JPH0657442A - Lubricant plated steel sheet excellent in gnawing resistance, heat resistance and sliding wear resistance - Google Patents

Abstract

(57) [Summary] [Purpose] To provide a lubricated plated steel sheet having excellent galling resistance and sliding wear resistance. [Structure] The surface of a plated steel sheet is coated with a chemical conversion coating as a first layer and a lubricating coating with a thickness of 0.1 to 5.0 μm as a second layer. The lubricating coating is composed of 2 to 50 parts by weight of a solid lubricant with respect to 100 parts by weight of the inorganic polymer compound. [Effect] It is possible to perform high-speed bending processing with high dimensional accuracy and shallow drawing without using press oil, wear of sliding parts is small, and processes can be omitted. Eco-friendly as no press oil is used.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a non-film-removing type lubricated surface-treated steel sheet having excellent galling resistance and sliding characteristics.

[0002]

2. Description of the Related Art Surface-treated steel sheets coated with a thin coating are used in place of post-painted products which have been conventionally coated after processing. This steel sheet has a zinc-based plating film as a base and a thin functional film coated on the undercoat, and is weldable and has excellent characteristics in adhesion workability and corrosion resistance.

JP-A-3-39485 discloses a resin coating in which a zinc-based plated steel sheet is subjected to a chromate film treatment, and silica and a wax having a glass transition point (Tg point) of 40 ° C. or more are dispersed in an aqueous resin. 0.3 to 3g in dry film thickness
/ M ² coating is described. In addition, JP-A-3
No. 28380 discloses an electrogalvanized steel sheet which is chromated and coated with a carboxylated polyethylene dispersion and a Teflon lubricant at a dry film thickness of 0.5 to 4.0 g / m ^2. The resulting lubricated steel sheet is described. These surface-treated steel sheets have lubricity due to the combined effect of plating, chromate, and organic coating,
It provides corrosion resistance, weldability, and paint adhesion, and is under active development for the purpose of improving productivity and quality.

[0004]

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention
It is a steel sheet with a lubricating coating applied to deep drawing. However, the lubrication characteristics expected of the lubricated steel sheet include high-speed punching, bending, and prevention of wear due to sliding in addition to deep drawing. For example, in the case of frame and chassis parts of home appliances, due to their strength, the material is thick, and many parts are bent and punched and hole-expanded with high dimensional accuracy continuously using a high-speed crank press. The problem that the plate temperature rises due to the deformation and frictional resistance due to high-speed processing and the friction coefficient becomes high, and the punch and die mold R is used to improve the dimensional accuracy.
Is small and the clearance is small, so there is a problem that the coating film is easily scraped. Therefore, the conventional lubricating coating containing an organic resin as a main component has a drawback that many press residues are generated. Further, there are household electric appliance parts such as VTR cassette sliding parts, which have sliding surfaces on each other, and there is a demand for a lubricating steel plate having excellent slidability that can withstand sliding of several hundred thousand times. The conventional organic resin-based lubricated steel sheet has a drawback that the amount of sliding wear is large and shavings occur.

In order to solve these problems, a hard coating capable of withstanding severe ironing at a wide range of temperatures and capable of supplying a low dynamic friction coefficient for a long time is required, which cannot be solved by the prior art.

[0006]

The gist of the present invention is that the surface of a plated steel sheet is a chemical conversion coating as the first layer, and the second layer is 2 to 50 parts by weight of solid lubricant per 100 parts by weight of the inorganic polymer compound. The thickness of the lubricating coating composed of the agent is 0.1
It is a lubrication plated steel sheet having an excellent galling resistance, heat resistance and sliding wear resistance of up to 5.0 μm. As the chemical conversion treatment film, a chromate film of 5 to 100 mg / m ^{2 in} terms of Cr is used, and as the inorganic polymer compound, a compound selected from alkali metal silicate, silica sol, condensed phosphoric acid, and aluminum diphosphate is used. It is preferable to use.

[0007]

The plated steel sheet targeted by the present invention includes a galvanized steel sheet produced by electroplating, hot dipping, and vapor deposition plating, a zinc alloy plated steel sheet, a dispersion plated steel sheet, an overplated steel sheet, aluminum and an aluminum alloy plated sheet. . As a plating composition, hard zinc alloy plating having excellent corrosion resistance is desirable. The plating amount does not need to be particularly limited, but is preferably 5 to 100 g / m ² in the present invention.
After the cold-rolled steel sheet is plated by the above method, a chemical conversion coating is formed. Chromate coating as chemical conversion coating,
A phosphate coating or an anodic oxide coating can be applied, but a chromate coating is preferable. The chromate film will be described below.

