CN1078242A - Anti-corrosive paint - Google Patents

Abstract

Anti-corrosive paint of the present invention is to be coated with the coating that is contained in base metal surface with the composite structure form by aluminum anode coating and ferrophosphorus coating, it is sacrificial anode pigment and resin, filler, solvent composition that aluminum anode coating adds Al alloy powder that element constitutes by Al and Zn and one or more, and ferrophosphorus coating is by ferrophosphorus pigment and resin, filler, solvent composition.This compound coating is by the dissolving sacrifice of anodic paint wherein, again by the synergy of conduction ferrophosphorus pigment, thereby matrix metal produced the galvanic protection effect.Be applicable to salts solution and the former wet goods corrosive environments of sulfide hydrogen such as seawater, bittern.

Description

Anti-corrosive paint

The present invention relates to a kind of anticorrosive coating of metal-containing powders, particularly is the anti-corrosive paint of sacrificial anode pigment with the metal-powder.

Anti-corrosive paint belongs to anticorrosive coating a kind of of metal-containing powders, and it is by the metallic pigment of sacrifice type and resin, filler and solvent composition.Anti-corrosive paint mainly is that dissolving sacrifice by metallic pigment produces the galvanic protection effect to matrix metal to the protection mechanism of matrix metal.The metallic pigment of zinc-rich paint are pure zinc powder, and zinc powder and tree refer to, filler and solvent composition coating.Substance reactions such as the zinc powder of zinc-rich paint and the water of infiltration and oxygen; the corrosion product that is generated is coated on the zinc powder surface; make a large amount of zinc can not proceed anode dissolution; thereby it is very short to the galvanic protection life-span of matrix metal; valuable zinc powder only plays the effect of general inert pigment; and zinc pigment also may produce the overprotection effect to matrix metal, the early failure of generation liberation of hydrogen bubbling.When if zinc content is not enough in the zinc-rich paint,, therefore can not produce galvanic protection owing to can not form the galvanic circle.The coating that with the aluminium powder is pigment is not the coating of sacrifice type, because the aluminium powder surface very easily forms aluminum oxide, and can not be as sacrificing cathode pigment.In zinc-rich paint, add the 2.7-22%(weight percent with mixed form) ferrophosphorus, can improve the welding property of coated steel plate.

The purpose of this invention is to provide a kind of long-acting anti-corrosive paint that is used for salts solution.

Anticorrosive coating provided by the invention is to be coated with the composite structure form to be contained in base metal surface, is top coat with the aluminum anode coating, and ferrophosphorus coating is that inter coat is composited.Aluminum anode coating is a kind of sacrifice type etching ground, its metallic pigment are al base sacrificial anode pigment, al base sacrificial anode pigment is by AL and Zn and one or more interpolation element: the aluminium-based alloyed powder that In, Si, Sn, Mg, Mn, Ti, Hg, Cd form, and the parts by weight of coating consist of: metallic pigment: al base sacrificial anode pigment 100; Resin: 16-59; Filler: 9-11; Solvent:〉26.The aluminum anode coating that the present invention proposes is a sacrificial anode pigment owing to adopted aluminium-based alloyed powder, observes under scanning electron microscope, and the no tangible oxide compound in this aluminium-based alloyed powder surface has certain roughness again; Refer to form the fine and close interface that bonding force is strong and sticking power is high with tree, make etching reagent be difficult for infiltration diffusion on the interface; Certainly the dissolving speed of this pigment is low, and the speed of anode dissolution is slow; The corrosion product that is produced comes off easily, can not be coated on the surface of pigment; Has the performance of stablizing and bringing into play the galvanic protection effect enduringly.Because pigment has become the structural performance at fine and close interface with the tree finger-type; therefore; the al base sacrificial anode coating is the isolating power persistent galvanic protection effect for prerequisite is played stably with to a certain degree; with the galvanic protection is that the basis makes the corrosion product of anode dissolution become the interface type inhibiter; the perhaps base metal surface under holiday deposition film with protectiveness, thus perhaps the microdefect of seal coat strengthens the shielding effect of coating.The advantage that al base sacrificial anode pigment provided by the present invention melts isolated form, sacrifice type and inhibition type coating is an one, thereby makes coating have efficient and long lasting Corrosion Protection to matrix metal.

Provided by the invention is to adopt the ferrophosphorus coating of ferrophosphorus as pigment with the compound inter coat that uses of al base sacrificial anode coating.The parts by weight of coating consist of: pigment: ferrophosphorus 100: tree refers to: 8-13; Filler: 10.7; Solvent:〉12.Because ferrophosphorus has good conductivity; the electron transport that produces in the time of dissolving al base sacrificial anode in the top coat is to the galvanic protection effect of base metal surface performance al base sacrificial anode coating; again because the chemical stability of ferrophosphorus is good, in salts solution, can not form corrosion product and destroy and matrix metal between the interface.The spontaneous potential of ferrophosphorus very just, overpotential is low, makes the oxygen that contains in the aqueous solution preferentially form hydroxide ion at the ferrophosphorus surface reduction, causes the oxygen that arrives base metal surface to reduce greatly, help the matrix metal cathodic polarization, thereby strengthened galvanic protection effect matrix metal; Simultaneously, the OH on inter coat surface ^-Ionic concn increases, and makes the interface inhibiter of upper layer dissolved metal ion to matrix metal migration becoming appositional pattern.

