 0.2 to 1.5%, Mg: 0.2-1.
(5%) can be 100% reused as a melting raw material for various Al alloy materials such as 3000 series, 5000 series, and 6000 series. However, 5000 series with a large amount of Mg as an alloying element (Mg: 2.0 to 5.0
%) Aluminum alloy wrought material scrap, apart from being reused as a raw material for dissolving the same 5000 alloy, apart from being reused as a raw material for dissolving other Al alloy materials, To
Without diluting with Al metal, it cannot be reused as a raw material for melting other Al alloy-based materials.

Therefore, these 5000 series and 6000 series Al
In order to reuse alloy wrought material scrap as a raw material for dissolving Al alloy for wrought material, it is necessary to distinguish between at least 5,000 and 6000 series alloy wrought material used, Needs to be grasped.

[0006]

[Problems to be Solved by the Invention] However, some products using Al alloy materials are used in the form of a mixture of 5000 series and 6000 series Al alloy materials. 50% of wrought aluminum alloy scrap from the manufacturing process
In many cases, both wrought material scraps of alloys of type 00 and type 6000 are mixed. Therefore, in order to reuse wrought aluminum alloy materials of 5000 series and 6000 series as a standard Al alloy melting raw material for wrought materials, it is necessary to sort out only each alloy waste from these mixed wastes. There is.

[0007] Usually, Al alloys including 5000 series and 6000 series Al alloys are used.
Since all the alloy materials have the original silver color tone of Al, the alloy system cannot be identified by visual observation of the external appearance.
In addition, mechanical sorting such as magnetic force that is performed with ordinary steel scraps also shows that Al alloy materials are non-magnetic and 5000 series.
This is not possible because there are no physical property differences that can be selected between the 6000 series alloys.

[0008] Therefore, there is no other method than the 5000 alloy and the 6000 alloy to be distinguished from each other by component analysis of wrought aluminum alloy scrap. However, this component analysis requires a great deal of cost and time, even if instrumental analysis is used. Also,
For example, even if the analysis accuracy of the instrument analysis is high, whether the analysis result is representative of the actual aluminum alloy wrought scrap, especially, 5000 series and 6000 series are mixed separately It becomes less reliable in such a waste form.

As a result, there is no practical and economical method for discriminating each alloy waste from the mixed waste.
Most of the wrought aluminum alloy scrap mixed with the system is not used as a raw material for dissolving a standard aluminum alloy for the original wrought material, but as a raw material for melting an aluminum alloy for a lower-grade aluminum casting. This is because a low-grade Al casting has a large amount of alloying elements and a large allowable range of impurities, and thus can be used satisfactorily even with a molten raw material whose history of wrought aluminum alloy scrap is unknown.

[0010] For this reason, conventionally, the history of Al alloy wrought material scraps in which 5,000 series and 6000 series are mixed has a clear history.
Only the wrought aluminum alloy scraps, in other words, only a part of the wrought aluminum alloy scraps generated are recycled and
The fact is that it has not been reused as an Al alloy melting raw material.

The present invention has been made in view of such circumstances, and an object of the present invention is to remove wrought aluminum alloy mixed with 5000 series and 6000 series, and to form a standard aluminum alloy for wrought aluminum alloy. 5000 series and 6000 series aluminum essential for reuse as melting raw material
It is intended to provide a simple method for identifying alloys.

[0012]

SUMMARY OF THE INVENTION To achieve this object, the gist of the present invention is to use a large amount of wrought material for a transporting machine, which may become a mixed waste or a large amount of the mixed waste itself, and Usually difficult to distinguish due to color difference, AA ~ JIS 5000 series and 6000 series Al alloy wrought material scrap mixed Al alloy surface is subjected to alkali etching to obtain a color difference, by this color difference, the 5000 series The purpose is to identify 6000 series aluminum alloy wrought scrap.

[0013] The identification method of the present invention, the wrought aluminum alloy scrap,
When a product using Al alloy wrought material is generated as waste material, when it occurs in the manufacturing process of a product using Al alloy wrought material, or when it occurs in the manufacturing process of Al alloy wrought material itself, etc. It is preferably applied.

[0014] In a preferred embodiment of the present invention,
Prior to the alkali etching, the wrought aluminum alloy scrap is heated to emphasize the difference in color tone between the alloy scrap of 5000 series and 6000 series (corresponding to claim 2).

