KR20100067533A - Chrome free resin composition for good high temperature / humidity resistance and forming properties, surface-treated steel sheet by using the resin composition and the surface treating method - Google Patents

Abstract

PURPOSE: A chromium-free resin composition with superior high temperature and high humidity resistance and superior workability and a surface-treated steel sheet manufacturing method are provided to manufacture a steel sheet without using chrome by coating a metal surface with a surface-treating resin composition. CONSTITUTION: A resin composition for surface treatment of a steel sheet comprises a mixed urethane resin of hard and soft urethane resin 10~90 weight%, Ti or Zr organic oxide 1~20 weight%, a phosphate compound 0.1~10 weight%, an antioxidant 0.1~5.0 weight%, and a solvent. The phosphate compound is selected from the group consisting of phosphoric aluminum, dihydrogen phosphate aluminum, first zinc phosphate, and hydrated phosphate manganese. The antioxidant is one or more secondary antioxidant selected among phosphorus antioxidant, sulfur antioxidant, and thiolester antioxidant.

Description

Chrome Free Resin Composition For Good High Temperature / Humidity Resistance And Forming Properties, Surface-treated Steel Sheet By Using The Resin Composition And The Surface Treating Method}

The present invention is particularly excellent in high temperature, high humidity and processability, and contains no chromium component excellent in corrosion resistance, conductivity and chemical resistance, the resin composition for surface treatment, the method for producing a steel sheet using the same and the surface-treated steel sheet prepared therefrom It is about.

Recently, with increasing interest in environmental issues around the world, the use of environmental pollutants, ie, Cr, Pb, Cd, Hg, PBB, PBDE, etc., is being tightened. In particular, the Restriction of Hazardous Substances (RoHS) implemented by the EU (Restriction of Hazardous Substances, implemented in 6.7.1), Waste from Electrical and Electronic Equipment (WE6.7 implemented), and new environmental regulations. Typical examples include the Registration, Evaluation and Authorization of Chemicals (REACH) and End-of-Life Vehicles (ELV) enforcement (7.1.1). It is demanding active response to new environmental management policies, such as development, reduction of waste in factories and green procurement.

Conventionally, galvanized steel sheet and zinc-based alloy plated steel sheet, aluminum plated steel sheet, aluminum alloy plated steel sheet, cold rolled steel sheet, hot rolled steel sheet, etc., which are used for automobile materials, home appliances, building materials, etc., are provided with corrosion resistance and paint adhesion. In order to do this, a surface treatment method of coating a chromate coating mainly composed of chromium on the surface has been generally performed. The main chromate treatments include electrolytic chromate and coated chromate. Among them, electrolytic chromate treatment is composed of hexavalent chromium as a main component and a treatment solution containing various anions such as sulfuric acid, phosphoric acid, boric acid, and halogen. In general, a method of cathodic electrolysis of a metal plate is generally performed. On the other hand, in the coating type chromate treatment, a method in which an inorganic colloid and an inorganic ion are added to a solution in which a part of hexavalent chromium has been reduced to trivalent beforehand is used to deposit a metal plate therein, or to spray a treatment solution onto the metal plate. It is carried out by.

When using these methods, due to the toxicity of hexavalent chromium contained in the chromate treatment solution, various measures are required in the working environment and drainage treatment, and recycling and disposal of automobiles, home appliances, building products, etc. using the surface treatment metals. Treatment also causes human health and environmental pollution. In addition, in the case of applying trivalent chromium, there is a problem that a part of the trivalent chromium is converted to hexavalent chromium by the ambient environment such as temperature or microorganisms.

Therefore, each steel company is focusing on developing a surface-treated steel sheet that does not contain hexavalent chromium and does not contain chromium that can satisfy various requirements such as corrosion resistance, alkali resistance and conductivity. Conventionally, after coating a metal salt film composed mainly of phosphate as a main component on the surface of a steel sheet, and then coating a resin based film composed mainly of acrylic, epoxy and urethane resin as a main component thereof, or manufacturing the secondary coating. The surface-treated metal steel sheet containing no chromium was prepared by forming a resin film and a secondary film, respectively.