Chromate coating amount is 5 to 1 in terms of Cr
00 mg / m ² is preferred. As the type of chromate film, any of electrolytic chromate, etching chromate and coating chromate can be applied, but it is preferable to use electrolytic or etching chromate having a low plate temperature because the chromate film hardly dissolves at the time of applying an aqueous paint. If the amount of deposited Cr is less than 5 mg / m ^2, it is difficult to obtain corrosion resistance, and if the amount of Cr exceeds 100 mg / m ² , cohesive failure of the chromate itself occurs and adhesion cannot be obtained.

The lubricating coating will be described in detail below.

FIGS. 1 and 2 show the relationship between the press working form and the properties required for the lubricating coating. There are roughly two types of press working, deep drawing and forming which is almost similar to ironing and bending. FIG. 1 shows the coating properties required for deep drawing, and requires a low dynamic friction coefficient, a thick film thickness and a stretchable coating. On the other hand, for processing such as sliding wear and bending with ironing, a hard and thin coating having a low dynamic friction coefficient as shown in FIG. 2 is effective.

The present invention is excellent in galling resistance, sliding wear resistance, punching performance, lubricity related to bending, and surface characteristics (corrosion resistance, paint adhesion) and the characteristics shown in FIG. Provide plated steel sheet. It is known to apply wax to a conventional lubricating coating having a large elongation, but since it is a coating containing resin as a main component, the problem that the lubricating coating is scraped off and press residue occurs during ironing and punching,
There is a problem that the coefficient of friction increases due to the temperature rise during processing, and the lubrication characteristics targeted by the present invention cannot be obtained. Therefore, the present invention employs a hard lubricating coating containing an inorganic polymer as a main component instead of the conventional organic resin. That is, the film thickness composed of the inorganic polymer compound and the lubricant is 0.1-5.
A 0 μm coating is coated as shown in FIG.

The thickness of the lubricating coating is 0.1 to 5.0 μm. The reason is that if it is less than 0.1 μm, the desired practical lubrication characteristics cannot be obtained. If the thickness exceeds 5.0 μm, the coating is hard because of the inorganic polymer, and the film undergoes cohesive failure and peels off during processing. This is because it becomes easier. The optimum film thickness is 0.5 to 2.0 μm from the viewpoint of lubricity and adhesion processability.

Each component will be described in detail below.

The composition ratio is such that the lubricant is in the range of 2 to 50 parts by weight with respect to 100 of the inorganic polymer compound. This is because if the amount is less than 2 parts by weight, the lubrication performance is insufficient, and if it exceeds 50 parts by weight, the hardness and adhesion workability of the coating are deteriorated, the desired lubricating properties cannot be obtained, and the coating method has a problem. A preferred range is 5 to 30 parts by weight with respect to 100 of the inorganic polymer compound.

The inorganic polymer is a compound selected from alkali metal silicates such as sodium silicate, lithium silicate, potassium silicate, silicic acid sol, condensed phosphates, aluminum diphosphate, organic silicic acid compounds and the like. is there. If necessary, phosphoric acid, boric acid, chromic acid,
Aluminate is added as an additive.

As the lubricant, an emulsion obtained by emulsion polymerization of the following lubricants having hydrophilic carboxyl groups and hydroxyl groups is used. Specifically, low density polyethylene (density 0.9 to 0.95, softening temperature 90 to 120 ° C), high density polyethylene (density 0.95 to 1.2, softening temperature 10)
0 to 130 ° C.), polypropylene (density 0.95 to 1.
2. Polyolefin wax such as softening temperature 150 to 190 ° C.) and Teflon lubricant (density 1.0 to 1.2, softening temperature 300 to 400 ° C.) are preferable. Although these lubricants are selected according to the purpose, a fine spherical polyolefin wax dispersion having an average particle size of 3 μm or less, preferably 1 μm or less, which will be described below, exhibits the best lubrication performance.

Polyethylene and polypropylene dispersions have an emulsifier concentration of as low as 5% or less, and are preferably water-free without using an emulsifier. That is, a molecular weight of 1000 to 400 having substantially no polar group.
A base polyolefin of 0 and an ethylenically unsaturated carboxylic acid or its anhydride, or a modified polyolefin having a polar group containing a carboxyl group-containing derivative as a binding component, preferably having an acid value of 10 to 150 and a molecular weight of 1000 to 4000, It is a dispersion of a lubricant having a shape close to a true sphere and having a high melting point, which is obtained by dispersing it in water or an aqueous solution from a molten state of melt mixing. The acid value of the polyolefin wax after melt mixing is preferably in the range of 1 to 20.

