JPH0952070A - Coated steel plate wit good lubricity and manufacture thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a coated steel plate which is suitable to be used in a place where an article is slid and has good properties including paint film surface lubricity, processability, and corrosion resistance. SOLUTION: This coated steel plate is composed of a chemical treatment layer formed on the surface of a galvanized steel plate, a primer layer formed on the surface of the chemical treatment layer, and a paint film layer formed on the primer layer. The primer layer contains polytetrafluoroethylene(PTFE) and polyether sulfone(PES) as main components in a PTFE/PES ratio of 10/90 to 60/40 and is formed by coating and baking a paint containing 10-50 pts.wt. of a rust preventing pigment per 100 pts.wt. of the solid content. The paint film layer is formed by a process in which a paint containing polytetrafluoroethylene and polyether sulfone as main components is applied and baked in the conditions in which a baking time X and a baking temperature Y meet expressions of Y>=(400/X)+320 and Y<=(700/X)+320 (where Y<420 and X<=100), and the total thickness of the paint film layer and the primer layer is 6-30μm.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention has excellent lubricity and workability on the surface of a coating film, which is suitable for use in a portion where an article is slid and moved, such as a delivery shooter of a vending machine. And a coated steel sheet having excellent corrosion resistance and a method for producing the same.

In recent years, the uses of coated steel sheets have diversified,
Not only has it been used for building materials such as roofs and materials for household electric appliances as in the past, but it is also being used for cooking vessels and delivery shooters for vending machines. Along with this, regarding the properties required for coated steel sheets, in addition to the conventional formability, flaw resistance, chemical resistance, corrosion resistance, weather resistance, etc., various characteristics such as heat resistance and lubricity are also required. It has become possible to be.

Among them, as materials for a delivery shooter of a vending machine, particularly, transportability of articles, that is, lubricity, processability and corrosion resistance are required as important characteristics.

[0004]

As a coated steel sheet for building materials and household electric appliances, a steel sheet on which a coating film containing polyester resin, vinylidene fluoride resin, silicone polyester resin, etc. as a main component is formed. Although used, such a coated steel sheet does not have the lubricity required for delivery shooters and the like.

As a coated steel sheet for cooking containers, a coating film made of a combination of a fluorinated olefin resin such as tetrafluoroethylene (PTFE) and another heat resistant resin such as polyether sulfone (PES) is used. A coated steel sheet having a coating film excellent in tackiness and heat resistance (hereinafter referred to as prior art) is disclosed in, for example, JP-A-61-111177, JP-A-61-112639, and JP-A-61-111.
378, JP-A-61-193842, JP-A-2-92536 and the like, and some have been put to practical use.

However, in the above-mentioned coated steel sheet of the prior art, as the base steel sheet, a chrome-plated steel sheet (TFS),
Since aluminum plates, stainless steel plates, etc. are used, corrosion resistance is insufficient for chrome-plated steel plates, strength is insufficient for aluminum plates, and punched for stainless steel plates. There are problems such as poor workability such as workability and high cost.

As described above, in the conventional coated steel sheet, for example, in a delivery shooter of a vending machine,
It is not possible to obtain the performance of the coating film having excellent lubricity, workability, and corrosion resistance, which is suitable for use in a site where an article is slid and moved.

Therefore, an object of the present invention is to solve the above-mentioned problems and to provide a coating film surface suitable for use in a site where an article is slid and moved, such as a delivery shooter of a vending machine. It is an object of the present invention to provide a coated steel sheet having excellent lubricity, workability and corrosion resistance, and a method for producing the same.

[0009]

The coated steel sheet of the present invention comprises:
It comprises a chemical conversion treatment layer formed on at least one surface of a zinc-based plated steel sheet, a primer layer formed on the chemical conversion treatment layer, and a coating layer formed on the primer layer. The primer layer is mainly composed of tetrafluoroethylene resin and polyether sulfone resin, and the weight ratio of tetrafluoroethylene resin / polyether sulfone resin in the primer layer is from 10/90 to.
The coating layer is formed by applying and baking a coating material in the range of 60/40 and containing 10 to 50 parts by weight of a rust preventive pigment per 100 parts by weight of the resin solid content. It is formed by applying a coating material containing a tetrafluoroethylene resin and a polyether sulfone resin as main components, and baking under the conditions that the baking time X (seconds) and the baking temperature Y (° C) satisfy the following formula. , Y ≧ (4000 / X) + 320 ··· (1) Y ≦ (7000 / X) + 320 ··· (2) where Y ≦ 420, X ≦ 100 and the baked coating layer The total film thickness with the primer layer is characterized by being in the range of 6 to 30 μm per one side of the steel sheet.

