JP5205870B2 - Aqueous coolant for DI molding of laminated metal sheet - Google Patents

Description

  The present invention relates to a coolant (lubricant / coolant) used in manufacturing a laminated DI can, and more specifically, an aqueous iron used in manufacturing a DI can by ironing or redrawing / ironing a laminated metal plate. The present invention relates to a molding coolant.

The DI can is one of two-piece cans that have no joint between the body and the bottom. The can is made by drawing or redrawing and ironing a drawn can made by drawing (copping) a metal plate. It is used as a container for beverages such as beer and soft drinks and as a container for foods such as soup and vegetables.
Here, the drawing is a drawing machine called a cupping press. A metal plate cut out in a disk shape is fixed with a crease presser and formed into a cup shape with a bottom using a tool consisting of a combination of a punch and a die. It is a processing method to do. In addition, ironing is a process of thinly extending the side wall of a cup obtained by drawing.
In drawing, if the diameter of the metal plate cut out in a disk shape is too large compared to the diameter of the ironing punch, it may be difficult to obtain a cup of the required shape by one drawing. In general, forming into a required shape by two times of drawing (drawing-redrawing) is performed. In this process, a cup having a relatively large diameter is manufactured by a drawing machine called a cupping press, then redrawing is first performed in a body maker (can body forming machine), and then ironing is performed. Become.

  As a material of the DI can, a tin-plated steel plate or an aluminum thin metal plate has been generally used so far. Then, after these metal plates are formed into a desired shape by DI molding, post-treatments such as washing, surface treatment, and painting are performed to obtain a product (DI can). However, recently, in order to eliminate or simplify such post-treatments such as cleaning, surface treatment, and painting, DI using a metal plate laminated with a film (hereinafter sometimes referred to as a laminated metal plate). A method of forming a container product without post-processing by molding has been studied.

The DI molding method differs greatly between the case of DI molding of a metal plate laminated with a film and the case of using a conventional metal plate as a material.
In the production of a conventional DI can made of a metal plate, an emulsion type coolant is generally used. In the emulsion type coolant, since oil is dispersed in water, it is necessary to use a chemical for cleaning the oil remaining on the surface of the can, which is not suitable for DI molding of a laminated metal plate. Recently, as described in Patent Documents 1 to 3, water-soluble coolants having excellent degreasing properties and cleaning properties have been developed and become common. Since this water-soluble coolant is made of a metal plate, a polyalkylene polyol (Patent Document 1), a trihydric alcohol and a fatty acid having 18 carbon atoms are used for the purpose of reducing the friction between the metal surface and the forming tool and improving the formability. Viscosity is increased by ester (Patent Document 2), polyoxyalkylene (Patent Document 3), etc., and it is made alkaline by adding an amine-based rust preventive for the purpose of rust prevention of forming tools and metal plates. Has been. However, when the above water-soluble coolant is applied to DI molding using a laminated metal plate as a raw material, there are various problems such as inferior moldability, easy film damage, and poor food safety. Yes, not applicable.
On the other hand, although not for coolants, attempts have been made to add amino acids with high food safety to rust prevention of iron-based metal devices. Patent Document 4 describes that a polymer containing an amino acid is added. However, acidic amino acids such as aspartic acid are not necessarily effective in preventing iron corrosion.
JP 59-166595 A Japanese Patent Laid-Open No. 10-85872 Japanese Patent Laid-Open No. 10-88176 JP-A-8-1003009

In the case of DI molding of a laminated metal plate, the molding method is fundamentally different from DI molding of a conventional metal plate because the metal plate surface is covered with a laminate film.
Since the surface of the laminate film is softer and more lubricious than the metal surface, if a high-viscosity coolant containing a polymer such as that used for a metal plate is used, the moldability is lowered.
Furthermore, the polyester film used for the laminated metal plate is stable when acidic, but is slightly inferior in durability when alkaline. Furthermore, it cannot be said that amine-based rust preventives such as triethanolamine have high food safety.

  SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances. An aqueous coolant for forming a laminated metal plate DI that can form a laminated metal plate DI and obtain a laminated DI can excellent in durability and food safety is provided. The purpose is to provide.