A lubricating coating is constituted by each of these components, and the resulting coating has a structure in which layer separation occurs in the baking and curing process after coating and a part of the lubricant is concentrated on the surface.

The lubricant-plated steel sheet of the present invention is subjected to existing chromate treatment on the surface of the plated steel sheet, and then coated with a lubricant coating by a roll coater, knife coater, sprayer, air knife, squeeze roll, etc. A furnace, a gas furnace, hot air, an infrared furnace, or other single or combined equipment is used to bake and harden it to reach a plate temperature of 90 to 200 ° C., and then it is cooled with air, water, rolls, or the like to manufacture. The amount of adhesion can be measured continuously with a β-ray film thickness meter suitable for thin film measurement, or by previously obtaining the relationship between the film thickness and the analysis value of a specific element in the film, such as Si, with equipment such as fluorescent X-ray. Control. The baking plate temperature is controlled by the plate temperature reached by setting a plate thermometer on the exit side of the furnace. The lubricating paint is produced by dispersing the above-mentioned inorganic polymer compound and lubricant with a disper, a ball mill, a homomixer, a roll mill or the like.

[0020]

EXAMPLES The present invention will be described below with reference to examples.

In the examples, the following conditions were used unless otherwise specified.

1) Symbols and contents of the embodiment

Inorganic polymer compound A: lithium silicate B: amine silicate C: silica sol D: aluminum diphosphate E: sodium tripolyphosphate F: polyphosphoric acid

Solid lubricant J: Low density polyethylene (density 0.92, particle size 0.6) K: Low density polyethylene (density 0.92, particle size 2.0) L: High density polyethylene (density 0.96) , Particle size 1.5) M: polypropylene (density 0.95, particle size 2.0) N: tetrafluoroethylene (density 1.2, particle size 0.
5)

The bath component is a concentration ratio as a non-volatile component.

2) Evaluation item and method

(1) Dynamic Friction Coefficient A 10 mm hemispherical steel loaded with 50 g of load was moved on the surface of a test piece at a constant speed of 60 cm / min, and the force was measured by a load cell. The ratio F / W between the force F and the load W was calculated and used as the dynamic friction coefficient. Some of the steel sheets were heated and the dynamic friction coefficient was measured. Further, the static friction coefficient was measured with a commercially available static friction coefficient measuring device.

(2) Evaluation of galling property A punch and a die having a radius of curvature of 5 mm were used for pressing with a 10 t press under the condition of a clearance of 5%, and the generated press residue was visually evaluated and indicated by a score.

Evaluation of amount of dregs 1 point (more) 2 points (slightly generated) 3 points (slightly accepted)
4 points (not allowed)

(3) Sliding abrasion resistance A case of 1 cm ² of a video tape was cut out, the edge was rounded, and the sample surface was slid back and forth at a cycle of 20 reciprocations / minute under a load of 600 g, and observed every 200 times. However, the number of round trips when deep scratches were made was shown.

(4) Film Thickness A sample having gold vapor-deposited on its surface was embedded vertically in a resin, and the polished cross section was observed under a microscope to obtain the film thickness.

(5) Corrosion resistance In a salt spray test according to JIS Z2371, the white rust generation rate after 500 hours was evaluated.

[0033]

Example 1 A current density of 10 A / d in a bath of chromic acid / sulfuric acid = 30 / 0.3 g / l on the surface of a zinc-nickel alloy electroplated steel sheet (plate thickness 0.8 mm) having a plating amount of 20 g / m ^2.
m ² , cathodic electrolysis for 2 seconds, washed with water, and Cr deposit 30
After applying a chromate film of mg / m ² and applying a lubricating coating with a roll coater aiming for a film thickness of 1 μm, put it in a furnace directly under gas within 2 seconds, bake to a plate temperature of 150 ° C in 5 seconds, cool with water and lubricate. A plated steel sheet was created. Symbol: A, solid content:
Lubricating paint was used in which the amount of the symbol J having a particle size of 0.6 μm was changed to 100 g.