According to the method of the present invention, a zinc-based plated steel sheet is subjected to a chemical conversion treatment to form a chemical conversion treatment layer on at least one surface of the zinc-based plated steel sheet, and then the chemical conversion treatment layer is formed. 4 for galvanized steel sheets
Containing a fluorinated ethylene resin and a polyether sulfone resin in a weight ratio of tetrafluorinated ethylene resin / polyether sulfone resin within a range of 10/90 to 60/40, and a resin solid content of 100 parts by weight. A coating layer containing 10 to 50 parts by weight of a rust preventive pigment is applied and baked at a temperature in the range of 180 to 250 ° C to form a primer layer on the chemical conversion treatment layer. Then, on the primer layer, a paint having a tetrafluoroethylene resin and a polyether sulfone resin as a main component, after being baked, has a total thickness of the primer layer,
It is applied so that it falls within the range of 6 to 30 μm per one side of the steel plate, and the baking time X (seconds) and the baking temperature Y (° C) are expressed by the following formula Y ≧ (4000 / X) +320 (1) Y ≦ (7000 / X) +320 ··· (2) However, it is characterized in that a coating layer is formed on the primer layer by baking it under the conditions of satisfying Y ≦ 420 and X ≦ 100. Is to have.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION The coated steel sheet of the present invention will be described. As the base steel sheet, hot dip galvanized steel sheet, galvanized steel sheet such as electrogalvanized steel sheet, or zinc alloy system such as iron-zinc alloy system plated steel sheet, zinc-aluminum alloy system plated steel sheet, zinc-nickel alloy system plated steel sheet, etc. Plated steel sheets are used.

Among the above steel sheets, from the viewpoint of corrosion resistance and workability, the zinc plating amount is 15 to 90 per one side of the steel sheet.
A hot dip galvanized steel sheet or an electrogalvanized steel sheet having a g / m ² range is preferable. If the galvanizing amount is less than 15 g / m ² per one side of the steel sheet, the corrosion resistance is insufficient, while if it exceeds 90 g / m ² per one side of the steel sheet, cracks due to the plating layer are likely to occur during forming.

The chemical conversion treatment layer formed on at least one surface of the zinc-based plated steel sheet is not particularly limited, but a phosphate treatment such as zinc phosphate treatment or iron phosphate treatment, or It is formed by chromate treatment such as electrolytic chromate treatment, reactive chromate treatment, and coating type chromate treatment.

Considering that the heating temperature at the time of forming the uppermost coating layer is high, the chemical conversion treatment layer is more preferably formed by the chromate treatment among the above. When the chemical conversion treatment layer is formed by the phosphate treatment, there is a possibility that the adhesion may be slightly deteriorated during processing. When forming the chemical conversion treatment layer by chromate treatment, silica, phosphoric acid, a resin component, etc. may be added to the chromate treatment liquid in order to improve the corrosion resistance and the adhesion. The amount of the formed chromate film is preferably in the range of 10 to 150 mg / m ^{2 in} terms of metallic chromium per one surface of the steel sheet.

A primer layer is formed on the chemical conversion treatment layer to improve corrosion resistance and adhesion. The primer layer is mainly composed of tetrafluoroethylene resin (PTFE) and polyether sulfone resin (PES), and is contained within the range of 10/90 to 60/40 in the weight ratio of PTFE / PES in the primer layer. And applying a coating material containing 10 to 50 parts by weight of a rust preventive pigment per 100 parts by weight of the resin solid content,
It is formed by baking this.

The weight ratio of PTFE / PES in the primer layer is 1
If the PTFE component is out of the range of 0/90 to 60/40 and the PTFE component is less than 10 parts by weight or exceeds 60 parts by weight in 100 parts by weight of the resin, workability and adhesion are deteriorated.

