CN106318046A - Fire-retardant paint of organosilicone modified epoxy acrylate ultrathin steel structure and preparation method - Google Patents

Abstract

The invention discloses fire-retardant paint of an organosilicone modified epoxy acrylate ultrathin steel structure and a preparation method of the fire-retardant paint. The fire-retardant paint is prepared from 35-71% of expansive fire-retardant system, 10-28% of inorganic fire-retardant system, 5-13% of titanium dioxide, 17-37% of modified emulsion base material and 15-20% of auxiliaries and water. The fire-retardant paint is prepared by means of the grinding, mixing and rapid stirring method. The fire-retardant paint has good adhesion, weather resistance and intumescent flame retardant effect and is safe, environmentally friendly, low in cost, friendly to the environment, small in amount, convenient to construct and excellent in decoration performance.

Description

Organic silicon modified epoxy acrylate super-thin steel structure fireproof coating and preparation method

Technical field

The present invention relates to the fireproof coating of steel construction, be specifically related to a kind of organic silicon modified epoxy acrylate ultra-thin steel knot Structure fireproof coating and preparation method.

Background technology

So-called fire-resistant coating for steel structure, is to be coated on building and structures steel structure surface, and can form resistance to fire screen Thermal-protective coating, in order to improve the functional coating of Steel Fire Resistance Rating.Divide according to paint coating thickness, have thick be coated with (H type), Scumbling (Type B), the fire-resistant coating for steel structure of ultra-thin (CB type) three types.

Because traditional solvent-borne type CB formed steel construction fireproof coating produces, human body and environment serious harm VOC(volatility are had Machine compound, volatile organic compounds), and fire-retardant during the big problem of flue dust.So, meeting base On the basis of this expandable flame retardant function, fire-resistant coating for steel structure is made to possess good every physicochemical property, such as adhesive force, levelling Property, chemicals-resistant etc., and be devoted to develop environment-friendly type aqueous ultra-thin shaped steel fireproof coating.

To this end, ensure possess the ring fire-resistant coating for steel structure with border friendly as basic principle on, act on meet below The requirement of three aspects conduct a research exploitation coating variety be advisable.First, possesses the macromolecule resin breast of combination property in all directions Liquid has more excellent performance on various physicochemical properties, such as resistance to acids and bases, weatherability etc..Secondly, improve in fire retardant systems Materials application and the such as treatment technology such as nano-powder, material surface modifying make solid fireproof material possess more in coating Add excellent physicochemical property and refractory ability.Finally, the mix and match of exploitation Multifunction fire retardant and flame-retardant system uses, Both can guarantee that the effectiveness that fire prevention expands, and there is during making fire prevention the effect of suppression flue dust, it is ensured that the guarantor to environment That protects with people is healthy and safe.

Summary of the invention

It is an object of the invention to overcome the drawbacks described above existed now with technology, it is provided that a kind of silicon-modified epoxy third Olefin(e) acid ester super-thin steel structure fireproof coating and preparation method, have good adhesive force, weatherability, expandable flame retardant effect, safety Environmental protection, low cost, environmentally friendly, and consumption is few, convenient construction, has excellent dicoration.

For achieving the above object, the present invention is to realize by the following technical solutions:

A kind of organic silicon modified epoxy acrylate super-thin steel structure fireproof coating, the quality of the constituent of described fireproof coating Percentage ratio is:

Intumescent Retardant System 25 ~ 60%；

Inorganic fire-retarded system 5 ~ 20%；

Titanium dioxide 5 ~ 13%；

Modified emulsion base material 17 ~ 37%；

Auxiliary agent+water 15 ~ 20%.

The mass percent of the constituent of described fireproof coating is:

Intumescent Retardant System 30 ~ 50%；

Inorganic fire-retarded system 8 ~ 17%；

Titanium dioxide 6 ~ 11%；

Modified emulsion base material 20 ~ 35%；

Auxiliary agent+water 16 ~ 18%.

Described Intumescent Retardant System includes APP, tripolycyanamide, tetramethylolmethane.

Described inorganic combustion inhibitor includes nano-aluminum hydroxide, expansible graphite, hollow glass micropearl.

The granularity of described hollow glass micropearl is 10 ~ 250 μm, and wall thickness is 1 ~ 2 μm.

Described modified emulsion base material includes water soluble persulfates, organosilan (KH-570), acrylic ester monomer, benzene Ethylene, epoxy resin E-44,.

Described auxiliary agent includes dispersant, defoamer, thickening agent, OP-10 etc..

The preparation process of described organic silicon modified epoxy acrylate super-thin steel structure fireproof coating includes:

Weigh Intumescent Retardant System, inorganic combustion inhibitor, titanium dioxide the most respectively, pour that to carry out 0.5h in mortar uninterrupted simultaneously into Grind, after completing above-mentioned experiment action, use preservative film to seal mortar, standby；

B. weigh modified emulsion base material, auxiliary agent is poured in beaker together with solid mixture ground in step a, quickly stirs 0.25h, is simultaneously introduced water and makes fireproof coating reach suitable viscosity.

Beneficial effects of the present invention:

The film forming matter of the present invention has good adhesive force, weatherability；Inorganic combustion inhibitor aluminium hydroxide, expansible graphite and expansion Flame-retardant system with the use of, there is good expandable flame retardant effect, and safety and environmental protection, low cost, environmentally friendly and ultra-thin Type expansion fire-resistant coating for steel structure consumption is few, convenient construction, has excellent dicoration.

Accompanying drawing explanation

Fig. 1 is process chart prepared by the present invention.

Detailed description of the invention

With embodiment, the present invention is embodied as technical scheme below in conjunction with the accompanying drawings to be described in further details.

Embodiment 1

Concrete preparation method:.

