CN106349831A - Water-based-high-hydroxyl-fluorocarbon anti-corrosion coating and preparation method thereof - Google Patents

Abstract

The invention provides water-based-high-hydroxyl-fluorocarbon anti-corrosion coating and a preparation method thereof. The coating comprises a component A and a component B, wherein the component A comprises water-based-high-hydroxyl-fluorocarbon resin, water-based hydroxy acrylic resin, rutile type titanium dioxide, nano barium sulfate, hardness-increasing ceramic additives, nano silica dispersion, water-based dispersant, water-based defoaming agent 1, water-based defoaming agent 2, water-based flatting agent, water-based wetting agent, neutralizing agent, water-based ultraviolet absorber, water-based polyamide wax slurry, deionized water and film-forming additives; the component B is hydrophilic isocyanate curing agent. The preparation method includes blending the component A and the component B according to the ratio of 6:1. The water-based-high-hydroxyl-fluorocarbon anti-corrosion coating has the advantages that the coating is fast in drying, high in hardness, high in toughness, good in wear resistance and excellent in chemical resistance, the weather resistance of the coating reaches 3000h, and the coating can replace solvent type fluorocarbon coating to be applied to various steel-structure protection, building materials, buildings, vehicles, rail transit, petroleum and petrochemical, and the like.

Description

A kind of aqueouss high hydroxyl fluorine carbon anticorrosive paint and preparation method thereof

Technical field

The invention belongs to technical field of coatings is and in particular to a kind of aqueouss high hydroxyl fluorine carbon anticorrosive paint and preparation method thereof.

Background technology

The sixties in last century, the oiliness fluorine carbon that pennwalt company of the U.S. successfully develops with polyvinylidene fluoride as base material applies Material.The eighties, Japan AGC company develops feve, makes oiliness fluorocarbon coating from high-temperature baking film forming, is improved to room temperature It is achieved that the ideal of application at the construction field (site), this is two quantum jumps of fluorocarbon coating industry for solidification.

Because fluorocarbon coating has the advantages that super-weathering resistance and excellent stain resistance, abrasion resistance, corrosion resistance, can be wide General apply in external coatings such as inorganic, organic material, metal materials, be the industry such as Aeronautics and Astronautics, building, chemical industry, household electrical appliances Provide excellent coating material.

But expensive due to oiliness fluorocarbon coating, there are a large amount of solvents volatilizations during production and use, unfavorable In environmental conservation.Oiliness fluorocarbon coating typically forms for bi-component again, and construction is more complicated, even the fluorine carbon of normal temperature cure applies Material, also higher to construction requirement, if strictly proportioning can not be carried out in the ratio of regulation, film performance will be had a strong impact on.Base In above-mentioned reason, need exploitation one kind badly and both there is oiliness fluorocarbon coating excellent specific property, again easy construction, price is suitable, meet The aqueous fluorocarbon coating of environmental requirement.

Content of the invention

The technical problem solving: the purpose of the present invention is to overcome the deficiencies in the prior art and provide a kind of aqueouss high hydroxyl fluorine carbon Anticorrosive paint and preparation method thereof, gained coating has the excellent spy of drying speed, hardness height, toughness height, excellent wear resistance, chemical resistance Point, weatherability can reach 3000h.

Technical scheme: a kind of aqueouss high hydroxyl fluorine carbon anticorrosive paint, including a component and b component, a component is included with weight portion The following raw material of meter: aqueouss high hydroxyl fluorocarbon resin 40-50 part, water based acrylic resin 5-10 part, Rutile type titanium dioxide 20-25 part, nano barium sulfate 5-10 part, Hardening ceramic additive 0.5-3 part, Nano silicon dioxide dispersion 0.1-0.3 part, water Property dispersant 0.2-0.4 part, aqueous defoamer 1 0.1-0.2 part, aqueous defoamer 2 0.1-0.2 part, aqueous levelling agent 0.1- 0.2 part, aqueous wetting agent 0.1-0.2 part, nertralizer 0.2-0.5 part, aquosity ultraviolet light absorbent 0.4-0.8 part, aqueouss polyamides Amine wax liquor 2-4 part, deionized water 11.2-12.7 part, coalescents 1-2 part；B component is hydrophilic isocyanide ester firming agent.

Further, a component also includes Mannitol 0.01-0.05 part and/or terpineol 0.01-0.03 part.

The preparation method of above-mentioned aqueouss high hydroxyl fluorine carbon anticorrosive paint, be by a component and b component by 6:1 proportioning paint, its Middle a component is prepared by following steps:

Step 1, deionized water, aqueous dispersion, aqueouss foam inhibitor, coalescents mixing, stirring obtain mixture a；

Step 2, adds Rutile type titanium dioxide, nano barium sulfate, aqueous polyamide wax liquor, nanometer two in mixture a Silica dispersion, Hardening ceramic additive, stirring, it is ground to fineness and reaches less than 20 μm, obtain mixture b；

Step 3, adds aqueouss high hydroxyl fluorocarbon resin, water based acrylic resin, stirring in mixture b, is mixed Compound c；

Aqueous defoamer, aqueous wetting agent, aqueous levelling agent, aquosity ultraviolet light are absorbed by step 4 under agitation Agent, antimildew disinfectant add in mixture c, dispersion, add nertralizer, obtain final product.