The primer coating further comprises a resin solid content of 10
It contains 10 to 50 parts by weight of anticorrosion pigment per 0 parts by weight, which imparts a high degree of corrosion resistance to the primer layer. If the content of the rust preventive pigment is less than 10 parts by weight per 100 parts by weight of the resin solid content, desired corrosion resistance cannot be obtained. On the other hand, if the content of the rust preventive pigment exceeds 50 parts by weight per 100 parts by weight of the resin solid content, the workability deteriorates. As such a rust preventive pigment, so-called sparingly soluble chromate salts such as strontium chromate, zinc chromate and barium chromate are used, and it is particularly preferable to use strontium chromate which has a property of imparting corrosion resistance for a long period of time.

From the viewpoint of the appearance of the coated steel sheet, carbon black is often mainly mixed in the primer paint as a pigment for blackening. However,
When a large amount of carbon plaque is blended, the corrosion resistance of the coating film decreases. Therefore, from the viewpoint of corrosion resistance, the blending ratio of carbon plaque is preferably 2 parts by weight or less with respect to 100 parts by weight of the resin. When the compounding ratio of the carbon plaque exceeds 2 parts by weight with respect to 100 parts by weight of the resin, the corrosion resistance is lowered even if the rust preventive pigment is added to the paint.

When a polyester resin or an epoxy resin, which is mainly used in precoated steel sheets, is used as the base resin of the primer layer, the baking temperature of the uppermost coating layer is 360 ° C. or higher. At times, the resin deteriorates due to heat, and performance such as coating film adhesion deteriorates. The film thickness of the primer layer is not particularly limited, but from the viewpoint of corrosion resistance, adhesion and economical efficiency, it is 4 to 10
It is preferably in the range of μm.

As the coating layer formed on the primer layer, a paint containing tetrafluoroethylene (PTFE) resin and polyether sulfone (PES) resin as main components is used. The above-mentioned tetrafluoroethylene (PTFE) resin forms a highly lubricating layer on the surface of the coating film, and as a result, imparts excellent lubricity to the steel sheet.

The ratio of the tetrafluoroethylene (PTFE) resin to the polyether sulfone (PES) resin in the paint is not particularly limited, but the PTFE component is contained in 100 parts by weight of the resin.
It is preferably in the range of 40 to 70 parts by weight. If necessary, aluminum powder may be added to the paint.

The baking of the coating film coated with the above paint must be carried out under the conditions that the baking time X (seconds) and the baking temperature Y (° C.) satisfy the following equation. The baking temperature here means the maximum temperature reached by the steel sheet during baking. Y ≧ (4000 / X) +320 ... (1) Y ≦ (7000 / X) +320 ... (2) However, Y ≦ 420, X ≦ 100

When the baking conditions of the coating film do not satisfy the above formula (1), and the baking is performed at a low temperature for a short time, the polyether sulfone (PES) resin is not sufficiently melted, so that the lubricating The workability and workability cannot be improved. When the baking conditions of the coating film do not satisfy the above formula (2) and the baking is performed at a high temperature for a long time, melting, oxidative deterioration, alloying reaction, etc. occur in the galvanized layer. Workability deteriorates significantly.

From the viewpoints of lubricity, abrasion resistance, workability, coating / baking workability, etc., the film thickness of the coating layer is in the range of 6 to 30 μm per one side of the steel sheet in total with the primer layer. It is necessary to be. If the total film thickness of the coating layer and the primer layer is less than 6 μm per one side of the steel sheet, lubricity and abrasion resistance cannot be improved. On the other hand, when the total film thickness exceeds 30 μm per one side of the steel sheet, surface defects such as swelling occurring during baking of the coating film occur. The more preferable total film thickness of the coating layer and the primer layer is in the range of 8 to 25 μm per one side of the steel sheet.

The coated steel sheet of the present invention described above is manufactured as follows. Zinc formed on the surface of a steel sheet by applying a hot dip galvanizing treatment or an electrogalvanizing treatment to the surface of the steel sheet, and a galvanizing layer, a galvanizing zinc alloy layer, an electrogalvanizing layer, an electrogalvanizing alloy layer, etc. A system plating layer is formed. Then, such a zinc-based plated steel sheet on which the zinc-based plating layer is formed is subjected to chemical conversion treatment such as chromate treatment or phosphate treatment to form a chemical conversion treatment layer on the zinc-based plating layer.