The coefficient of dynamic friction, galling property and sliding wear property of the obtained lubricated plated steel sheet were measured. Figure 4 shows the coefficient of friction
It was shown to. The coefficient of kinetic friction decreases rapidly when the concentration of the lubricant is around 2 g, and stabilizes at a low level at about 5 g. Substantially a minimum of 2 g of lubricant is required, preferably 5 g. The static friction coefficient gradually decreases in proportion to the concentration of the lubricant, and stabilizes at a low level at a lubricant concentration of 20 g.

The results of the sliding wear test are shown multiplied by 1000 under the dynamic friction coefficient values shown in FIG. The lower the dynamic friction coefficient, the better the sliding wear resistance. This means that there is a proper lubricant concentration for thickening and supplying the lubricant to the surface layer portion.

[0036]

Example 2 Amine silicate 100 as an inorganic polymer
5 g of lubricant J was added to the paint to obtain a film thickness of 0.1 to 5.
Dynamic friction coefficient, sliding wear resistance and L by changing to 0 μm
The bending was evaluated. The results are shown in Table 1.

[0037]

[Table 1]

2-1 to 2-5 in Table 1 are examples of the present invention containing a lubricant, and the dynamic friction coefficient is as low as 0.05. As for the sliding wear resistance, the film thickness of 2 to 5 μm is abrasion resistance of 20,000 or more times, and 0.1 to 1 μm is the perfect score in the L bending press, and a small amount of press dust is attached when the film thickness is 3 μm or more. Comparative Example 2-6, which did not contain the lubricant, had a high friction coefficient, and was inferior in sliding wear property and L bendability.

[0039]

[Example 3] Chromate coating under the conditions 2-3 of Example 2
Cr adhesion amount of 5-100 mg / m ²The result of changing to
Is shown in Table 2.

[0040]

[Table 2]

3-1 to 3-4 in Table 2 are examples of the present invention containing a lubricant, and the coefficient of dynamic friction is as low as 0.05. The sliding wear resistance was 30,000 times or more, and the L bending press was also good. Comparative example 3-5 without chromate has sliding wear resistance,
L bendability was inferior. This is because the film peeled off.

[0042]

[Example 4] Electrogalvanized steel sheet (plating amount 20 g / m
² ) The surface of Cr is coated with Cr with an amount of 50 mg / m ² after etching and chromate treatment, and then washed with water, and the lubricant coating shown in Table 3 is applied with a roll coater to a film thickness of 1 μm. A plated steel sheet was created. The evaluation was performed according to Example 1. The results are shown in Table 3.

[0043]

[Table 3]

Tables 4-1 to 4-6 in Table 3 are examples of the present invention coated with a lubricating coating composition in which an inorganic polymer and a polyolefin lubricant are combined. All of them showed a low coefficient of friction and showed sliding wear and L bendability. Reference numeral 4-7 is an example of the present invention of a Teflon lubricant. Although 4-6 and 4-7 showed good lubricity, they tended to be slightly inferior to the others, but this is due to the characteristics of the lubricant.

[0045]

According to the present invention, since the press oil can be omitted, the degreasing step can be omitted, the environmental destruction due to the degreasing solvent is eliminated, and the working environment is improved. Further, since it can be used as it is as a corrosion resistant coating, painting can be omitted and high quality performance can be obtained at low cost.

[Brief description of drawings]

FIG. 1 is a diagram showing a relationship between lubricity of a lubricating coating and coating design.

FIG. 2 is a diagram showing a relationship between lubricity of a lubricating coating and coating design.

FIG. 3 is a view showing a coating structure of the lubricity plated steel sheet of the present invention.

FIG. 4 is a diagram showing a relationship between a concentration of a lubricant, a coefficient of dynamic friction, a coefficient of static friction, and a sliding wear property.

Claims (3)

[Claims] 1. A chemical conversion treatment film as a first layer on the surface of a plated steel sheet, and a lubricating film composed of a solid lubricant of 2 to 50 parts by weight based on 100 parts by weight of an inorganic polymer compound as a second layer. Resistance of 0.1 to 5.0 μm as
Lubricated plated steel sheet with excellent heat resistance and sliding wear resistance. 2. The chemical conversion coating is 5 to 100 m in terms of Cr.
The lubricated plated steel sheet excellent in galling resistance, heat resistance and sliding abrasion resistance according to claim 1, which is a g / m ² chromate film. 3. The galling resistance, heat resistance and sliding wear resistance according to claim 1, wherein the inorganic polymer compound is a compound selected from alkali metal silicates, silica sol, condensed phosphoric acid and aluminum diphosphate. Excellent lubrication plated steel sheet.