In the anti-corrosive paint that the present invention proposes, the content of al base sacrificial anode pigment or ferrophosphorus pigment should be limited in certain scope, and when al base sacrificial anode pigment was particulate state, pigment volume concentration (PVC) was 60-70%; When al base sacrificial anode pigment was flakey, pigment volume concentration (PVC) was 40-50%; The volumetric concentration of ferrophosphorus pigment is that 60-70% is in this scope in the ferrophosphorus coating; pigment in the coating becomes the structural network of co-continuous with the tree finger-type; it is the galvanic circle of the continuity formation galvanic protection of pigment; the continuity that tree refers to makes and does not produce hole or cavity in the coating; cause coating to have to a certain degree isolating power, thereby guarantee coating to play stably and persistent galvanic protection effect.Because al base sacrificial anode pigment is when being flakey, its specific surface area is bigger than granular, so its volumetric concentration can reduce and obtains the ideal effect.

The aluminium-based alloyed powder that the al base sacrificial anode pigment of the aluminum anode coating that the present invention proposes is adopted is the aluminium alloy of particle diameter≤100 μ m:

Al-Zn-Hg, Al-Zn-Mg, Al-Zn-Sn, Al-Zn-Mn, Al-Zn-In, Al-Zn-In-Si, Al-Zn-In-Sn, Al-Zn-In-Cd, Al-Zn-In-Si-Ti or Al-Zn-In-Sn-Mg.These aluminium-based alloyed powders can be used as sacrificial anode, iron is produced stablize persistent galvanic protection.

The density of the ferrophosphorus pigment that the ferrophosphorus coating that the present invention proposes is adopted is 5-7g/cm ³The electric rate of ferrophosphorus in this scope is higher, more can give full play to the effect of ferrophosphorus coating.

Embodiment 1

The aluminum base alloy elementary composition (weight percent) that the al base sacrificial anode pigment of aluminum anode coating is adopted is:

(1) Al-Zn-Hg Zn:0.45-4.38; Hg:0.04-0.045; All the other are Al.

(2) Al-Zn-Mg Zn:2.2:Mn:0.056; All the other are Al.

(3) Al-Zn-Sn Zn:0.5-10; Sn:0.05-1.0; Si:＜0.1; All the other are Al.

(4) Al-Zn-Mn Zn:0.5-2.5; Mn:0.8-2; Si:0.6-3.0; All the other are Al.

(5) Al-Zn-In Zn:0.5-5; In:0.01-0.05; All the other are Al.

(6) Al-Zn-In-Si Zn:5.5-7.0:In:0.025-0.035; Si:0.10-0.15; All the other are Al.

(7) Al-Zn-In-Sn Zn:2.2-5.2:Sn:0.018-0.035; In:0.02-0.045; All the other are Al.

(8) Al-Zn-In-Cd Zn:3.0-5.0; In:0.02-0.05; Cd:0.01-0.1; All the other are Al.

(9) Al-Zn-In-Si-Ti Zn:3.0-5.0; In:0.05-0.2; Si:0.05-0.2; Ti:0.02-0.05; Mg:1.2-2.2; All the other are Al.

(10) Al-Zn-In-Sn-Mg Zn:2.5-4.0; In:0.02-0.05; Sn:0.025-0.075; Mg:0.5-1.0; All the other are Al.

By the composition of above-mentioned any one aluminum base alloy, adopt the conventional metal melting and the method for powdered, obtain granular aluminium-based alloyed powder through fusion, atomizing, screening.Aluminium-based alloyed powder can be made into the pigment of multiple granularity specification as required.Send into runner milling for granularity again greater than the Al alloy powder that requires, under the solvent protection, mill and make varigrained lepidiod al base sacrificial anode pigment.As the pigment of coating, granularity generally should be less than or equal to 100 μ m.