Next, with respect to the zinc-based plated steel sheet on which the chemical conversion treatment layer has been formed, tetrafluoroethylene resin and polyethersulfone resin are added in a weight ratio of tetrafluoroethylene resin / polyethersulfone resin of 10 /. 90-60 / 40
Coating composition containing 10 to 50 parts by weight of the rust preventive pigment per 100 parts by weight of the resin solid content, and baking it to form a coating on the chemical conversion treatment layer. Form a primer layer.

The baking temperature of the primer is 180 to 250 ° C.
Must be within the range. If the baking temperature of the primer is less than 180 ° C, the processability and coating adhesion will be insufficient, while if the baking temperature exceeds 250 ° C, the coating appearance will be deteriorated in addition to the processing property and coating adhesion. .

Then, on the primer layer, tetrafluoroethylene (PTFE) resin and polyether sulfone (PES)
Apply a coating material containing resin as the main component so that the total thickness after baking will be within the range of 6 to 30 μm per one side of the steel plate after baking, and then bake it to form a coating on the primer layer. An overcoat coating layer is formed on. The baking of the coating film at this time needs to be performed under the conditions that satisfy the above-mentioned expressions (1) and (2).

Application of the coating material for forming the above-mentioned primer layer and coating film layer is carried out by a known application method such as a roll coater or curtain flow. The coating applied as described above is baked by a known baking method such as a hot air drying method, an induction heating method and an infrared heating method.

In this way, the zinc-based plating layer formed on the surface of the steel sheet, the chemical conversion treatment layer formed on the zinc-based plating layer, and the primer layer formed on the chemical conversion treatment layer. And then, the coated steel sheet of the present invention comprising the coating layer formed on the primer layer is manufactured.

[0031]

EXAMPLES Next, the coated steel sheet of the present invention and the method for producing the same will be further described by way of Examples in comparison with Comparative Examples. The surface of a steel plate having a thickness of 0.5 mm was subjected to electrogalvanizing treatment or hot dip galvanizing treatment to form an electrogalvanizing layer or hot dip galvanizing layer having a plating amount shown in Table 1. The zinc-based plated steel sheet thus prepared was subjected to chemical conversion treatment such as chromate treatment or phosphate treatment by the method of the present invention to form a chemical conversion treatment layer on the zinc-based plated layer.

Next, the zinc-based plated steel sheet on which the chemical conversion treatment layer is formed is subjected to a primer treatment by the method of the present invention to form a primer layer on the chemical conversion treatment layer,
Next, a coating layer was formed on the primer layer under the baking conditions of the present invention to prepare test pieces (hereinafter, referred to as test pieces of the present invention) Nos. 1 to 15 of the coated steel sheet of the present invention.

The primer layer was formed by applying the following coating material using a roll coater and then baking it for 60 seconds in a hot air drying oven. Primer layer: PTFE / PES (weight ratio is shown in Table 1) Anticorrosion pigment: Strontium chromate (Addition amount based on 100 parts by weight of resin is shown in Table 1) Black pigment: Carbon black (Addition amount based on 100 parts by weight of resin is shown (Described in 1)

The coating layer was formed by applying the following coating material using a roll coater and then baking it under the conditions shown in Table 1 in a hot air drying oven. Coating layer: PTFE / PES (50/50 weight ratio) Aluminum powder: 3 parts by weight (/ 100 parts by weight of resin)

The chemical conversion treatment was carried out by coating type chromate treatment or zinc phosphate treatment under the following conditions. Coating type Chromate treatment: Coating amount 40 mg / m ² (Cr amount conversion) Zinc phosphate treatment: Coating amount 1.2 mg / m ²

Table 1 shows the plating layer type and plating amount of the test samples No. 1 to 15 of the present invention, the type of chemical conversion treatment layer, the PTFE / PES weight ratio of the primer layer, the addition amount and film of the rust preventive pigment and the black pigment. The thickness, the baking temperature of the coating layer, the baking time, and the film thickness are shown. A primer layer having a film thickness of 5 μm was formed on the other surface of the zinc-based plated steel sheet, the same as the one surface.