APP 7.20g, tripolycyanamide 5.90g, tetramethylolmethane 3.65g；Titanium dioxide 2.10g；Nano-aluminum hydroxide 4.23g, Expansible graphite 4.21g, hollow glass micropearl 1.56g；Modified emulsion base material 7.30g；Dispersant 0.13g, defoamer 0.13g, Thickening agent 0.15g, OP-10 0.03g；Water 4.60g.

Weigh Intumescent Retardant System (APP, tripolycyanamide, tetramethylolmethane), inorganic combustion inhibitor (nanometer the most respectively Aluminium hydroxide, expansible graphite 0.55g, hollow glass micropearl), titanium dioxide, pour that to carry out 0.5h in mortar uninterrupted into simultaneously Grind, after completing above-mentioned experiment action, use preservative film to seal mortar, standby；

B. solid ground in modified emulsion base material, auxiliary agent (dispersant, defoamer, thickening agent, OP-10) and step a is weighed Mixture is poured in beaker together, quickly stirs 0.25h, is simultaneously introduced water and makes fireproof coating reach suitable viscosity.

Fire resistance test result: when build is 2.76mm, fire resistance period is 120mim, good thermal stability, bullet Referring to that Rotating fields is compact and complete and speed of expansion fast, intensity is high.

Embodiment 2

APP 9.22g, tripolycyanamide 7.90g, tetramethylolmethane 4.61g；Titanium dioxide 4.10g；Nano-aluminum hydroxide 6.43g, Expansible graphite 6.41g, hollow glass micropearl 2.56g；Modified emulsion base material 10.30g；Dispersant 0.35g, defoamer 0.40g, Thickening agent 0.45g, OP-10 0.10g；Water 6.60g.

Weigh Intumescent Retardant System (APP, tripolycyanamide, tetramethylolmethane), inorganic combustion inhibitor (nanometer the most respectively Aluminium hydroxide, expansible graphite 0.55g, hollow glass micropearl), titanium dioxide, pour that to carry out 0.5h in mortar uninterrupted into simultaneously Grind, after completing above-mentioned experiment action, use preservative film to seal mortar, standby；

B. solid ground in modified emulsion base material, auxiliary agent (dispersant, defoamer, thickening agent, OP-10) and step a is weighed Mixture is poured in beaker together, quickly stirs 0.25h, is simultaneously introduced water and makes fireproof coating reach suitable viscosity.

Fire resistance test result: when build is 2.76mm, fire resistance period is 120mim, good thermal stability, bullet Referring to that Rotating fields is compact and complete and speed of expansion fast, intensity is high.

Fire resistance test result: when build is 2.60mm, fire resistance period is 122mim, good thermal stability, bullet Referring to that Rotating fields is compact and complete and speed of expansion fast, intensity is high.

Material composition, preparation method and the technical characterstic of the present invention have more than been shown and described.The technical staff of the industry It should be appreciated that the present invention is not restricted to the described embodiments, described in above-described embodiment and description, the present invention is simply described Principle, without departing from the spirit and scope of the present invention, the present invention also has various changes and modifications, these change and Improvement both falls within scope of the claimed invention.Claimed scope is by appending claims and equivalence thereof Thing defines.

Claims (8)

1. an organic silicon modified epoxy acrylate super-thin steel structure fireproof coating, it is characterised in that described fireproof coating The mass percent of constituent is:

Intumescent Retardant System 25 ~ 60%；

Inorganic fire-retarded system 5 ~ 20%；

Titanium dioxide 5 ~ 13%；

Modified emulsion base material 17 ~ 37%；

Auxiliary agent+water 15 ~ 20%.

2. an organic silicon modified epoxy acrylate super-thin steel structure fireproof coating, it is characterised in that described fireproof coating The mass percent of constituent is:

Intumescent Retardant System 30 ~ 50%；

Inorganic fire-retarded system 8 ~ 17%；

Titanium dioxide 6 ~ 11%；

Modified emulsion base material 20 ~ 35%；

Auxiliary agent+water 16 ~ 18%.

Organic silicon modified epoxy acrylate super-thin steel structure fireproof coating the most according to claim 2, described expansion hinders Combustion system includes APP, tripolycyanamide, tetramethylolmethane.

Organic silicon modified epoxy acrylate super-thin steel structure fireproof coating the most according to claim 2, described inorganic resistance Combustion agent includes nano-aluminum hydroxide, expansible graphite, hollow glass micropearl.

Organic silicon modified epoxy acrylate super-thin steel structure fireproof coating the most according to claim 4, described hollow glass The granularity of glass microballon is 10 ~ 250 μm, and wall thickness is 1 ~ 2 μm.

Organic silicon modified epoxy acrylate super-thin steel structure fireproof coating the most according to claim 2, described modified milk Liquid base material includes water soluble persulfates, organosilan (KH-570), acrylic ester monomer, styrene, epoxy resin E-44.

Organic silicon modified epoxy acrylate super-thin steel structure fireproof coating the most according to claim 2, described auxiliary agent bag Include dispersant, defoamer, thickening agent, OP-10 etc..

8. according to the system of organic silicon modified epoxy acrylate super-thin steel structure fireproof coating described in claim 1-7 any one Standby step includes:

A. weigh Intumescent Retardant System, inorganic combustion inhibitor, titanium dioxide according to aforementioned proportion respectively, pour in mortar simultaneously and carry out 0.5h uninterruptedly grinds, and after completing above-mentioned experiment action, uses preservative film to seal mortar, standby；

B. pour in beaker, soon together with weighing the solid mixture that modified emulsion base material, auxiliary agent are ground with previous step in step a Speed stirring 0.25h, is simultaneously introduced water and makes fireproof coating reach suitable viscosity.