However, the products often lower the electrical conductivity and weldability of the metal steel sheet according to the metal salt or the film thickness, which is not suitable for the use of electromagnetic wave suppression, internal noise suppression, and processability of copiers, printers, VCRs, and computers. There is this.

Also, in recent years, as most home appliances require surface-treated steel sheets that do not contain chromium having excellent conductivity, a coating steel sheet containing no chromium has been developed by coating only the first resin-based coating. However, unless the composition of the resin-based surface treatment composition is particularly excellent, there is a problem in that quality characteristics such as corrosion resistance are significantly lower than those of conventional chromium-treated or phosphate-treated base coated steel sheets. In recent years, however, major domestic and foreign home appliances manufacturers have established their own quality standards for materials and obtained quality certification for the development of environmentally friendly products for surface-treated steel sheets that do not contain chromium. I buy it.

Conventionally, a method of coating polyaniline on a metal plate as a coating method in consideration of conductivity without containing any hexavalent chromium is disclosed in Japanese Patent Laid-Open Nos. 8-92479 and 8-500770. However, since polyaniline having high rigidity and low adhesion exists between the metal and the resin film, the film can be easily peeled off at the polyaniline and metal interface and at the polyaniline and resin interface. Because of this, there is a problem when painting the steel sheet to give the design, more corrosion resistance and other functions. Low adhesion films are generally known to have low corrosion resistance. In addition, the solution stability is low, there is a lot of precipitates, a strong smell occurs, there is also a problem in the workability, such as overall work environment degradation. In addition, by using a method of coating only the first coating with a resin on the galvanized layer, it showed an excellent effect of improving the characteristics such as conductivity, corrosion resistance, alkali resistance, high temperature, high humidity, etc. There is a problem that the resin layer and the plating layer of the processing friction portion is damaged in part, so that the resin layer is lost or the surface becomes black.

In addition, US Patent Publication No. 2004-54044 discloses a composition in which an organic film former, a hexafluoro complex such as titanium and zirconium, at least one inorganic compound, and the like are mixed with water, but it contains a fluoride complex. This may affect the environment, and the solution is acidic, so care must be taken when handling. In addition, Japanese Patent Application Laid-Open No. 2002-030460 discloses a composition in which a vanadium compound, Zi, Ti, and the like are mixed with a mixed resin, but the etching process of the surface of the steel sheet using an acidic solution to reduce the vanadium compound and ensure adhesion There is a problem that must be accompanied. In addition, Korean Patent Publication No. 2006-76953 discloses an organic resin and inorganic binder composite using a silane coupling agent and the like, and a surface treatment composition including a rust inhibitor and a metal chelating agent is disclosed. There is a disadvantage to be prepared in advance. In addition, some products that require alkali resistance lacks alkali resistance, so that the resin layer is partially damaged when contacted with the alkaline solution, resulting in the loss of the resin layer or severe discoloration of the surface. In addition, Japanese Patent No. 3706518 discloses a resin composition containing a phosphate compound selected from organic resins, ammonium phosphate, sodium phosphate, and potassium phosphate. However, the purpose of using these phosphate compounds is to form a passivation layer on the upper part of the steel plate to improve corrosion resistance. It is limited to playing a role.

One object of the present invention is to provide a metal surface treatment composition capable of providing a coating layer that is excellent in corrosion resistance, conductivity, chemical resistance, and the like, and in particular, does not contain chromium having improved processability and high temperature and high humidity resistance.

Another object of the present invention is to provide a surface-treated steel sheet coated with the composition.

Another object of the present invention is to provide a method for producing a surface-treated steel sheet by forming a resin coating layer with a resin composition according to the present invention.