[0037]

[Table 1]

For comparison, test pieces of coated steel plates (hereinafter referred to as comparative test pieces) Nos. 1 to 16 which were out of at least one of the conditions specified by the present invention were prepared. Table 2 shows the types and plating amounts of the comparative test samples Nos. 1 to 16, the type of chemical conversion treatment layer, the PTFE / PES weight ratio of the primer layer, the addition amount and film thickness of the rust preventive pigment and the black pigment, and The following shows the baking temperature, baking time, and film thickness of the coating layer. In addition, the thickness of the tin-free steel of comparative specimen No. 1 is 0.4 m
It was m.

[0039]

[Table 2]

The coating appearance, friction coefficient, abrasion resistance, workability, secondary adhesion and corrosion resistance of each of the present invention specimen and the comparative specimen were evaluated by the performance tests described below, and the evaluation results were obtained. Are also shown in Tables 1 and 2.

(1) Appearance of coating film: The coating film after baking was visually observed, and the observation results were evaluated as follows. ◎: When there is no cracking or swelling ○: When there is almost no cracking or swelling △: When a little cracking or swelling occurs ×: When remarkable cracking or swelling occurs

(2) Friction coefficient: friction coefficient measuring device "HEIDON
10 ”, weight on a tilted specimen 15
Inclination angle θ when 0 g of stainless steel board starts to slide
The static friction coefficient μ (= tan θ) was obtained from the above, and evaluated by the following. ◎: When μ is less than 0.12 ○: When μ is 0.12 to less than 0.18 △: When μ is less than 0.18 to 0.22 ×: When μ is 0.22 or more

(3) Abrasion resistance: Using a Taber abrasion tester and a CS-17 type abrasion wheel, the weight loss due to abrasion when the specimen was rotated 1000 times was measured and evaluated by the following. ◎: When the weight reduction is less than 50 mg ○: When the weight reduction is between 50 and 100 mg △: When the weight reduction is between 100 and 150 mg ×: When the weight reduction is 150 mg or more or when the substrate is exposed after less than 1000 rotations

(4) Workability: It consists of bending a 180 ° angle between a test piece and a steel plate having the same thickness as the test piece.
After T-bending, an adhesive tape is attached to the bent portion and then peeled off, and according to the peeled area of the coating film generated in the bent portion,
It was evaluated by the following. ◎: No peeling ○: Peeling area is less than 1-5% △: Peeling area is less than 5-30% ×: Peeling area is 30% or more

(5) Secondary Adhesion: The coating film of the test piece was cut with a cutter knife into a grid-like notch at intervals of 1 mm so as to form a 10 × 10 100-mesh test piece. On the other hand, extruding 9 mm with an Erichsen tester, immersing the extruded specimen in boiling water for 3 hours, then leaving it for 24 hours, and then sticking an adhesive tape on the notch part Based on the peeled area generated on the test piece when peeled off, the following evaluation was performed. ◎: When the peeled area is less than 5% ○: When the peeled area is 5 to less than 10% △: When the peeled area is 10 to less than 30% ×: When the peeled area is 30% or more

(6) Corrosion resistance: A cross-shaped notch reaching the metal base is formed in the coating film of the test piece, and JIS Z 2371 is used for the test piece having such cross-shaped notch.
The salt spray test was carried out for 500 hours based on the above, and the ratio of the area of the rusted part to the entire area was evaluated as the rusting rate based on the area of the rusted part generated, and evaluated as follows. ◎: When the rust rate is less than 5% ○: When the rust rate is 5-10% △: When the rust rate is 10-30% ×: When the rust rate is 30% or more

As is clear from the comparison between Table 1 and Table 2, the comparative specimen No. 1 using tin-free steel as the base steel sheet had poor corrosion resistance. Comparative sample No. 2 in which the primer layer was not formed had poor processability, secondary adhesion and corrosion resistance. Comparative sample No. 3 in which the total film thickness of the coating layer and the primer layer was less than the range of the present invention had poor wear resistance and corrosion resistance. Comparative sample No. 4 in which the total film thickness of the coating layer and the primer layer exceeds the range of the present invention, swelling occurred in the coating film after baking, and the coating film appearance, friction coefficient, workability, Both the secondary adhesion and the corrosion resistance were poor.

