CN104371505A - Waterborne-epoxy micaceous-iron-oxide intermediate coat and preparation method thereof - Google Patents

Abstract

The invention provides a waterborne-epoxy micaceous-iron-oxide intermediate coat comprising a component A and a component B. The component A comprises, by mass, 10-15% of waterborne-epoxy hardeners, 28-40% of micaceous-iron-oxide grey, 2-5% of waterborne aluminum silver paste, 10-20% of zinc powder, 10-20% of ferrotitanium powder, 5-10% of nanometer barium sulfate, 0.3-0.5% of dispersant, 0.1-0.2% of defoamer, 0.1-0.2% of foam inhibitor, 8.5-10% of cosolvent, 0.1-0.3% of wetting agent, 1-2% of hydrated magnesium silicate, 1-2% of thickeners and 0.5-1% of antirust. The component B comprises, by mass, 53-80% of waterborne epoxy resin, 1-2% of neutralizers and 18-46% of deionized distilled water. The waterborne-epoxy micaceous-iron-oxide intermediate coat has the obvious advantages in terms of surface dry, hard dry, adhesive force, water resistance, salt fog resistance and the like, and all performances is optimized basically.

Description

Water-based epoxy micaceous iron intermediate coat and preparation method thereof

Technical field

The present invention relates to paint class and make field, refer to a kind of water-based epoxy micaceous iron intermediate coat and preparation method thereof especially.

Background technology

On market a lot of client in order to promote film thickness, promote coating to the protective capacities of ground, reduce costs, and produce and used one deck intermediate coat.But composition and the proportioning of this intermediate coat are different, the performance of some intermediate coats is not good, easily occurs that dry speed is slow, poor adhesive force, solids content are low and causes sagging, and the situation such as antiseptic property and salt spray resistance difference; The discharge capacity of the comparatively excellent intermediate coat of some performances but VOC is often larger, very large harm is all brought to environment and human body, granted patent CN 101104770A and CN102093805A both provides a kind of intermediate coat, but does not possess clear superiority on basic property.

Summary of the invention

The present invention proposes a kind of water-based epoxy micaceous iron intermediate coat and preparation method thereof, both can optimize all properties on the basis of oiliness intermediate coat, greatly reduce again the discharge capacity of VOC, thus reaches performance, environmental protection double effects.

Technical scheme of the present invention is achieved in that a kind of water-based epoxy micaceous iron intermediate coat, comprise component A and component B, described component A comprises the following component according to massfraction meter: aqueous epoxy curing agent 10-15%, micaceous iron oxide gray 28-40%, water aluminum-silver slurry 2-5%, zinc powder 10-20%, ferrotitanium powder 10-20%, nano barium sulfate 5-10%, dispersion agent 0.3-0.5%, defoamer 0.1-0.2%, suds suppressor 0.1-0.2%, solubility promoter 8.5-10%, wetting agent 0.1-0.3%, hydrated magnesium silicate 1-2%, thickening material 1-2%, anti-sudden strain of a muscle rust agent 0.5-1%; Described component B comprises the following component according to massfraction meter: water-soluble epoxy resin 53-80%, neutralizing agent 1-2%, deionized-distilled water 18-46%.

A preparation method for water-based epoxy micaceous iron intermediate coat, the manufacture craft of described component A comprises:

Aqueous epoxy curing agent, solubility promoter, aqueous dispersant, water-based suds suppressor, water-based defoamer, the agent of anti-sudden strain of a muscle rust add and stir 5-10 minute by step a.;

Step b. limit adopts 400-600 rev/min and adds micaceous iron oxide gray, zinc powder, ferrotitanium powder, hydrated magnesium silicate, nano barium sulfate while stirring, and disperses 20-30 minute.

Step c joins after adopting solubility promoter that water aluminum-silver slurry is fully wetting and produces in cylinder, and stirs 5-10 minute;

Steps d. add water-based thickener, aqueous wetting agent, stir 5-10 minute.

The manufacture craft of described component B comprises: added by aqueous epoxy resins and produce in cylinder, adds in aqueous epoxy resins again, controlled by pH value between 8-9, stir 5-10 minute after adopting deionized-distilled water to be diluted by neutralizing agent;

Dry plate realizes: component A and component B carried out proportioning, viscosity adjustment, spraying and certainly do.

As preferably, described dry plate is embodied as according to component A: component B=100:30 carries out proportioning, deionized-distilled water is adopted to carry out the adjustment of spray viscosity, spray viscosity is adjusted to 20-40S (NK-2 cup), spraying layer 2-3, dry plate is placed in 25 DEG C of thermostat containers and was detected traditional performance from dry 48 hours.