The object of the present invention is not limited to those mentioned above, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention provides a resin composition applied on a steel sheet and / or a galvanized layer, a method for producing a surface-treated steel sheet using the same and a surface-treated steel sheet prepared by the above method,

As a first embodiment, a mixed urethane resin of a soft urethane resin and a hard urethane resin; Ti or Zr-based organic oxides; At least one material selected from the group consisting of monoaluminum phosphate, aluminum dihydrogen phosphate, first zinc phosphate, and hydrated manganese phosphate; Antioxidants; And a solvent; a resin composition for surface treatment of a steel sheet, including

As a second embodiment, the resin composition is 10 to 90 parts by weight of the mixed urethane resin; 1 to 20 parts by weight of Ti or Zr-based organic oxide; 0.1 to 10.0 parts by weight of a compound selected from the group consisting of monoaluminum phosphate, aluminum dihydrogen phosphate, first zinc phosphate and hydrated manganese phosphate; And 0.1 to 5.0 parts by weight of antioxidant; Resin composition for surface treatment of steel sheet, including

In a third embodiment, the antioxidant is at least one secondary antioxidant selected from phosphorus antioxidants, sulfur antioxidants, and thiol ester antioxidants, resin compositions for surface treatment of steel sheets,

In a fourth embodiment, the antioxidant is a phosphorus antioxidant, wherein

Resin composition for surface treatment of a steel plate which is at least one compound selected from the compounds represented by

As a fifth embodiment, the mixed urethane resin is 5 to 95% by weight of a soft urethane resin and 5 to 95% by weight of a rigid urethane resin resin composition for surface treatment of steel sheet,

As a sixth embodiment, the soft urethane-based resin is a polyurethane prepared from isophorene diisocyanate, adipic acid and polyhydric alcohol or acrylic polyol and polyisocyanate, and has a number average molecular weight of 5,000 to 300,000. Resin composition for surface treatment,

As a seventh embodiment, the polyhydric alcohol is a resin composition for surface treatment of a steel sheet, characterized in that selected from acrylic polyol, polyester polyol, polyether polyol, polyolefin-based polyol or mixtures thereof,

In an eighth embodiment, the rigid urethane-based resin is a polyurethane resin prepared from polycaprolactone polyol or polycarbonate polyol and diisocyanate, 4,4'-bis (ω-hydroxyalkyleneoxy) biphenyl and methyl-2 Resin composition for surface treatment of a steel sheet, which is selected from polyurethane resins prepared from 6-diisocyanate hexanoate, and polyurethane resins having an acetal bond, wherein the number average molecular weight is 200,000 to 2,000,000.

As a ninth embodiment, the hard urethane resin has a Shore A hardness of 40 to 90, the resin composition for surface treatment of a steel sheet.

As a tenth embodiment, the diisocyanate is a resin composition for surface treatment of a steel sheet, characterized in that the paraphenylene diisocyanate,

In an eleventh embodiment, the Ti or Zr organic oxide is titanium diisopropoxide bis (acetylacetonate), titanium ortho ester, titanium (IV) butoxide, titanium (IV) (triethanolaminato) isopro Fox seed, tetrakis (triethanolaminato) zirconium (IV), titanium (IV) 2-ethylhexoxide, titanium (IV) isopropoxide, zirconium (IV) bis (diethyl citrato) -dipropoxide Or a resin composition for surface treatment of a steel sheet, which is selected from a mixture thereof;

As a twelfth embodiment, the solvent is a resin composition for surface treatment of a steel sheet, characterized in that water,

In a thirteenth embodiment, the solvent is an alkaline aqueous solution selected from alcohol solvents selected from ethanol, methanol, propanol, isopropanol and glycerol, amine compounds, N-methylpyrrolidone, sodium hydroxide, potassium hydroxide, sodium carbonate and ammonium hydroxide. Or a resin composition for surface treatment of a steel sheet, further comprising a mixture thereof.

In a fourteenth embodiment, the surface-treated steel sheet is coated with a coating weight of 300 to 1,800 mg / m 2 after drying any one of the surface treatment resin compositions on a steel sheet, and dried under PMT conditions at a temperature of 80 to 200 ° C. Manufacturing method of, and

As a fifteenth embodiment, the plated or unplated steel sheet includes a resin coating layer, wherein the resin coating layer is characterized in that the coating of any one of the surface treatment resin composition after drying to a coating amount of 300 to 1,800 mg / ㎡ A surface treated steel sheet is provided.

As described above, by coating the surface of the metal using the resin composition for surface treatment of the present invention, it is excellent in alkali resistance and corrosion resistance without containing chromium, and also excellent in workability, conductivity, solution stability, etc., in particular. Excellent heat resistance and high temperature and humidity resistance.

Hereinafter, the present invention will be described in detail.