Further, as another preferred embodiment of the present invention, in order to eliminate an artificial error in identification, the surface of the Al alloy dust having the color difference is subjected to JIS Z 8729 and 8730.
Measured by a color difference meter based on the color difference display specified in
It is to identify by the difference between the values of b ^* among the measured values of ^* , a ^* , and b ^* (corresponding to claim 3).

Here, the color tone difference of the Al alloy is changed from the original silver color by anodizing treatment in an Al alloy system such as a high Cu system 2000 system or a high Si system 4000 system.
It is known that the color tone changes to a special color tone that can be visually identified, and can be distinguished from the original 2000 series, 4000 series, or other Al alloy series.

On the other hand, in the case of wrought aluminum alloys such as 5000 series and 6000 series, even if the above-mentioned special treatment such as anodic oxidation treatment is performed, depending on the difference in the component composition of the Al alloy or the main or specific properties. It is also well known that the Al alloy material itself does not have a color tone difference so that the Al alloy system or the Al alloy composition can be identified by the difference in the amount of the alloying element.

Therefore, in the case of wrought Al alloys such as 5000 series and 6000 series, in the normal manufacturing process, particularly in the range of normal cleaning, surface treatment, heat treatment, etc., the difference in the Al alloy system or Al alloy composition causes Also, due to the difference in the amount of the main or specific alloying element, the color tone difference does not appear in the wrought Al alloy material itself so that the Al alloy system or the Al alloy composition can be identified.

On the other hand, the present inventors considered that the 5000 series and 6000 series
As a result of diligent studies to give a color difference to the wrought aluminum alloy scrap with the system, if the surfaces of both alloy-based wrought materials were etched with alkali, both alloy systems could be visually or identifiable. It was found that there was a difference in color tone.

Here, it is of course known that, when an aluminum alloy wrought material of the same alloy system is etched with an alkali, it is not etched but has a color tone difference. However, it is not known that a 5000-series and 6000-series aluminum alloy wrought material has such a large color tone difference that it can be visually identified or identified by a color difference meter when alkali etching is performed under the same conditions.

[0021]

BEST MODE FOR CARRYING OUT THE INVENTION (Etching method) In the present invention, the surface of 5000 type and 6000 type Al alloy wrought material scrap is subjected to alkali etching to produce a color tone difference. In other words, an alkaline etching condition is selected so that there is a color difference between the 5000 series and the 6000 series. As the aqueous alkali solution used for the etching, sodium hydroxide (NaOH), potassium hydroxide (KOH), NaAlO _2, etc., which are used for the pretreatment (alkali etching) of the ordinary surface treatment, can be used.

However, even when these alkaline aqueous solutions are used, the alkaline etching conditions are selected so that the 5000 series and the 6000 series have good reproducibility and a color tone difference that can be visually identified and identified by a color difference meter. There is a need.

A practically or economically preferable range of etching conditions is that the temperature of the etching solution (bath) is from room temperature to 80 ° C.
0 ° C, etching time such as dipping or spraying is 0.
It is in the range of 5 to 10 minutes, and it is preferable to select the conditions from this range and to select the alkaline etching conditions such that there is a color difference between the 5000 series and the 6000 series.

As the etching solution (bath) temperature increases, the etching time increases, and so on,
The color tone difference between the 6000 series and 5000 series wrought aluminum alloy scraps, including Δb ^* by the color difference system described later, tends to be large.
Therefore, as etching progresses, 6000 series and 5000 series Al
There is a difference in color tone between the wrought alloy scrap and the alloy wrought scrap, so that the two can be distinguished more easily.

However, on the other hand, if the etching time is too long or the temperature is too high, the etching becomes excessive and the 6000 series and 5000 series Al alloy wrought material scraps are similarly darkened. For this reason, on the contrary, there is a possibility that the color tone difference between the two disappears and the discrimination becomes impossible. Therefore,
It is more practical in terms of cost to suppress the temperature and time of the etching process as much as possible. In this regard, 6000 series and 5000
The lower limit of the alkaline etching condition is determined from the viewpoint of enabling reproducible identification of the wrought material scrap of the system Al alloy, and the upper limit of the alkaline etching condition is determined from the viewpoint of preventing the excessive etching and practicality.