Comparative sample No. 5 whose baking temperature under the baking conditions of the coating layers represented by the formulas (1) and (2) was outside the range of the present invention and had a low friction coefficient was inferior in lubricity. Moreover, the abrasion resistance was also poor. Comparative specimen No. 6 whose baking temperature under the above-mentioned baking conditions is higher than the range of the present invention
Had poor coating film appearance, friction coefficient, workability, secondary adhesion and corrosion resistance, and Comparative Sample No. 7 had poor coating film appearance, workability and secondary adhesion. Comparative sample No. 8 having a long baking time outside the range of the present invention had poor workability.

Comparative sample No. 9 in which the chemical conversion treatment layer was not formed was poor in workability, secondary adhesion and corrosion resistance. Comparative sample No. 10 in which the PTFE / PES weight ratio of the primer layer was small outside the range of the present invention had poor processability, secondary adhesion and corrosion resistance. PTFE / PES weight ratio of primer layer exceeds the range of the present invention and is comparatively large No. 11
Had poor processability and secondary adhesion.

Comparative specimens No. 12, 13 and 14 in which no rust-preventive pigment was added to the primer layer and comparative specimen No. 15 in which the content of the rust-preventive pigment was less than the range of the present invention
Had poor corrosion resistance. The content of rust preventive pigment in the primer layer exceeds the range of the present invention and is a comparative sample.
No. 16 had poor workability and secondary adhesion.

On the other hand, Samples Nos. 1 to 14 of the present invention are excellent in all of the coating film appearance, friction coefficient, abrasion resistance, workability, secondary adhesion and corrosion resistance. Inventive test sample No. 15 was excellent in all other performances although the corrosion resistance was slightly lowered because the black pigment content was large.
There was no practical problem.

[0052]

As described above, according to the present invention,
For example, a coated steel sheet that has excellent lubricity of the coating film surface and is excellent in workability and corrosion resistance, which is suitable for use in a place where an article is slid and moved, such as a delivery shooter of a vending machine. Excellent effect is brought about.

Claims (2)

[Claims] 1. A chemical conversion treatment layer formed on at least one surface of a zinc-based plated steel sheet, a primer layer formed on the chemical conversion treatment layer, and a coating formed on the primer layer. The primer layer is mainly composed of tetrafluoroethylene resin and polyethersulfone resin, and the weight ratio of tetrafluoroethylene resin / polyethersulfone resin in the primer layer is Within the range of 10/90 to 60/40,
The coating layer is formed by applying and baking a paint containing 10 to 50 parts by weight of a rust preventive pigment per 100 parts by weight of the resin solid content, and the coating layer is a tetrafluoroethylene resin and a polyether. It is formed by applying a coating material containing a sulfone resin as a main component, and baking it under the conditions that the baking time X (seconds) and the baking temperature Y (° C) satisfy the following formula: Y ≧ (4000 / X) +320 ... (1) Y ≦ (7000 / X) +320 ... (2) where Y ≦ 420, X ≦ 100 and the total film thickness of the baked coating layer and the primer layer. Is a coated steel sheet with excellent lubricity, characterized in that it is in the range of 6 to 30 μm per side of the steel sheet. 2. A zinc-based plated steel sheet is subjected to a chemical conversion treatment to form a chemical conversion treatment layer on at least one surface of the zinc-based plated steel sheet, and then the zinc-based plated steel sheet on which the chemical conversion treatment layer is formed is formed. On the other hand, a tetrafluoroethylene resin and a polyether sulfone resin are contained within a range of 10/90 to 60/40 in a weight ratio of tetrafluoroethylene resin / polyether sulfone resin, and a resin solid content. 10-5 per 100 parts by weight
A coating layer containing 0 part by weight of an anticorrosive pigment is applied and baked at a temperature in the range of 180 to 250 ° C. to form a primer layer on the chemical conversion treatment layer, and then, The coating thickness of the coating containing, as a main component, a tetrafluoroethylene resin and a polyether sulfone resin on the primer layer is 6 to 30 μm per one side of the steel plate in total with the primer layer. So that the baking time X (seconds) and the baking temperature Y (° C) are as follows: Y ≧ (4000 / X) +320 ... (1) Y ≦ (7000 / X) +320. .. (2) However, the coating film layer is formed on the primer layer by baking it under conditions satisfying Y ≦ 420 and X ≦ 100, which is excellent in lubricity. Manufacturing method of coated steel sheet.