Further, in step 1, stirring condition is 300-400rpm, 5-10min.

Further, in step 2, stirring condition is 400-600rpm, 5-10min.

Further, in step 3, stirring condition is 400-600rpm, 15-20min.

Further, in step 4, mixing speed is 400-600rpm, and dispersion condition is 400-600rpm, 15-20min.

Further, also need in step 2 add Mannitol 0.01-0.05 part.

Further, also need in step 3 add terpineol 0.01-0.03 part.

Beneficial effect: the aqueouss high hydroxyl fluorine carbon anticorrosive paint of the present invention have drying speed, hardness height, toughness height, excellent wear resistance, The excellent feature of chemical resistance, weatherability can reach 3000h, and alternative solvent-borne type fluorocarbon coating is applied to all kinds of steel constructions to be prevented Shield, building materials, building, vehicle, track traffic, petroleum and petrochemical industry etc..

Specific embodiment

The raw material that following examples adopt is as follows:

Aqueouss high hydroxyl fluorocarbon resin (srf-e630 Hua Tongrui speeds)

Water based acrylic resin (a2695 Cohan wound)

Rutile type titanium dioxide (706 Du Pont)

Nano barium sulfate (bs80 Beijing gold zebra)

Aqueous polyamide wax liquor (it is prosperous that Hua is found in aqh-800 Shenzhen)

Nano silicon dioxide dispersion (wv33 sea ease chemistry)

Hardening pottery flour additive agent (mt801 Chongqing wheat figure science and technology)

Dispersant (zwd1 U.S. Troy)

Defoamer 1 (d209w U.S. Troy)

Defoamer 2 (nxz section is peaceful)

Levelling agent (67 this chemistry of sea inscription)

Wetting agent (960 sea ease chemistry)

Aquosity ultraviolet light absorbent (1406 Beijing addition)

Coalescents (dpm LG-DOW)

Nertralizer (this chemistry of amp-95 sea inscription)

Hydrophilic isocyanate resin (n3900 Bayer)

In each embodiment, a component proportion is as shown in the table:

	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5	Embodiment 6
							Aqueouss high hydroxyl fluorocarbon resin	40	45	50	50	50	50
Water based acrylic resin	10	8	5	5	5	5
							Rutile type titanium dioxide	25	22	20	20	20	20
Nano barium sulfate	8	6	5	5	5	5
							Aqueous polyamide wax liquor	4	2	3	3	3	3
Nano silicon dioxide dispersion	0.2	0.3	0.1	0.1	0.1	0.1
							Aqueous dispersion	0.4	0.3	0.2	0.2	0.2	0.2
Aqueous wetting agent	0.1	0.2	0.2	0.2	0.2	0.2
							Aqueous defoamer 1	0.1	0.2	0.1	0.1	0.1	0.1
Aqueous defoamer 2	0.2	0.1	0.2	0.2	0.2	0.2
							Aqueous levelling agent	0.1	0.2	0.1	0.1	0.1	0.1
Aquosity ultraviolet light absorbent	1	0.8	0.5	0.5	0.5	0.5
							dpm	1	2	2	2	2	2
Deionized water	9.4	12.9	10.6	10.6	10.6	10.6
							Hardening pottery flour additive agent	0.5	1	3	3	3	3
Mannitol	0	0	0	0.04	0	0.04
							Terpineol	0	0	0	0	0.01	0.01

Preparation method is:

1. deionized water, aqueous dispersion, aqueouss foam inhibitor, coalescents are added together and stirred using 300-400 rev/min Mix 5-10 minute；

2. add Rutile type titanium dioxide, nano barium sulfate, aqueous polyamide wax liquor, Nano silicon dioxide dispersion, increasing Hard ceramic additive, using 400-600 rev/min of stirring 5-10 minute, is ground to fineness using sand mill and reaches less than 20 microns；

3. add aqueouss high hydroxyl fluorocarbon resin, water based acrylic resin to divide using 400-600 rev/min of stirring 15-20 Clock；

4. side adopts 400-600 rev/min to add aqueous defoamer, aqueous wetting agent, aqueous levelling agent, aqueouss while stirring UV absorbers, using 400-600 rev/min of dispersion 15-20 minute.

5. adopt 400-600 rev/min to add nertralizer while stirring, gained coating ph value is adjusted between 8-9.