In addition to the above, in the present invention, the alkali etching removes dirt such as lubricating oil adhering to the surface of the wrought aluminum alloy scrap, and the cleaning effect more clearly causes the color tone difference. There is also the advantage that it can be identified. Therefore, even when the surface of the wrought aluminum alloy scrap is contaminated with lubricating oil, there is no need for pretreatment such as cleaning to remove the lubricating oil and dirt, and the practical advantage that it can be easily identified. There is also. In addition, since the identification method of the present invention does not apply any substance other than the Al alloy component to the surface of the wrought aluminum alloy scrap at the time of identification, there is an advantage that it can be recycled as a raw material for melting as it is. .

Prior to the alkali etching treatment of the present invention, practically light conditions are applied to the wrought aluminum alloy scraps.
(200 to 400 ° C x 1 to 20 minutes) by heating or annealing, the 5000 series and 6000
It is possible to make a difference in color tone with the wrought aluminum alloy scrap with the system. Therefore, depending on the state of the wrought aluminum alloy scrap, the combination of the alkali etching treatment and the selection of the alkaline etching conditions can produce the color difference more efficiently than the color difference produced by the alkali etching treatment alone. May be possible.

The wrought material of the Al alloy after the alkali etching is subjected to post-treatments such as washing, drying or the like as it is, or visually or by using a measuring means such as a color difference meter to be used. Al alloy wrought scrap. The identified 5000-series and 6000-series aluminum alloy wrought scraps are sorted into their respective alloy systems, and as described above, the main components of each standard alloy-based wrought material (whether no metal or no metal) Is reused as a raw material for dissolution.

Normally, in addition to alkali, etching with an acid such as sulfuric acid or nitric acid is used for etching the wrought Al alloy. However, according to the findings of the present inventor, in etching with these acids, and also by washing with other organic solvents and surfactants, the color tone difference that makes it possible to discriminate between 5000 and 6000 systems is small. Does not appear.

(Color difference meter)
Is basically possible visually. But more artificial
Eliminate errors and mistakes, or streamline identification or sorting work
In order to carry out the process efficiently, the above-mentioned Al alloy wrought material scraps with color differences
Color difference based on JIS Z 8729 and 8730 color difference display
Measured with a meter^*, A^*, B^*Of the measured values of b^*
Are identified by the difference between the values of
It is preferable to use it for verification. This color difference meter
Is specified in the color difference display of JIS Z 8729 and 8730
L^*, A ^*, B^*Halogen lamp based on color system
Irradiates the surface of the wrought aluminum alloy scrap with
Of L^*, A^*, B^*Color difference by measuring
The measurement is performed.

According to the knowledge of the present inventors, wrought 5000 and 6000 series aluminum alloy scraps having a color difference caused by the alkali etching were measured with a color difference meter, and the L ^* , a ^* , and b ^* were measured. When comparing the values, as shown in the examples described below, particularly b
The difference in the value of ^* increases. Therefore, by comparing the difference in the value of b ^* , it is possible to easily distinguish the 5000 series and 6000 series wrought aluminum alloy scraps.

The value of b ^* represents the degree of yellow tint (L ^* represents the distinction between light and dark to black and white, and a ^* represents the distinction of red tint). Al
The value of b ^* is larger in the wrought alloy scraps. For this reason, visually, under a white fluorescent lamp, although both are basically silver, the wrought aluminum alloy material of 5000 series will be more yellowish, Even by visual inspection, the discrimination of wrought 6000 series and 5000 series aluminum alloy scraps is sufficiently possible.

On the other hand, if heat treatment is performed before alkali etching, conversely, the wrought 6000 series Al alloy material scraps will be more yellowish than the 5000 series. Also, in this case, visually, under a white fluorescent lamp, although the two are basically silver, the 6000 series Al alloy wrought material scraps become more yellowish. In other words, the 6000 series and 5000 series Al alloy wrought scrap can be sufficiently identified by visual inspection.

[0034]

Next, embodiments of the present invention will be described. The 6000 series Al alloy cold rolled sheet scraps of 6061 and 6063 having the composition shown in Table 1 (No.A,
Test specimens were collected from B) and 5052, 5082 6000 series Al alloy cold-rolled sheet waste (Nos. C and D). Cold rolling oil contaminated with Al powder adhered to the surfaces of these test materials.

