CN104693906A - Fireproof anti-corrosion surface coating for steel door - Google Patents

Abstract

The invention provides a fireproof anti-corrosion surface coating for a steel door. The coating comprises the following components by weight: 80 to 100 parts of matrix resin, 10 to 20 parts of a flame retardant, 5 to 15 parts of a pigment, 5 to 15 parts of a filler, 1 to 5 parts of an auxiliary agent and 1 to 80 parts of a solvent, wherein the matrix resin is one or more selected from the group consisting of high chlorinated polyethylene, alkyd resin, acrylic resin, polyurethane resin, fluorocarbon resin, chlorinated polyvinyl chloride and chlorinated polyethylene. The fireproof anti-corrosion surface coating for the steel door provided by the invention has the following advantages: a coating film is smooth, compact and tough and has good adhesive force; chemical resistance and flame retardant property are significantly improved; properties like light resistance and aging resistance are significantly enhanced; and service life is long.

Description

Iron and steel door surface fireproof anticorrosive coating

Technical field

The present invention relates to coating technology, particularly iron and steel door surface fireproof anticorrosive coating.

Background technology

The framework of modernization heavy construction, petrochemical complex facility, automobile, industry widespread use steel construction and the steel such as machinery.First, metallic corrosion is extensively commonplace in current steel industry, and endangers one of larger phenomenon.Metallic corrosion can bring financial loss direct or indirect greatly to national economy and national defense construction.Metallic corrosion, particularly stress corrosion and corrosion fatigue, easily cause calamitous substantial industrial accident, bring danger and pollution to natural ecological environment and personnel safety.Secondly, the thermal conductivity of ferrous materials is large, once run into fire, itself temperature can rise fast, and material deformation own, then loses supporting capacity.

Therefore the erosion of the fire retardant anticorrosion of ferrous materials is for better utilised ferrous materials, extends its work-ing life and has important effect.There is Corrosion Protection that following several method can improve ferrous materials at present: the solidity to corrosion improving material itself; change environment for use; adopt coated layer and surface modification; utilize the methods such as lining, slushing oil, anti-tarnish paper ferrous materials and corrosive medium to be separated, adopt electro-chemical protection etc.But these methods do not play castering action for the fire resistance of ferrous materials.At present, how to obtain a kind of fire retardant anticorrosion erosion performance that can promote iron and steel, the coating that cost performance is high is a primary study method and the difficult point of iron and steel paint field.

Summary of the invention

In order to solve the technological deficiency existed in above-mentioned prior art, proposition of the present invention is a kind of has certain thickness, good intensity, the protection against corrosion of excellence and the iron and steel door surface fireproof anticorrosive coating of heat-insulating capability.

The present invention is achieved by the following technical solutions:

Iron and steel door surface fireproof protective system, its each composition composition is calculated as follows by weight: matrix resin 80-100 part, flame-retardant additive 10-20 part, pigment 5-15 part, filler 5-15 part, auxiliary agent 1-5 part, solvent 1-80 part.

Preferably, matrix resin is selected from one or more in highly-chlorinated polyethylene, Synolac, acrylic resin, urethane resin, fluorocarbon resin, chlorinated polyvinyl chloride or chlorinatedpolyethylene.The base mateiral of coating is matrix resin, decides the fundamental property of coating.The resin of fire retardant anticorrosion erosion required by coating, except needing to possess except the physicochemical property of common coating, also should have flame retardancy, swelling property etc.In above-mentioned matrix resin, preferred, matrix resin is highly-chlorinated polyethylene, acrylic resin and urethane resin.

Preferably, flame-retardant additive is ammonium polyphosphate, tetramethylolmethane, trimeric cyanamide, clorafin, expansible black lead.What the fire resistance for coating played a decisive role is flame-retardant additive, and has for the major influence factors of the fire resistance of frie retardant coating: carbon layer thickness, structure, thermal conductivity, chemical constitution etc.

Ammonium polyphosphate more can improve coating carbon layer quality, strengthen coating humidity resistance, avoid occurring salting-out phenomenon.Penta tetrol and ammonium polyphosphate consistency high, the foam carbon layer of high-quality can be formed, effectively improve the fire resistance of coating.Trimeric cyanamide is met fire and is decomposed generation non-flammable gases, and clorafin, expansible black lead can form the multi-level carbonization of gradient, and both spellings are used

Preferably, pigment is ANTIMONY TRIOXIDE SB 203 99.8 PCT.ANTIMONY TRIOXIDE SB 203 99.8 PCT can work in coordination with chlorine-containing resins the effect playing fire-resistant synergistic.

Preferably, filler is nano combined ferrotitanium powder.Nano combined ferrotitanium powder is as the active rust-stabilising pigment of one, and it is made up of multiple different phosphoric acid salt, and it can play the effect of passivation chemical corrosion.

Preferably, solvent is one or more in toluene, dimethylbenzene or butanols.

Preferably, auxiliary agent is defoamer, flow agent, anti-settling agent and anti-extension agent.Auxiliary agent is very helpful for ornamental, stability, the workability improving coating, and the flame retardant resistance improving coating and rustless property also can play the effect of service hoisting.

Effective effect of the present invention is:

The first, iron and steel door surface fireproof anticorrosive coating of the present invention, photocatalytic coating film slip close, tough and tensile, sticking power is good, can well promote the surface comprehensive performance of iron and steel.