The present invention provides a mixture of a soft urethane resin and a hard urethane resin, at least one material selected from the group consisting of a corrosion resistant curing agent composed of Ti or Zr organic oxides, monoaluminum phosphate, aluminum dihydrogen phosphate, first zinc phosphate and manganese hydrate hydrate, By coating a resin composition containing no chromium composed of a secondary antioxidant and a solvent on a plated or unplated steel sheet to improve alkali resistance and processability, and to produce a metal sheet having excellent conductivity, corrosion resistance, chemical resistance, and the like. It is related with the resin composition for surface treatment which can be performed.

In the resin composition of the present invention, a mixed urethane resin of the soft urethane resin and the hard urethane resin is used. Since the urethane-based resin is strong in water resistance, chemical resistance, acid resistance and alkali resistance, and the coating film is soft and strong, it is used to prevent scratches on the surface by coating on a steel sheet or an aluminum plate, or to impart chemical resistance. It is widely used.

The mixed urethane resin is preferably contained in a content of 10 to 90 parts by weight in solid content concentration. When the solids content of the entire urethane-based resin is less than 10 parts by weight, the chemical resistance against the brine resistance of the urethane resin and the penetration of chemicals against the penetration of corrosion ions is not exhibited, and thus the chemical resistance and the alkali resistance decrease. For this reason, when degreasing at 60 ° C. for 5 minutes with an alkaline solution having a pH of 10 or more, there is a problem of discoloration or peeling of the resin film, and if it exceeds 90 parts by weight, solution stability due to entanglement is lowered and the price increases. .

However, since the urethane resin alone has limitations in implementing soft and strong properties, the present invention uses a mixed urethane resin in which a soft urethane resin and a hard urethane resin are mixed. It is preferable that the soft urethane resin contains 5 to 95% by weight of the mixed urethane resin. If the soft urethane resin is less than 5% by weight, the workability is improved, but heat resistance and water deterioration resistance are lowered. If the soft urethane resin is more than 95% by weight, there is a problem in that the workability is not improved and corrosion resistance is greatly reduced.

In addition, the molecular weight of the soft urethane-based resin is preferably 5,000 to 300,000. If the molecular weight of the said soft urethane resin is 5,000 or less, workability will fall largely, and if it is 300,000 or more, there exists a problem that stability of a solution reduces.

The flexible urethane-based resins include polyurethane dispersion resins, polyurethane resins made from isophorene diisocyanates such as polyethylene-modified polyurethane resins, adipic acid and polyhydric alcohols, and acrylic-urethane resins, polyethylene-acrylic-modified polyurethane resins, and the like. Polyurethane resins prepared from acrylic polyols and polyisocyanates can be used. Here, as said polyhydric alcohol, an acryl polyol, polyester polyol, polyether polyol, polyolefin polyol, etc. can be used.

In addition, the molecular weight of the rigid urethane-based resin is preferably 200,000 to 2,000,000. If the molecular weight of the rigid urethane resin is 200,000 or less, there is no effect of improving workability, and if it is 2,000,000 or more, the stability of the solution decreases and the viscosity of the resin solution rises, thereby degrading workability.

The hard urethane resin is a polycaprolactone polyol or polycarbonate polyol and an isocyanate, in particular, a polyurethane resin prepared from paraphenylenediisocyanate, 4,4'-bis (ω-hydroxyalkyleneoxy) biphenyl and methyl- Polyurethane resins prepared from 2,6-diisocyanate hexanoate, polyurethane resins having acetal bonds, and the like can be used.

In addition, the hard urethane-based resin is preferred to use a Shore (Shore) A hardness of 40 to 90 when manufacturing a dry film. If the Shore A hardness is less than 40, the workability is not improved. If the Shore A hardness is more than 90, the coating film becomes too hard and is crushed during processing. Therefore, it is preferable to have the hardness in the above range.

Ti or Zr organic oxide is added to the urethane resin as a corrosion resistant hardener. The corrosion resistant hardener is included 1 to 20 parts by weight. At this time, when the content of the anti-corrosion hardener is less than 1 part by weight, the corrosion resistance decreases and there is almost no additive effect. When the content of the anti-corrosion hardener exceeds 20 parts by weight, the concentration is saturated, so that a large amount of precipitate is generated, and the solution stability is lowered. The problem is that Mars is reduced.