Then, these A to D Al alloy test materials were
Under the conditions shown in Table 2, each of the examples of the invention etched NaOH, KOH, an alkaline aqueous solution such as NaAlO _2, also the comparative examples etched or washed with acid (sulfuric acid, nitric acid) and organic solvents (trichlorethylene) , And then washed and dried.
In addition, the invention example No. 5 is, as a pretreatment before etching,
Heat treatment was performed at 300 ° C. for 10 minutes.

The three arbitrary locations on the surface of the test material after the etching and / or the cleaning were applied to JIS Z manufactured by Nippon Denshoku Industries Co., Ltd.
Color difference meter based on 8729 and 8730 color difference display (Type ZE-2
000), the value of b ^* was measured, and the measured values were averaged at three measurement locations. Table 2 shows this b ^* value.
Shown in

As is clear from Table 2, Invention Examples Nos. 1 to 8 in which the surface of the wrought aluminum alloy scrap was subjected to alkali etching,
The value of b ^* is significantly different between 00 series and 5000 series Al alloy wrought scrap, and Δb ^* (difference in b ^* value) between 6000 series and 5000 series Al alloy wrought scrap is as large as 0.23 to 4.03. There is a difference in color tone, and it is possible to easily distinguish 5000 series and 6000 series Al alloy scraps by this color difference. Further, from this example, it can be seen that even when the surface of the wrought aluminum alloy scrap is contaminated with lubricating oil or the like, it can be easily identified.

Further, with the invention examples Nos. 1-4, as the etching progresses, for example, the alkali etching time becomes longer,
Δb ^* tends to increase between the 00 series and 5000 series wrought wrought scrap. Therefore, as etching progresses, 6000
It can be seen that there is a difference in color tone between the system-based and 5000 series aluminum alloy wrought material scrap, and it is possible to more easily distinguish the 5000 series and 6000 series aluminum alloy scraps.

Further, before the alkali etching treatment, Al
Inventive Example No. 5 in which wrought alloy scrap was subjected to heat treatment at 300 ° C. for 4 minutes) was compared with Inventive Example No. 2 in which alkali etching was performed under the same conditions, and the 6000 series and 5000 series were compared. The value of b ^* is much different from that of wrought aluminum alloy scrap, 6000 series and 5000 series
The Δb ^* (difference in b ^* value) with the wrought aluminum alloy scrap was as large as 7.63, indicating a color tone difference.

Also, visually, due to the difference in the value of b ^* , under the white fluorescent lamp, the 5000-series aluminum alloy material-extended and scraped material is more yellowish in the etching process without heating. Also, in the etching process after heating, the 6000 series Al alloy wrought material scrap has a yellowish tint, and it can be visually identified that both the 6000 series and 5000 series Al alloy wrought material scrap are distinguishable. It was possible enough.

On the other hand, in Comparative Examples Nos. 9 to 11, the b ^* values of the 6000 series and 5000 series wrought aluminum alloy scraps were not so different from those of the invention examples, and there was a difference in color tone. Absent. Also, visually,
Under white fluorescent light, there is no color difference, 6000 series and 5000 series Al
It was not possible to identify the wrought alloy scrap.

From these results, the significance of the identification method of the present invention is supported.

[0043]

[Table 1]

[0044]

[Table 2]

[0045]

According to the present invention, the wrought aluminum alloy having unknown or mixed history is indispensable for reusing the wrought aluminum alloy scrap as a raw material for dissolving the aluminum alloy for the wrought steel. A simple method for identifying AA to JIS 5000 and / or 6000 series alloy scrap from scrap can be provided. Therefore,
It has industrial value in that it promotes the recycling of wrought Al alloys and can therefore be used in a wider range of applications for transportation equipment such as automobiles, vehicles and ships.

Claims (3)

[Claims] 1. AA to JIS 5000 series and 6000 series aluminum alloy mixed aluminum alloy wrought material scraps are subjected to alkali etching to obtain a color tone difference, and this color tone difference causes the 5000 series and 6000 series aluminum alloys. A method for identifying aluminum alloy wrought scrap, comprising identifying alloy wrought scrap. 2. The method for identifying wrought aluminum alloy scrap according to claim 1, wherein the wrought aluminum alloy scrap is heated before the alkali etching. 3. The surface of the wrought aluminum alloy scrap having a different color tone, according to JISZ 8729 and 8730.
3. The identification of wrought aluminum alloy scraps according to claim 1 or 2, which is measured by a color difference meter based on a color difference display of ^* , a ^* , and b ^* , and identified by a difference in a measured value of b ^* among the color difference displays. Method.