Embodiment 2

For particulate state al base sacrificial anode pigment, form parts by weight by the coating shown in the table 1 and be mixed with coating.Except that composition listed in the table 1: resin adopts Resins, epoxy and the solidifying agent polymeric amide also available silicon acetoacetic ester or chlorinated rubber; Filler adopts the outer also available lime carbonate of bentonite slurry, titanium dioxide or polyethylene; It is the material of using always in 7: 3 dimethylbenzene and the coating such as the outer also available toluene of butanols mixture, ethanol or ethyl cellosolve that solvent adopts weight ratio.The viscosity of coating is by solvent load control, and with being coated with cups mensuration No. 4, viscosity is to get final product in 70 ± 2 seconds.After base metal surface applies one deck aluminum anode coating, in the salts solution of concentration 3%, soak, determine the galvanic protection life-span of coating with coating routine test method, potential monitoring and ac impedance spectroscopy to matrix metal.The galvanic protection life-span shown in the table 2 is an employing Al-Zn-In-Si anodic paint,＜44 μ m and matrix metal are the test result of carbon steel to granularity; for 60%, 65%, under 70% 3 kind of different pigment volume concentration (PVC); effective protection life-span to matrix metal was respectively 100 days; 110 days; 95 days, and the test result galvanic protection life-span of common zinc-rich paint under similarity condition only is 5-12 days.

Embodiment 3

For flakey al base sacrificial anode pigment, form parts by weight by the coating shown in the table 2 and be mixed with coating.Adopt the testing method identical with embodiment 2,＜the flakey Al-Zn-In-Si anodic paint of 44 μ m, the effective protection life-span 40%, 45%, under 50% 3 kind of different pigment volume concentration (PVC) to the matrix metal carbon steel was respectively 74 days and 70 days 70 days to particle.Compare with embodiment 2, though lepidiod al base sacrificial anode pigment coating is shorter slightly than particulate state al base sacrificial anode pigment to effective protection life-span of matrix metal, the consumption of pigment is few, effectively protect the life-span also obviously to be longer than zinc-rich paint.

Embodiment 4

60-70%(sees Table 3 by pigment volume concentration (PVC)) preparation ferrophosphorus coating, employing density is 5-7g/cm ³Ferrophosphorus, this ferrophosphorus is with Fe ₂P is main component and contains small amount of Fe P, FeP ₂, Fe ₃The mixture of P.Ferrophosphorus is 100 parts by weight; 601 Resins, epoxy 6-8 parts, solidifying agent kymene .75 part; 10.7 parts of filler bentonite slurries, solvent weight ratio are that 7: 3 the dimethylbenzene and the mixture of butanols make the ferrophosphorus pigment coating.Except that pigment, other forms other identical coating composition commonly used of available and embodiment 1.On matrix metal, apply one deck ferrophosphorus dope layer earlier and coat the aluminum anode coating layer that a layer thickness is equal to or greater than ferrophosphorus coating in appearance again.

Being coated with a layer thickness on the matrix metal carbon steel is ferrophosphorus coating (footpath of this ferrophosphorus pigment≤45 μ m) about 45 μ m; Be coated with last layer thickness again on the surface and be about 45 μ m as 3 described footpaths of embodiment＜al base sacrificial anode pigment coating of the flakey Al-Zn-In-Si anodic paint of 44 μ m; the galvanic protection life-span that records when being the compound use of ferrophosphorus pigment coating of 40%, 45% and 50% lepidiod al base sacrificial anode pigment and 65% with the volumetric concentration that records pigment under aforesaid method and the condition was respectively 95 days and 94 days 92 days.Increase with the galvanic protection life-span of lepidiod al base sacrificial anode pigment coating separately than embodiment 3, the better effects if of compound use ferrophosphorus coating is described.During the aluminum anode coating compound use identical with condition of ferrophosphorus coating, composite coating is to the protection effect basically identical of matrix metal.Aluminum anode coating and the compound use of ferrophosphorus coating not only can be used for salts solution media such as seawater, bittern but also can be used to contain H ₂In the former wet goods corrosive environment of S.

Table 1

Claims (4)

1, a kind of anti-corrosive paint is by metallic pigment and resin, filler and the solvent composition of sacrifice type, it is characterized in that metallic pigment are al base sacrificial anode pigment, al base sacrificial anode pigment is by AL and Zn and one or more interpolation element: the aluminium-based alloyed powder that In, Si, Sn, Mg, Mn, Ti, Hg, Cd formed, and the parts by weight of coating consist of:

Metallic pigment: al base sacrificial anode pigment 100;

Resin: 16-59;

Filler: 9-11;

Solvent:＞26.

2, the ferrophosphorus coating of the compound use of the described aluminum anode coating of a kind of and claim 1 is characterized in that with the ferrophosphorus being pigment, and the parts by weight of coating consist of:

Pigment: ferrophosphorus 100;

Tree refers to: 8-13;

Filler: 10.7;

Solvent:〉12.

3, anticorrosive coating according to claim 1 is characterized in that aluminium-based alloyed powder is the aluminium alloy of particle diameter≤100 μ m:

Al-Zn-Hg, Al-Zn-Mg, Al-Zn-Sn, Al-Zn-Mn, Al-Zn-In, Al-Zn-In-Si, Al-Zn-In-Sn, Al-Zn-In-Cd, Al-Zn-In-Si-Ti or Al-Zn-In-Sn-Mg.

4, ferrophosphorus coating according to claim 2, the density that it is characterized in that ferrophosphorus pigment is 5-7g/cm ³