Preferred examples of the Ti or Zr organic oxides include titanium diisopropoxide bis (acetylacetonate), titanium ortho esters, titanium (IV) butoxide, titanium (IV) (triethanolaminato) isopropoxide Tetrakis (triethanolaminato) zirconium (IV), titanium (IV) 2-ethylhexoxide, titanium (IV) isopropoxide, zirconium (IV) bis (diethyl citrato) -dipropoxide and the like. And at least one compound selected from them.

Further, the resin composition for surface treatment of the steel sheet of the present invention includes one or more materials selected from monoaluminum phosphate, aluminum dihydrogen phosphate, first zinc phosphate, manganese phosphate hydrate, and the like. These materials are added to improve the adhesion between the resin and the steel sheet, in particular the galvanized layer, and can form a passive film on the zinc layer to improve the corrosion resistance and at the same time can be expected to improve the conductivity and heat resistance by the metal salt effect.

The phosphate compounds such as monoaluminum phosphate, aluminum dihydrogen phosphate, first zinc phosphate and hydrated manganese phosphate are preferably added in the range of 0.1 to 10.0 parts by weight. If these substances are added below 0.1 part by weight, the adhesion to the steel sheet is lowered, and resin peeling is more likely to occur in a process such as alkali degreasing, and when they are added in excess of 10.0 parts by weight, these materials do not improve the adhesion between the resin and the steel sheet. It is not preferable because it promotes the entanglement of the resin and inferior solution stability, and rather lowers the adhesion between the resin and the steel sheet.

The resin composition for surface treatment of this invention contains antioxidant. In general, antioxidants act as radical scavengers, and act as primary antioxidants such as phenolic and aromatic amine antioxidants and hydroperoxide decomposers, and act as phosphite, sulfur, and thioester oxides. Although there are secondary antioxidants of the antioxidant, it is preferred to use secondary antioxidants in the present invention. Such antioxidants serve to improve the high temperature and high humidity of the composition. In addition to these, aziradine and a hydroquinone compound can also be used preferably as said secondary antioxidant. Of these, phosphite-based antioxidants can be particularly preferably used, and most preferred phosphite-based antioxidants are represented by the following formula.

The compound which has a structure represented by these is mentioned. These antioxidants may be used alone, or may be used by mixing them.

These antioxidants are preferably used in an amount of 0.1 to 5.0 parts by weight. If it is used in a smaller amount than the above range, the effect of improving the high temperature and high humidity due to the addition of antioxidant is insignificant, and when used in excess, there is no further improvement effect, it is uneconomical, and the effect of lowering the physical properties and inhibiting coloration during processing may be reduced. It is preferable to use a content within the above range because there is such a problem.

In the resin composition of the present invention, since the particles of the corrosion resistant curing agent are uniformly reacted and dispersed in the organic functional group of the resin, the resin solution has excellent stability, excellent corrosion resistance, conductivity, alkali resistance, etc., as well as secondary oxidation. The inhibitor is included to exhibit an effect of further improving the high temperature and high humidity and processability.

In addition, the surface treatment composition of the present invention may further include one or more additives such as a wetting agent, a crosslinking agent, a lubricant, and an antifoaming agent. The wetting agent is effective in streaking and adhesion, the crosslinking agent in corrosion resistance and alkali resistance, the lubricant in friction coefficient and processability, and the antifoaming agent in further improving workability. These additives are preferably used in an amount of 5 to 25 parts by weight. If the content of the additive is less than 5 parts by weight, there is no use effect of the additives such as corrosion resistance, alkali resistance, etc., if it exceeds 25 parts by weight, the effect is saturated, and further addition is not meaningful and there is a problem of reducing solution stability.

The wetting agent includes a deagglomerated wet dispersant, a polymer wet dispersant, and the like, and preferred examples thereof include a wet dispersant commercially available from EFKA, Tego, Bumwoo Chemical, and Ciba, and specifically, EFKA 3580 (EFKA). G), BW-W500 (Bumwoo Chemical) or WET 500 (Ciba).