The inventors of the present invention have intensively studied to solve the above problems. As a result, the following knowledge was obtained.
We have investigated a coolant suitable for DI molding of laminated metal plates. By using an aqueous coolant with an appropriate amino acid and polypeptide and an almost neutral pH as the coolant solution, it is possible to laminate without sacrificing food safety. It has been found that the DI formability of the metal plate is greatly enhanced.
In addition, suitable amino acids and polypeptides have a pH of 6.5 to 12 at 50 ° C. when the amino acids and / or polypeptides are dissolved so that the total amount is 0.03 to 1% by mass in an aqueous solution. Because it contains a lot of amino groups in the molecule, it can be easily adsorbed on the surface of metals such as iron, and the rust resistance of the molding equipment and the material is increased. Deterioration of the film can be suppressed. Furthermore, it has been found that cleaning of the can after DI molding is much easier than conventional coolant.

The present invention has been made based on the above findings, and the gist thereof is as follows.
[1] Laminated metal plate having a pH of 6.5 to 12 and containing 0.03 to 1% by mass in total of at least one selected from amino acids and polypeptides and having a pH of 6 to 8 at 50 ° C. Aqueous coolant for DI molding.
However, the amino acid and the polypeptide having the pH of 6.5 to 12 dissolve at least one selected from the amino acid and the polypeptide so that the total amount in the aqueous solution is 0.03 to 1% by mass. The pH at 50 ° C. is 6.5-12.
[2] The water-based coolant for forming a laminated metal sheet DI according to [1], wherein the amino acid is at least one selected from histidine, arginine, lysine, oxylysine, and theanine.
[3] In the above [1] or [2], the polypeptide contains 40% by mass or more of one or more amino acids selected from histidine, arginine, lysine and oxylysine. Aqueous coolant.
[4] In any one of the above [1] to [3], further selected from rust preventives, oily agents, surfactants, detergents, dispersants, antioxidants, preservatives, and antifoaming agents. An aqueous coolant for forming a laminated metal sheet DI, comprising at least one kind.

  By using the aqueous coolant of the present invention for DI molding, a laminated metal plate can be DI molded, and a laminated DI can excellent in food safety and durability can be obtained. In addition, since the cleaning process after molding is simplified, productivity is greatly increased.

The water-based coolant for forming a laminated metal sheet DI of the present invention contains 0.03 to 1% by mass in total of at least one selected from amino acids and polypeptides having a pH of 6.5 to 12, at 50 ° C. The pH is 6-8. However, the amino acid and polypeptide having a pH of 6.5 to 12 are at 50 ° C. when the amino acid and / or polypeptide are dissolved in an aqueous solution so that the total amount is 0.03 to 1% by mass. PH of 6.5-12.
Hereinafter, this will be described in detail.

0.03 to 1% by mass in total of at least one selected from amino acids and polypeptides having a pH of 6.5 to 12
The amino acids and polypeptides of the present invention contain both a carboxyl group and an amino group in the molecule, and have a structure with a large number of amino groups, so that they are adsorbed on the metal surface by the amino group and sufficiently suppress the corrosion of the metal. On the other hand, by including a carboxyl group, it is possible to suppress deterioration of the polyester resin used for the laminate film. In order to obtain such an effect, the pH of amino acids and polypeptides should be 6.5 or higher. On the other hand, although there are few amino acids and polypeptides whose pH exceeds 12, these may cause damage to the film. In addition, pH in this case is 6.5-12. When amino acid and / or polypeptide are melt | dissolved so that it may become 0.03-1 mass% in total in aqueous solution, pH at 50 degreeC is 6. 5-12. Hereinafter, “pH of 6.5 to 12 at 50 ° C. when amino acids and / or polypeptides are dissolved so that the total amount is 0.03 to 1% by mass in an aqueous solution” is abbreviated as “pH is 6”. .5-12 ".
In the present invention, a polypeptide is a polymer compound in which two or more amino acids are condensed by peptide bonds. Polypeptides are synthesized by partial hydrolysis of natural proteins or by dehydration condensation of amino acids. Furthermore, as long as the condition of pH 6.5 to 12 is satisfied, the natural protein is included in the polypeptide.
The amino acids and polypeptides having a pH of 6.5 to 12 in the present invention do not deteriorate the polyester film and hardly remain in the film, so that they can be sufficiently washed out by simple washing. Furthermore, it is possible to suppress corrosion of both the laminated metal plate and the device.