As preferably, in described component A manufacture craft, in step a, stirring velocity is 400-600 rev/min; In step b, stirring velocity is 400-600 rev/min, rate of dispersion 800-1000 rev/min; In step c, stirring velocity is 600-800 rev/min; In steps d, stirring velocity is 600-800 rev/min.

As preferably, in described B component manufacture craft, stirring velocity is 400-600 rev/min.

Compared with prior art, the invention has the advantages that: provide a kind of petroleum and petrochemical industry, railway bearing, highway bearing, engineering mechanical device, freight container etc. of being applied to and require a kind of water-based epoxy micaceous iron intermediate coat applied in paint film thickness painting system and preparation method thereof, this product has pole large arch dam, splendid preservative property, also can not coating prime lacquer, this paint of direct employing substitutes epoxy zinc rich primer, epoxy anticorrosion primer is coated on metallic surface, thus substitutes the effect that priming paint reaches heavy antisepsis.Principle that the present invention takes full advantage of " surface effects ", the coating that original antiseptic property is very excellent further improves the antiseptic property of coating.

Embodiment

Be clearly and completely described to the technical scheme in the embodiment of the present invention below, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

The raw material that following examples adopt is as follows:

Aqueous epoxy resin emulsion (3520 U.S. step figure)

Micaceous iron oxide gray (600 order micaceous iron oxide gray section dimerization work)

Water aluminum-silver slurry (XH330 Shenzhen Xin Hangwang)

Zinc powder (600 order zinc powder Yangzhou are two contains)

Ferrotitanium powder (X-500 Changzhou crowd is general)

Nano barium sulfate (BS80 Beijing gold zebra)

Dispersion agent (PX4585 BASF)

Defoamer (2550 BASF)

Suds suppressor (this shield of BL-100 Suzhou hundred)

Wetting agent (57 this chemistry of sea inscription)

Hydrated magnesium silicate (AD sea ease chemistry)

Solubility promoter (dehydrated alcohol)

Aqueous epoxy curing agent (6520 U.S. step figure)

Neutralizing agent (this chemistry of DMAE sea inscription)

Anti-sudden strain of a muscle rust agent (river, ZT-709 sea chemical industry)

Thickening material (this chemistry of WT-105A sea inscription)

Table 1: the component A paint formula proportioning of embodiment 1 ~ embodiment 5

	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5
						Aqueous epoxy curing agent 8545	10	12	13	14	15
600 order micaceous iron oxide grays	28	30	28	28	40
						Zinc powder	20	17	15	20	10
Ferrotitanium powder	15	18	20	15	10
						Nano barium sulfate	10	8	7	5	6
Water aluminum-silver slurry	3	2	3	4	5
						Hydrated magnesium silicate	2	1.5	1	1	1
Dispersion agent	0.5	0.4	0.3	0.3	0.3
						Suds suppressor	0.1	0.2	0.2	0.1	0.1
Defoamer	0.2	0.1	0.2	0.2	0.2
						Wetting agent	0.1	0.2	0.2	0.1	0.3
The agent of anti-sudden strain of a muscle rust	0.5	0.6	0.6	0.8	1
						Thickening material	1	1.5	1.5	2	2
Solubility promoter	9.6	8.5	10	9.5	9.1
						Add up to	100	100	100	100	100

Concrete preparation method is:

A. aqueous epoxy curing agent, solubility promoter, aqueous dispersant, water-based suds suppressor, water-based defoamer, the agent of anti-sudden strain of a muscle rust are added employing 400-600 rev/min and stir 5-10 minute;

B. limit employing 400-600 rev/min adds micaceous iron oxide gray, zinc powder, ferrotitanium powder, hydrated magnesium silicate, nano barium sulfate while stirring, adopts 800-1000 rev/min to disperse 20-30 minute.

C. join after adopting solubility promoter that water aluminum-silver slurry is fully wetting and produce in cylinder, adopt 600-800 rev/min to stir 5-10 minute;

D. add water-based thickener, aqueous wetting agent, adopt 600-800 rev/min to stir 5-10 minute.

Table 2: the component B formulation ratio of embodiment 6 ~ embodiment 10

	Embodiment 6	Embodiment 7	Embodiment 8	Embodiment 9	Embodiment 10
						Aqueous epoxy resins 3520	53	60	66	72	80
Neutralizing agent	1	1.5	1.5	1.8	2
						Deionized water	46	38.5	32.5	26.2	18
Add up to	100	100	100	100	100

Aqueous epoxy resins is added and produces in cylinder, add again in aqueous epoxy resins after adopting deionized-distilled water neutralization to be diluted, adopt 400-600 rev/min to stir 10-15 minute;

Performance test

Test method is: by embodiment 1 and embodiment 6, embodiment 2 and embodiment 7, embodiment 3 and embodiment 8, embodiment 4 and embodiment 9, embodiment 5 and embodiment 10 are respectively according to the proportioning paint of 10:3, deionized-distilled water is adopted to carry out being diluted to spray viscosity (23-40S, NK-2 cup), standard-bred mouth iron plate carries out phosphatization or grinding process, on tinplate sheet, gauge control is at 20-30 μm, all-round property testing is done after 48 hours do solid work completely, salt spray resistance test dry plate gauge control is at 80-100 μm, salt spray resistance test is done after 7 days do solid work completely.