Examples of the crosslinking agent include vinylsilane, methoxysilane, acrylicsilane, epoxysilane, chlorosilane, alkoxysilane, silazane, silylating agent, melamine, melamine resin, alkylmelamine, alkylmelamine resin, fluorinated melamine and fluorinated melamine resin, and polyamine type. , Alkylated aromatic polyamine-based, polyamide-based or acid-anhydride-based curing agents and the like can be used.

The lubricant includes silicone wax, polyethylene wax, polypropylene wax, amide wax, polytetrafluoroethylene (PTFE) wax, paraffin wax, and the like.

The antifoaming agent may be an oil type, a modified type, a solution type, a powder type, or an emulsion type silicone antifoaming agent.

The component except solid content in a resin composition is a solvent, and water can be used as said solvent. Furthermore, in order to enhance the properties such as wettability and dispersibility of the coating composition, a separate alcohol solvent and an alkaline aqueous solution may be further added. Ethanol, methanol, propanol, isopropanol, glycerol, and the like may be used as the alcohol solvent, and as the alkaline aqueous solution, an amine compound, N-methylpyrrolidone, sodium hydroxide, potassium hydroxide, sodium carbonate, ammonium hydroxide, or the like may be used. Can be. The solvent is preferably included in an amount such that the total content of solids is 5 to 25% by weight of the total resin composition.

The deposition amount of the coating layer coated with the resin composition of the present invention is preferably 300 to 1,800 mg / m 2 as the deposition amount after drying, and the drying temperature is 120 ° C. to 200 ° C., similar to the drying temperature of a conventional resin-based surface treatment liquid as PMT conditions. At this time, if the adhesion amount after drying is 300 mg / m 2 or less, there is no effect of improving the corrosion resistance and workability, and if it is 1,800 mg / m 2 or more, the effect on corrosion resistance is not only saturated, but also the conductivity is lost and the economical efficiency due to the price increase is reduced. In addition, the higher the drying temperature shows a tendency to improve the corrosion resistance of the resin film, but if the 120-200 ℃ is not unreasonable to meet the customer's quality requirements.

Further, the applicable metal sheet of the present invention may be a galvanized steel sheet, a zinc nickel plated steel sheet, a galvanized steel sheet, a zinc titanium plated steel sheet, a zinc magnesium plated steel sheet, a zinc manganese plated steel sheet, or a zinc-based electroplated steel sheet, such as a zinc aluminum plated steel sheet. Plated steel sheet, aluminum plated steel sheet, and plated steel sheet containing, for example, cobalt, molybdenum, tungsten, nickel, titanium, aluminum, manganese, iron, magnesium, tin, copper, etc., as dissimilar metals or impurities in these plating layers. Galvanized steel sheet in which inorganic materials such as silica and alumina are dispersed in these plating layers, or an aluminum alloy sheet containing silicon, copper, magnesium, iron, manganese, titanium, zinc, or the like, or a galvanized steel sheet coated with phosphate, cold rolled steel sheet, hot rolled steel Steel plate or the like. Moreover, it is applicable also to the multilayer plating board which processed two or more types sequentially during said plating.

[ Example ]

Hereinafter, the present invention will be described in more detail with reference to Examples. However, the present invention is not limited by the following examples.

Example 1 and Comparative Example 1

1-1. Preparation of Resin Composition

As the monomer of the flexible urethane resin, a urethane resin having a number average molecular weight of 100,000 composed of isophorene diisocyanate, adipic acid, and a polyhydric alcohol monomer was prepared. As a monomer of a hard urethane resin, an acrylic resin having a number average molecular weight of 1,000,000 was prepared from a paraphenylene diisocyanate and a polycarbonate polyol monomer. As the corrosion resistant hardener, Ti organic oxide (trade name Tyzor TE® titanium (IV) (triethanol aminato) isopropoxide) was used. Aluminum phosphate dihydrogen phosphate was used for aluminum phosphate. As secondary antioxidant, as phosphorus antioxidant,

An antioxidant manufactured by Asahidenka Co., Ltd., having the structural formula as described above was used.