  Moreover, in this invention, it shall contain 0.03-1 mass% in total of 1 or more types chosen from an amino acid and polypeptide component. If it is less than 0.03% by mass, the effect of inhibiting corrosion is low. On the other hand, even if it exceeds 1% by mass, the rust-preventing effect does not change much. On the other hand, it is difficult to wash off by simple cleaning, which is unsuitable from the viewpoint of cost. Preferably, it is 0.05-0.5 mass% in total.

  The amino acid and polypeptide having the above composition are dissolved in water to obtain the basic composition of the aqueous coolant. As water used as a solvent, tap water, ion exchange water, distilled water, etc. can be used as they are.

As described above, in the present invention, as described above, amino acids and / or polypeptides having a pH of 6.5 to 12 can be used. As amino acids, both protein-constituting amino acids and protein non-constituting amino acids can be used.
From the viewpoint of high food safety and easy availability, the amino acid is preferably at least one selected from histidine, arginine, lysine, oxylysine, and theanine.

The polypeptide preferably contains 40% by mass or more of one or more amino acids selected from histidine, arginine, lysine and oxylysine. By containing many amino acids having high food safety, a highly safe polypeptide having a pH of 6.5 to 12 can be obtained. For example, from the extract component of bonito, a polypeptide near pH 7 containing 50% or more of histidine is obtained, and its components, anserine and carnosine, are also dipeptides containing histidine.
PH at 50 ° C. is 6-8
The coolant temperature in DI molding of the laminated metal plate is adjusted to around 50 ° C. Therefore, the coolant physical properties in that temperature range are important. In the case of a metal plate, it is adjusted to be alkaline by adding an amine or the like, whereas the pH suitable for the laminated metal plate used in the present invention is optimally pH 6 to 8 in a substantially neutral region. In this case, the pH of 6 to 8 at 50 ° C. is selected from the case where one or more selected from the above amino acids and polypeptides are added to the aqueous coolant, and from the above amino acids and polypeptides. The pH at 50 ° C. when one or more other additives are added to the aqueous coolant. Since amino acids and / or polypeptides having a pH of 6.5 to 12 are added, if the pH is too high, the pH is lowered by adding a carboxylic acid such as acetic acid or citric acid or an amino acid. If the pH is higher than 8, the film tends to deteriorate, and if the pH is lower than 6, the underlying metal plate tends to corrode.

  Furthermore, in this invention, the other rust preventive agent which assists corrosion suppression can be added unless food safety is impaired.

As rust preventive components to be added as a rust preventive auxiliary agent, 1) octanoic acid, naphthenic acid, alkenyl succinic acid, sebacic acid, oleic acid, lanolinic acid, caprylic acid, pelargonic acid, lauric acid, ricinoleic acid, (4- Nonylphenoxy) One or more selected from carboxylic acids such as acetic acid, esters of the above carboxylic acids, or metal salts (Na, K, Ca, Mg, etc.) of the above carboxylic acids, 2) petroleum sulfonic acid, dinonylnaphthalene One or more selected from sulfonic acids such as sulfonic acids, alkylbenzene sulfonic acids, alkylnaphthalene sulfonic acids, esters of the above sulfonic acids, or metal salts of the above sulfonic acids (Na, K, Ca, Mg, etc.) 3) Boric acid, silicic acid, phosphoric acid and other acids, boric acid, silicic acid, phosphoric acid and other esters, boric acid, silicic acid, Each metal salt such as phosphate (Na, K, Ca, Mg, etc.) one or more selected from among is suitably used. And in adding said 1) -3), 1 type chosen from 1) -3) may be added independently, and 1 or more types chosen from 1) -3) are added. Multiple additions may be made.
The above components do not deteriorate the polyester film and do not easily remain in the film, so that they can be sufficiently washed out by simple washing. And it is possible to suppress corrosion of both the laminated metal plate and the apparatus.
The content of the rust preventive component is preferably 0.03 to 1% by mass. If it is less than 0.03% by mass, the effect of inhibiting corrosion is low. On the other hand, even if it exceeds 1% by mass, the rust-preventing effect does not change much. On the other hand, it is difficult to wash off by simple cleaning, which is unsuitable from the viewpoint of cost. More preferably, it is 0.05-0.5 mass%.