Time of drying, over-all properties was with granted patent CN 101104770A, CN 102093805A contrast according to GB/T1728, sticking power according to GB/T1720, impact according to GB/T1732, toughness according to GB/T6742, hardness according to GB/T6739, water tolerance according to GB/T1733, solids content test according to GB/T1725, freeze-thaw resistance according to GB/T9268, resistance to neutral salt spray according to GB/T1771.

Table 3: performance comparison test result

Can be drawn by 5 embodiments of upper table and 2 Data Comparisons contrasting patent, the present invention make water-based epoxy micaceous iron intermediate coat, at surface drying, do solid work, there is obvious advantage in sticking power, water tolerance and salt fog resistance etc., basis optimizes all properties.

This kind of product has that dry speed is fast, sticking power is good, solids content is high, workability is excellent, and disposable spray finishing 150 μm not sagging, easily plays thickness during spraying, and antiseptic property is excellent, and salt spray resistance can reach more than 1500 hours.Both can optimize all properties on the basis of oiliness intermediate coat, greatly reduce again the discharge capacity of VOC, thus reach performance, environmental protection double effects.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. a water-based epoxy micaceous iron intermediate coat, is characterized in that: comprise component A and component B,

Described component A comprises the following component according to massfraction meter: aqueous epoxy curing agent 10-15%, micaceous iron oxide gray 28-40%, water aluminum-silver slurry 2-5%, zinc powder 10-20%, ferrotitanium powder 10-20%, nano barium sulfate 5-10%, dispersion agent 0.3-0.5%, defoamer 0.1-0.2%, suds suppressor 0.1-0.2%, solubility promoter 8.5-10%, wetting agent 0.1-0.3%, hydrated magnesium silicate 1-2%, thickening material 1-2%, anti-sudden strain of a muscle rust agent 0.5-1%;

Described component B comprises the following component according to massfraction meter: water-soluble epoxy resin 53-80%, neutralizing agent 1-2%, deionized-distilled water 18-46%.

2. a preparation method for water-based epoxy micaceous iron intermediate coat according to claim 1, is characterized in that the manufacture craft of described component A comprises:

Aqueous epoxy curing agent, solubility promoter, aqueous dispersant, water-based suds suppressor, water-based defoamer, the agent of anti-sudden strain of a muscle rust add and stir 5-10 minute by step a.;

Step b. limit adopts 400-600 rev/min and adds micaceous iron oxide gray, zinc powder, ferrotitanium powder, hydrated magnesium silicate, nano barium sulfate while stirring, and disperses 20-30 minute.

Step c joins after adopting solubility promoter that water aluminum-silver slurry is fully wetting and produces in cylinder, and stirs 5-10 minute;

Steps d. add water-based thickener, aqueous wetting agent, stir 5-10 minute.

The manufacture craft of described component B comprises: added by aqueous epoxy resins and produce in cylinder, adds in aqueous epoxy resins again, controlled by pH value between 8-9, stir 5-10 minute after adopting deionized-distilled water to be diluted by neutralizing agent;

Dry plate realizes: component A and component B carried out proportioning, viscosity adjustment, spraying and certainly do.

3. the preparation method of water-based epoxy micaceous iron intermediate coat according to claim 2, it is characterized in that: described dry plate is embodied as according to component A: component B=100:30 carries out proportioning, deionized-distilled water is adopted to carry out the adjustment of spray viscosity, spray viscosity is adjusted to 20-40S (NK-2 cup), spraying layer 2-3, dry plate is placed in 25 DEG C of thermostat containers and was detected traditional performance from dry 48 hours.

4. the preparation method of water-based epoxy micaceous iron intermediate coat according to claim 2, is characterized in that: in described component A manufacture craft, and in step a, stirring velocity is 400-600 rev/min; In step b, stirring velocity is 400-600 rev/min, rate of dispersion 800-1000 rev/min; In step c, stirring velocity is 600-800 rev/min; In steps d, stirring velocity is 600-800 rev/min.

5. the preparation method of water-based epoxy micaceous iron intermediate coat according to claim 2, is characterized in that: in described B component manufacture craft, and stirring velocity is 400-600 rev/min.