At this time, the content of each component was 67.3 parts by weight of mixed urethane resin (soft urethane resin: hard urethane resin = 30:70 by weight), 10 parts by weight of Ti organic oxide, 5 parts by weight of aluminum dihydrogen phosphate and 2 parts by weight of antioxidant. .

As an additive, 10 parts by weight of colloidal silica (Snowtex-40 from Nissan Chemical), 0.5 part by weight of siloxane wetting agent (EFKA 3580 from Ciba), a silane crosslinking agent (Aldrich, 3-glycidoxy propyl trimethoxy silane) 1.2 parts by weight, 2.5 parts by weight of an amine-based curing agent (Cytec Cymel 303) and 1.5 parts by weight of a polyethylene lubricant (Noveon Lanco PE 1500) were added in bulk.

Solvent was added so that solid content concentration of a surface treatment composition might be about 15 weight%. As a solvent, water and alcohol solvents were used as main components, and about 3% by weight of ethanol and about 0.5% by weight of an amine compound were added as an alkaline aqueous solution.

As a composition of Comparative Example 1, the resin composition was prepared in the same manner as above except that the composition did not include an antioxidant and 69.3 parts by weight of a urethane resin.

1-2. Manufacture of Coated Steel Sheet

1) Specimen: An electro galvanized steel sheet (EG) having an adhesion amount of 20 g / m 2 on one side was used as a material steel sheet for applying the surface treatment composition.

2) Coating method: The resin solution was coated on the top of the sample using a continuous roll coating simulator and dried at 180 ° C. under PMT. The deposition amount of the film was 1,000 mg / m 2.

1-3. Performance Evaluation Method

The obtained steel sheet was immersed in water for 30 minutes, and the color difference after 30 reciprocation frictions was measured with a finger, and high temperature, high humidity resistance was evaluated. The color difference was measured 10 times in this manner, and the change range of the value is shown in Table 1 below.

Add antioxidant No antioxidant Color difference after high temperature and high humidity for 72 hours (60 ℃, 95% RH) 0.1-1.5 2.0-4.0

As can be seen from Table 1, it was found that the high temperature and high humidity resistance of the resin composition for surface treatment containing the secondary antioxidant is remarkably superior to the case where the antioxidant is not included.

2-1. Manufacture of Coated Steel Sheet

1) Specimen: An electro galvanized steel sheet (EG) having an adhesion amount of 20 g / m 2 on one side was used as a material steel sheet for applying the surface treatment composition.

2) Coating method: The resin solution of Example was prepared in the composition of Example 1 of Table 1, the resin composition was applied to the upper portion of the steel sheet using a continuous Roll Coating simulator, and dried under the adhesion amount and PMT conditions as shown in Table 2.

2-3. Performance Evaluation Method

The workability, conductivity and corrosion resistance of the specimens prepared under the above conditions were evaluated. Evaluation criteria are as follows.

(1) Machinability: After measuring the friction coefficient using a drawbead friction tester (load 1,000kgf, speed 1,000mm / min, distance 100mm), the resin film of the specimen was scratched on the bead surface of the friction tester and damaged. The evaluation was made according to the following criteria.

○: less than 5% damage area

△: damage area of 5% or more but less than 10%

×: damage area 10% or more

(2) Corrosion resistance: The specimens were subjected to a salt spray test according to JIS-Z2371 for 96 hours, and the degree of corrosion was evaluated according to the following criteria.

○: less than 5% of white blue

△: less than 20% of more than 5% of white blue

×: 20% of white blue

(3) Conductivity: The surface of the specimen coated with resin coating was measured by a surface resistance meter (Loresta-GP), and evaluated according to the following criteria.

○: surface resistance less than 1mΩ

△: surface resistance of 1 mΩ or more and less than 1 Ω

×: extremely poor conductivity or weldability with a surface resistance of more than 1 Ω

2-4. Evaluation results

Table 2 shows the performance of the metal surface treatment composition under the above conditions.

Resin treatment condition Amount of adhesion (mg / ㎡) PMT (℃) Machinability conductivity Corrosion resistance Example 2 1000 120 ○ ○ ○ Comparative Example 2 200 180 × ○ × Comparative Example 3 1000 110 × ○ ×

1 is a schematic structural diagram of a steel sheet manufactured by applying a resin coating layer as an example of the present invention.