  Furthermore, in the present invention, in addition to the above, if desired, other additives such as oily agents, surfactants, detergents, dispersants, antioxidants, preservatives, antifoaming agents, metal ion sealing agents and the like are added. You may mix | blend suitably. The compounding amount of the additive is not particularly limited, and may be appropriately prepared according to a conventional method.

Examples of oily agents include fatty acids, fatty acid esters, higher alcohols, and the like, for example, linear saturated fatty acids such as stearic acid, monoene unsaturated fatty acids such as oleic acid, polyene unsaturated fatty acids, alicyclic Fatty acid, monohydroxy fatty acid, dihydroxy fatty acid and the like can be mentioned. Examples of fatty acid esters include esters of the above fatty acids with alkyl alcohols (methyl esters, ethyl esters, propyl esters, butyl esters, pentyl esters, hexyl esters, octyls). Ester, nonyl ester, decane ester, undecane ester, dodecane ester, tetradecane ester, hexadecane ester, octadecane ester), ester with trimethylolpropane, pentalithitol, and the like. Further, examples of the higher alcohol include lauryl alcohol and oleyl alcohol.

As the surfactant surfactant, nonionic, anionic, cationic or amphoteric surfactants can be used, and among these, nonionic surfactants are particularly preferable. Specific examples of nonionic surfactants include polyethylene oxide ether surfactants such as alkyl polyethylene oxide ether, alkyl polypropylene oxide polyethylene oxide ether, pluronic and tetronic, sorbitan fatty acid ester, fatty acid sugar ester, glycerin fatty acid ester. , Polyhydric alcohol fatty acid ester surfactants such as pentaerythritol fatty acid ester, polyethylene oxide fatty acid ester, sorbitan polyethylene oxide fatty acid ester, sorbitol polyethylene oxide fatty acid ester, pentaerythritol polyethylene oxide fatty acid ester, castor oil polyethylene oxide, etc. Surfactant etc. are mentioned.
The nonionic surfactant and the anionic surfactant can be used in combination. Furthermore, known cationic surfactants and amphoteric surfactants can also be used.

Examples of the detergent cleaner include alkali metal or alkaline earth metal sulfonate, alkali metal or alkaline earth metal salicylate, alkali metal or alkaline earth metal phenate, and fatty acid soap.

Examples of the dispersant include alkenyl succinimides and nonionic surfactants.

Antioxidants As antioxidants, phenol compounds such as 2,6-di-tert-butyl-p-cresol (DBPC), bisphenol compounds such as 4,4'methylenebis (2,6-di-tert-butylphenol) Etc.

Typical examples of the antiseptics include phenolic, triazine-based, and isothiazoline-based compounds. Specific examples of the phenolic-based compounds include o-phenylphenol, Na-o-phenylphenol, 2,3,4. , 6-tetrachlorophenol and the like. Examples of triazines include hexahydro-1,3,5-tris (2-hydroxyethyl) -1,3,5-triazine. Examples of the isothiazoline series include 1,2-benzisothiazoline-3-one, 5-chloro-2-methyl-4-isothiazoline-3-one, and 2-methyl-isothiazoline-3-one.

Examples of antifoaming agents include silicone emulsions, higher alcohols, metal soaps, and ethylene-propylene copolymers.

As a material of the laminated metal plate in the present invention, a steel plate or an aluminum material can be used, but an inexpensive steel plate is preferable from the viewpoint of economy. As the steel sheet for the laminate base, a chrome-plated steel sheet or a tinted steel sheet can be used. Chromium The plated steel sheet (tin-free steel), a metal layer of chromium coating weight 50-200 mg / ^{m 2} on a surface, said metallic chromium layer of chromium oxide layer of the deposited amount 3 to 30 mg / ^{m 2} of metallic chromium conversion It is preferable to have on the surface. The tinplate preferably has a plating amount of 0.5 to 15 g / m ² . Although plate | board thickness is not specifically limited, For example, the thing of the range of 0.15-0.30 mm can be used conveniently.