Dry plate is realized: a component: b component=6:1 proportioning, carries out the adjustment of spray viscosity using deionized-distilled water, will spray Apply viscosity and be adjusted to 20-25s (t-4 cup), spray layer 2-3, dry plate is placed in 25 DEG C of calorstats from detection in dry 48 hours routinely Can, ripening tested artificial ageing resistance performance, chemical resistance after 7 days, and the dry plate film thickness of type inspection controls at 50-60 μm.

Execution standard: be dried according to gb/t1728, adhesive force according to gb/t1720, impact according to gb/t1732, toughness according to According to gb/t1731, gloss according to gb/t1743, hardness according to gb/t6739, resistance to water foundation gb/t1733, abrasion resistance foundation Gb/t9266, chemical resistance are according to gb/t23987, resistance to neutral salt spray according to gb/t1771, artificial ageing resistance foundation gb/ T14522, cold-hot cyclicity are according to gb/t9755.All properties with compare 1 (cn103965669a) and comparison 2 (cn 104341880 a) are contrasted, and result is as follows:

Be can be seen that by above test result and add Hardening pottery flour additive agent in formula system, with carrying of amount Rise, the hardness of paint film, chemical resistance are all had a distinct increment, especially shows abrasion resistance aspect, Hardening pottery in embodiment 3 Flour additive agent addition be 3% when, directly by abrasion resistance by 15000 times show-through rise to 25000 times not show-through.Embodiment 4 The addition of middle Mannitol, can improve the resistance to impact of paint film；Add terpineol in embodiment 5, paint film can be improved further Acidproof and alkali resistance；Add while Mannitol and terpineol moreover it is possible to strengthen the cold-hot cyclicity of paint film.

Claims (9)

1. a kind of aqueouss high hydroxyl fluorine carbon anticorrosive paint, including a component and b component it is characterised in that: a component is included with weight portion The following raw material of meter: aqueouss high hydroxyl fluorocarbon resin 40-50 part, water based acrylic resin 5-10 part, Rutile type titanium dioxide 20-25 part, nano barium sulfate 5-10 part, Hardening ceramic additive 0.5-3 part, Nano silicon dioxide dispersion 0.1-0.3 part, water Property dispersant 0.2-0.4 part, aqueous defoamer 1 0.1-0.2 part, aqueous defoamer 2 0.1-0.2 part, aqueous levelling agent 0.1- 0.2 part, aqueous wetting agent 0.1-0.2 part, nertralizer 0.2-0.5 part, aquosity ultraviolet light absorbent 0.4-0.8 part, aqueouss polyamides Amine wax liquor 2-4 part, deionized water 11.2-12.7 part, coalescents 1-2 part；B component is hydrophilic isocyanide ester firming agent.

2. aqueouss according to claim 1 high hydroxyl fluorine carbon anticorrosive paint it is characterised in that: a component also includes Mannitol 0.01-0.05 part and/or terpineol 0.01-0.03 part.

3. the high hydroxyl of the aqueouss described in claim 1 fluorine carbon anticorrosive paint preparation method it is characterised in that: be by a component and b group Divide the proportioning paint pressing 6:1, wherein a component is prepared by following steps:

Step 1, deionized water, aqueous dispersion, aqueouss foam inhibitor, coalescents mixing, stirring obtain mixture a；

Step 2, adds Rutile type titanium dioxide, nano barium sulfate, aqueous polyamide wax liquor, nanometer titanium dioxide in mixture a Silicon dispersion, Hardening ceramic additive, stirring, it is ground to fineness and reaches less than 20 μm, obtain mixture b；

Step 3, adds aqueouss high hydroxyl fluorocarbon resin, water based acrylic resin, stirring in mixture b, obtains mixture c；

Step 4, under agitation by aqueous defoamer, aqueous wetting agent, aqueous levelling agent, aquosity ultraviolet light absorbent, anti- Mould antibacterial adds in mixture c, dispersion, adds nertralizer, obtains final product.

4. aqueouss according to claim 3 high hydroxyl fluorine carbon anticorrosive paint preparation method it is characterised in that: stir in step 1 The condition of mixing is 300-400rpm, 5-10min.

5. aqueouss according to claim 3 high hydroxyl fluorine carbon anticorrosive paint preparation method it is characterised in that: stir in step 2 The condition of mixing is 400-600rpm, 5-10min.

6. aqueouss according to claim 3 high hydroxyl fluorine carbon anticorrosive paint preparation method it is characterised in that: stir in step 3 The condition of mixing is 400-600rpm, 15-20min.

7. aqueouss according to claim 3 high hydroxyl fluorine carbon anticorrosive paint preparation method it is characterised in that: stir in step 4 Mixing speed is 400-600rpm, and dispersion condition is 400-600rpm, 15-20min.

8. aqueouss according to claim 3 high hydroxyl fluorine carbon anticorrosive paint preparation method it is characterised in that: in step 2 also Need to add Mannitol 0.01-0.05 part.

9. aqueouss according to claim 3 high hydroxyl fluorine carbon anticorrosive paint preparation method it is characterised in that: in step 3 also Need to add terpineol 0.01-0.03 part.