Claims (15)

Mixed urethane resins of the soft urethane resin and the hard urethane resin; Ti or Zr-based organic oxides; At least one phosphoric acid compound selected from the group consisting of monoaluminum phosphate, aluminum dihydrogen phosphate, first zinc phosphate and hydrated manganese phosphate; Antioxidants; And a solvent. The resin composition for surface treatment of a steel sheet. The method of claim 1, wherein the resin composition is 10 to 90 parts by weight of a mixed urethane resin; 1 to 20 parts by weight of Ti or Zr-based organic oxide; 0.1 to 10.0 parts by weight of a compound selected from the group consisting of monoaluminum phosphate, aluminum dihydrogen phosphate, first zinc phosphate and hydrated manganese phosphate; And 0.1 to 5.0 parts by weight of antioxidant. The resin composition for surface treatment of a steel sheet according to claim 1, wherein the antioxidant is at least one secondary antioxidant selected from phosphorus antioxidants, sulfur antioxidants, and thiol ester antioxidants. The method of claim 3, wherein the antioxidant is a phosphorus antioxidant, wherein

Resin composition for surface treatment of a steel sheet, characterized in that at least one compound selected from the compounds having a structure represented by. The resin composition for surface treatment of a steel sheet according to claim 1, wherein the mixed urethane resin is composed of 5 to 95% by weight of a soft urethane resin and 5 to 95% by weight of a hard urethane resin. According to claim 1, wherein the soft urethane-based resin is made of isophorene diisocyanate, adipic acid and polyalcohol or from acrylic polyol and polyisocyanate, the number average molecular weight of the steel sheet characterized in that the polyurethane of 5,000 to 300,000 Resin composition for surface treatment. The resin composition for surface treatment of a steel sheet according to claim 6, wherein the polyhydric alcohol is selected from acryl polyol, polyester polyol, polyether polyol, polyolefin polyol or a mixture thereof. The method of claim 1, wherein the rigid urethane-based resin is a polyurethane resin prepared from polycaprolactone polyol or polycarbonate polyol and diisocyanate, 4,4'-bis (ω-hydroxyalkyleneoxy) biphenyl and methyl-2 A resin composition for surface treatment of a steel sheet, which is selected from polyurethane resins prepared from 6-diisocyanate hexanoate, and polyurethane resins having acetal bonds, wherein the number average molecular weight is 200,000 to 2,000,000. The resin composition for surface treatment of a steel sheet according to claim 8, wherein the hard urethane resin has Shore A hardness of 40 to 90. The resin composition for surface treatment of a steel sheet according to claim 8, wherein the diisocyanate is paraphenylene diisocyanate. The method of claim 1, wherein the Ti or Zr organic oxide is titanium diisopropoxide bis (acetylacetonate), titanium ortho ester, titanium (IV) butoxide, titanium (IV) (triethanol aminato) isopropoxide Seeds, tetrakis (triethanolaminato) zirconium (IV), titanium (IV) 2-ethylhexoxide, titanium (IV) isopropoxide, zirconium (IV) bis (diethyl citrato) -dipropoxide or A resin composition for surface treatment of a steel sheet, characterized in that it is selected from a mixture of these. The resin composition for surface treatment of a steel sheet according to claim 1, wherein the solvent is water. 13. The aqueous solution of claim 12, wherein the solvent is an alcohol solvent selected from ethanol, methanol, propanol, isopropanol and glycerol, an amine compound, N-methylpyrrolidone, sodium hydroxide, potassium hydroxide, sodium carbonate and ammonium hydroxide. Or a resin composition for surface treatment of a steel sheet, further comprising a mixture thereof. The surface treatment according to claim 1, wherein the resin composition for surface treatment according to any one of claims 1 to 13 is coated on the steel sheet with an adhesion amount of 300 to 1,800 mg / m 2 and dried under PMT conditions at a temperature of 80 to 200 ° C. Method of manufacturing steel sheet. A plated or unplated steel sheet includes a resin coating layer, The resin coating layer is a surface-treated steel sheet, characterized in that the coating composition of the surface treatment of any one of claims 1 to 13 after coating with an adhesion amount of 300 to 1,800 mg / ㎡.

Images