Subsequently, the resin layer which comprises the laminated metal plate in this invention is demonstrated. The resin layer constituting the laminated metal plate of the present invention is based on a polyester resin. The polyester resin film is excellent in mechanical strength, has a small coefficient of friction and good lubricity, has an excellent shielding effect against gas and liquid, that is, barrier property, and is inexpensive. Therefore, it can sufficiently withstand the forming with a high degree of processing such as the DI forming with an elongation of 300%, and the film is sound after the forming.
The dicarboxylic acid component of the polyester resin has terephthalic acid as the main component, and the diol component has ethylene glycol as the main component. And it is preferable to contain 8 mol% or more and 20 mol% or less of isophthalic acid components as a copolymerization component from the balance of workability and strength of the polyester resin layer. The crystallization temperature is preferably 120 to 160 ° C.
When the copolymer component ratio is low, the molecules are easily oriented, and when the degree of processing increases, film peeling tends to occur or cracks (breaks) parallel to the can height direction tend to occur. Further, when the processed can body is subjected to a heat treatment, the orientation proceeds in the same manner. From the standpoint of difficulty in orientation, the higher the ratio of the copolymer component, the better. However, if it exceeds 20 mol%, the film cost becomes high, resulting in poor economics, and the film becomes flexible, scratching and chemical resistance. May be reduced.
With respect to the crystallization temperature, if it is lower than 120 ° C., it is very easy to crystallize, so that cracking and pinholes may occur in the film resin in processing with a high degree of processing. On the other hand, when the temperature is higher than 160 ° C., the crystallization speed is very slow. Therefore, even when heat treatment at 150 ° C. or higher, the film is not sufficiently crystallized and the strength and durability of the film may be impaired.
Furthermore, in the resin layer, additives such as pigments, lubricants and stabilizers may be added and used, or a resin layer having other functions may be arranged in an upper layer or an intermediate layer with the base steel plate to form two or more layers. It may be a resin layer. With respect to the thickness of the resin layer, a thickness of 5 μm or more and 50 μm or less can be suitably used.
The laminated metal plate in the present invention has the above-described polyester resin layer on both sides of the above-described metal plate. The method for laminating the resin on the metal plate is not particularly limited. A thermocompression bonding method in which a biaxially stretched film or an unstretched film is thermocompression bonded, an extrusion method in which a resin layer is directly formed on a metal plate using a T die, or the like can be appropriately selected. Furthermore, it is possible to bond a polyester resin film to a base metal plate using an adhesive such as polyester urethane or saturated polyester, and it has been confirmed that any method can provide a sufficient effect. However, the thermocompression bonding method is also economically advantageous because it has excellent adhesion to the base metal and does not require an adhesive.

In the DI molding of the present invention, a commercially available cupping press and DI press apparatus can be used, and there is no difference depending on the specifications. The water-based coolant for forming a laminated metal sheet DI of the present invention is used for ironing (and redrawing) in a DI press device, and circulates in the device to cool during forming. On the other hand, as the lubrication during the drawing process of the cupping press, it is preferable to apply a wax to the surface of the laminated metal plate, and a coating of 10 to 500 mg / m ² of paraffin or fatty acid ester wax having a melting point of 30 to 80 ° C. Good moldability.
After molding in the DI press apparatus, it can be used as it is without being washed, but can be used as it is, but when washed and used, washing with water is sufficient. Additives such as surfactants and rust preventives can be added to the cleaning water to further improve cleaning properties and to suppress corrosion.
In order to improve drying and film adhesion, it is preferable to carry out a drying treatment at a temperature not lower than 60 ° C. and not higher than the melting point of the resin layer, more preferably at 200 ° C. or higher.

Examples of the present invention will be described below.

"Production of laminated steel sheet"
A chrome-plated steel sheet having a thickness of 0.20 mm and a tempering degree T3 (metal Cr layer: 120 mg / m ² , Cr oxide layer: 10 mg / m ^{2 in} terms of metal Cr) was used as the base original plate, A 25% thick 10% copolymerized polyethylene terephthalate film of isophthalic acid produced by the axial stretching method is pressure-bonded onto a steel plate heated to 240 ° C. using a nip roll, and then cooled with water and dried within 1 second to laminate. A laminated steel sheet for DI cans was produced.

"Can body molding"
Using the laminated steel sheet obtained as described above, a can was formed by DI molding under the following conditions. Moreover, stripping property, DI moldability (film outer surface soundness after molding), and corrosion resistance (can inner surface soundness) were evaluated by the performance test described below after DI molding. In addition, about evaluation of the said DI moldability and the said corrosion resistance, it sprays with 50 degreeC ion-exchange water for 2 minutes with respect to DI can made by DI shaping | molding, Then, it is 200 degreeC drying oven. After drying for 30 seconds, the following tests were conducted. The obtained results are shown in Table 1.