The second, iron and steel door surface fireproof anticorrosive coating of the present invention, resistance to chemical corrosion and flame retardant properties have remarkable lifting, in fast light, ageing-resistant etc., also have remarkable lifting, long service life.

Three, iron and steel door surface fireproof anticorrosive coating of the present invention is widely used, and can be widely used in field of iron and steel, especially automobile, machinery, the field that building etc. are higher to fire retardant anticorrosion erosion performance requriements.

Embodiment

Following non-limiting example can make the present invention of those of ordinary skill in the art's comprehend, but does not limit the present invention in any way.

Embodiment 1

The matrix resin that highly-chlorinated polyethylene, acrylic resin and urethane resin form is added solvent, stirring and dissolving, then the flame-retardant additive be made up of ammonium polyphosphate, tetramethylolmethane, trimeric cyanamide, clorafin, expansible black lead is added, mix and blend stirs, then the auxiliary agents such as defoamer, flow agent, anti-settling agent and anti-extension agent are first added, be incorporated as the ANTIMONY TRIOXIDE SB 203 99.8 PCT as pigment and the nano combined ferrotitanium powder as filler again, high speed dispersion is even, and then through shredder grinding 2-3 time, stir after taking-up, filter and package.The weight ratio proportioning of each composition prepared by coating is as follows: matrix resin 100 parts, flame-retardant additive 20 parts, pigment 15 parts, filler 15 parts, auxiliary agent 5 parts, solvent 80 parts.

Get the Q235 steel of 150mm × 70mm × 3mm, oil removing, cleans up, and be coated with the iron and steel door fire retardant anticorrosion erosion coating of the above-mentioned preparation of one deck, be coated with one deck again after drying, coat-thickness is 2mm.Left at room temperature 10 hours, is then carried out physical and chemical performance test, and resistance to acids and bases is tested, corrosion-resistant, fire testing.

Embodiment 2

Repeat embodiment 1 by described same steps, but the weight proportion of each composition prepared of coating is as follows in example 2: matrix resin 80 parts, flame-retardant additive 10 parts, pigment 5 parts, filler 5 parts, auxiliary agent 5 parts, solvent 80 parts.

Embodiment 3

Repeat embodiment 1 by described same steps, but the weight proportion of each composition prepared of coating is as follows in embodiment 3: matrix resin 80 parts, flame-retardant additive 20 parts, pigment 5 parts, filler 5 parts, auxiliary agent 5 parts, solvent 80 parts.

Embodiment 4

Repeat embodiment 1 by described same steps, but the weight proportion of each composition prepared of coating is as follows in example 4: matrix resin 80 parts, flame-retardant additive 10 parts, pigment 15 parts, filler 5 parts, auxiliary agent 5 parts, solvent 80 parts.

Comparative example 1

Repeat embodiment 1 by described same steps, but the weight proportion of each composition prepared by coating is as follows in comparative example 1: matrix resin 50 parts, flame-retardant additive 5 parts, pigment 5 parts, filler 5 parts, auxiliary agent 5 parts, solvent 50 parts.

Comparative example 2

Repeat embodiment 1 by described same steps, but the weight proportion of each composition prepared by coating is as follows in comparative example 2: matrix resin 30 parts, flame-retardant additive 5 parts, pigment 5 parts, filler 5 parts, auxiliary agent 5 parts, solvent 50 parts.

The coating finally obtained by embodiment 1-4 and comparative example 1-2 and its performance test are analyzed and can obtain, and the proportioning raw materials of embodiment 1 is best, and the corrosion resistance nature of its coating and flame retardant properties are best.It is also better that the corrosion resistance nature of embodiment 2-4 and flame retardant properties compare ratio 1-2.

Claims (8)

1. iron and steel door surface fireproof anticorrosive coating, is characterized in that: each composition composition of described coating is calculated as follows by weight: matrix resin 80-100 part, flame-retardant additive 10-20 part, pigment 5-15 part, filler 5-15 part, auxiliary agent 1-5 part, solvent 1-80 part.

2. iron and steel door surface fireproof anticorrosive coating according to claim 1, is characterized in that: described matrix resin is selected from one or more in highly-chlorinated polyethylene, Synolac, acrylic resin, urethane resin, fluorocarbon resin, chlorinated polyvinyl chloride or chlorinatedpolyethylene.

3. iron and steel door surface fireproof anticorrosive coating according to claim 2, is characterized in that: described matrix resin is highly-chlorinated polyethylene, acrylic resin and urethane resin.

4. iron and steel door surface fireproof anticorrosive coating according to claim 1, is characterized in that: described flame-retardant additive is ammonium polyphosphate, tetramethylolmethane, trimeric cyanamide, clorafin, expansible black lead.

5. iron and steel door surface fireproof anticorrosive coating according to claim 1, is characterized in that: described pigment is ANTIMONY TRIOXIDE SB 203 99.8 PCT.

6. iron and steel door surface fireproof anticorrosive coating according to claim 1, is characterized in that: described filler is nano combined ferrotitanium powder.

7. iron and steel door surface fireproof anticorrosive coating according to claim 1, is characterized in that: described solvent is one or more in toluene, dimethylbenzene or butanols.

8. iron and steel door surface fireproof anticorrosive coating according to claim 1, is characterized in that: described auxiliary agent is defoamer, flow agent, anti-settling agent and anti-extension agent.