"DI molding"
In DI molding, 50 mg / m ² of paraffin wax having a melting point of 45 ° C. was applied to both surfaces of a laminated steel sheet, and then a 123 mmφ blank was punched out, and the blank was squeezed into a cup with an inner diameter of 71 mmφ and a height of 36 mm using a commercially available cupping press Molded. Next, this cup was inserted into a commercially available DI press machine, and redrawing and three-stage ironing (reduction 20%, 19%, 23%, respectively) were performed at a punch speed of 200 mm / s and a stroke of 560 mm. Finally, a can having an inner diameter of 52 mm and a height of 90 mm was formed. During DI molding, a coolant having the composition shown in Table 1 was circulated at a temperature of 50 ° C. Moreover, the coolant of Table 1 used the tap water as water.

(1) Stripping property When the punch was pulled out from the molded can body during the DI molding, the phenomenon that the opening end of the can body was caught by the stripper and the opening end of the can was distorted was evaluated as follows.
(Evaluation)
The distortion generated at the open end reaches the trimming part: ×
Although distortion occurs at the opening end, the distortion does not reach the trimming part: Δ
Distortion occurs at the open end, but the distortion remains at the ear at the open end: ○
No distortion at the open end: ◎
(2) DI moldability (can film outer film soundness after molding)
Evaluation was performed based on the soundness of the outer film of the can after molding (those having few film defects are good). After cleaning and drying the DI can, the container can be energized with a file so that the steel plate of the DI can can be energized, and then the container containing the electrolyte (NaCl 1% solution, temperature 25 ° C.) is slightly larger than the DI can The DI can was placed with the bottom facing down so that only the outer surface of the can was in contact with the electrolyte. Thereafter, evaluation was performed as follows according to the current value measured when a voltage of 6.2 V was applied between the can and the electrolyte.
(Evaluation)
Over 5 mA: ×
More than 0.5 mA, 5 mA or less: △
More than 0.05 mA, 0.5 mA or less: ○
0.05 mA or less: ◎
(3) Corrosion resistance (soundness of the inner surface of the can)
Regarding the soundness of the inner film of the can (those with fewer film defects are good), after cleaning and drying the DI can, the can mouth is scratched with a file so that the steel plate of the DI can be energized. An electrolyte solution (NaCl 1% solution, temperature 25 ° C.) was poured into the can and filled up to the can, and then a voltage of 6.2 V was applied between the can and the electrolyte. Evaluation was made as follows according to the current value measured at this time.
(Evaluation)
Over 1 mA: ×
More than 0.1 mA, 1 mA or less: △
More than 0.01 mA, 0.1 mA or less: ○
0.01 mA or less: ◎

  From Table 1, when coolant C1-C17 which is an example of this invention was used, stripping property, DI moldability, and corrosion resistance were all favorable. On the other hand, when the coolants C18 to C24, which are comparative examples, were used, any one or more of stripping properties, DI moldability, and corrosion resistance were inferior.

Claims (4)

pH is 6.5 to 12, comprising 0.03 to 1 wt% of one or more selected from among amino acids and polypeptides in total, Ri pH 6 to 8 der at 50 ° C.,
The water-based coolant for forming a laminated metal sheet DI , wherein the amino acid is at least one selected from histidine, arginine, lysine, oxylysine, and theanine .
However, the amino acid and the polypeptide having the pH of 6.5 to 12 dissolve at least one selected from the amino acid and the polypeptide so that the total amount in the aqueous solution is 0.03 to 1% by mass. The pH at 50 ° C. is 6.5-12. 2. The aqueous coolant for forming a laminated metal sheet DI according to claim 1, wherein the polypeptide contains 40% by mass or more of one or more amino acids selected from histidine, arginine, lysine, and oxylysine. Furthermore, 1 or more types chosen from a rust preventive agent, an oiliness agent, surfactant, a detergent, a dispersing agent, antioxidant, antiseptic | preservative, and an antifoamer are contained, The Claim 1 or 2 characterized by the above-mentioned. An aqueous coolant for forming a laminated metal sheet DI according to 1. The manufacturing method of DI can which DI-molds a laminated metal plate using the aqueous coolant of any one of Claims 1-3.