阅读说明：本技术 一种改性莫来石、水性膨胀型防火涂料及其制备方法 (Modified mullite, water-based intumescent fire retardant coating and preparation method thereof ) 是由 张旗 杨俊锋 舒永俊 涂伟强 周良志 刘治田 于 2021-09-14 设计创作，主要内容包括：本发明涉及一种改性莫来石、水性膨胀型防火涂料及其制备方法。本发明通过采用聚多巴胺涂层包覆莫来石、并利用涂层上丰富的邻苯二酚羟基接枝硅烷偶联剂和磷系阻燃剂DOPO制备改性莫来石,并将改性后的莫来石应用于水性膨胀型防火涂料,该防火涂料耐水性能优异、膨胀炭层致密且牢固,同时制备方法简单易行,不需要大量有毒的有机溶剂,也无需长时间大功率耗电,符合绿色、环保、节能发展理念,适合推广和工业化生产。(The invention relates to a modified mullite and water-based intumescent fire retardant coating and a preparation method thereof. The modified mullite is prepared by coating the polydopamine coating, and utilizing rich catechol hydroxyl grafted silane coupling agent and phosphorus flame retardant DOPO on the coating, and the modified mullite is applied to the water-based intumescent fire retardant coating.)

1. The preparation method of the modified mullite is characterized by comprising the following steps:

carrying out a first grafting reaction on a flame retardant DOPO and a silane coupling agent to obtain a DOPO grafted silane coupling agent Si-DOPO;

coating polydopamine on the surface of the mullite whisker through self-polymerization of the dopamine to obtain polydopamine-coated mullite M @ PDA;

and carrying out a second grafting reaction on the DOPO grafted silane coupling agent Si-DOPO and the polydopamine coated mullite M @ PDA to obtain modified mullite M @ PDA-Si-DOPO.

2. The method of claim 1, wherein the silane coupling agent is at least one of vinyltriethoxysilane, vinyltrimethoxysilane, gamma-glycidoxypropyltrimethoxysilane, and gamma-aminopropyltriethoxysilane; the molar ratio of the flame retardant DOPO to the silane coupling agent is 1 (1-1.5).

3. The method for preparing modified mullite according to claim 1, wherein the mullite whiskers are desized mullite pretreated by an organic solvent;

the pretreatment process specifically comprises the following steps: dispersing mullite whiskers into a mixed solvent of absolute ethyl alcohol and acetone, refluxing for 2-4 h in a water bath at 70-90 ℃, and then performing suction filtration, washing and drying for later use.

4. The preparation method of the modified mullite according to claim 1, wherein the step of coating the polymerized dopamine on the surface of the mullite whisker by the self-polymerization of the dopamine specifically comprises the following steps: adding mullite whiskers into the Tris-dopamine hydrochloride solution, and stirring for reaction to coat polydopamine on the surfaces of the mullite whiskers; the concentration of the dopamine hydrochloride in the Tris-dopamine hydrochloride solution is 1-2.5 g/L; the solid-to-liquid ratio of the mullite whiskers to the Tris-dopamine hydrochloride solution is (50-300) g: 1L of the compound.

5. The preparation method of the modified mullite according to claim 4, wherein the stirring reaction is carried out at the temperature of 20-70 ℃ for 12-48 h.

6. The preparation method of the modified mullite according to claim 1, wherein the mass ratio of the DOPO grafted silane coupling agent Si-DOPO to the polydopamine coated mullite M @ PDA is (0.02-0.1): 1.

7. the preparation method of the modified mullite according to claim 1, wherein the temperature of the first grafting reaction is 80-160 ℃ and the time is 12-24 h; the temperature of the second grafting reaction is 60-80 ℃, and the time is 12-24 h.

8. A modified mullite, which is obtained by the process for producing a modified mullite according to any one of claims 1 to 7.

9. The water-based intumescent fire-retardant coating based on modified mullite is characterized by comprising the following components in percentage by mass: 2 to 10 percent of modified mullite, 1 to 3 percent of titanium dioxide, 8 to 12 percent of melamine, 10 to 15 percent of pentaerythritol, 20 to 25 percent of ammonium polyphosphate, 13 to 18 percent of film forming matter, 0.3 to 0.8 percent of hydroxyethyl cellulose, 0.3 to 0.7 percent of dispersing agent, 0.3 to 0.7 percent of defoaming agent, 0.3 to 0.8 percent of n-octyl alcohol and the balance of deionized water.

10. A preparation method of a modified mullite-based water-based intumescent fire retardant coating is characterized by comprising the following steps:

uniformly mixing modified mullite, titanium dioxide, hydroxyethyl cellulose and melamine, adding pentaerythritol and ammonium polyphosphate, uniformly mixing, continuously adding deionized water, a dispersing agent and an antifoaming agent, uniformly mixing, and finally adding a film forming material and n-octanol, and uniformly mixing to obtain the water-based intumescent fire-retardant coating based on modified mullite.

Technical Field

The invention relates to the technical field of fireproof coatings, in particular to a modified mullite and water-based intumescent fireproof coating and a preparation method thereof.

Background

Because the traditional solvent intumescent fire-retardant coating has the problems of serious environmental pollution caused by volatile organic solvents and the like, the water-based intumescent fire-retardant coating which is formed in recent years has the advantages of environmental protection, no toxicity, safety, convenience in construction and the like, and becomes the mainstream fire-retardant coating type researched at present. However, the existing water-based intumescent fire-retardant coating still has the defects of poor water resistance, insufficient firmness of an intumescent carbon layer, easiness in cracking and falling off and the like.

In order to solve the above disadvantages, a fire retardant coating having excellent water resistance, fire resistance, and weather resistance has been developed, and inorganic fillers of various structures have been applied to fire retardant coatings in succession. Mullite is used as the only stable binary compound of an aluminosilicate system at normal temperature and pressure, is mostly whisker with a fibrous structure, the length of the mullite whisker which is not subjected to ball milling is from dozens to hundreds of microns, and the grain diameter is from dozens to tens of microns. Researches find that the unique oxygen vacancy structure of the mullite enables the mullite to have good thermal stability, creep resistance, higher hardness and lower thermal conductivity and linear expansion coefficient, and is widely applied to the field of ceramics for many years. In recent years, mullite has been gradually added to fireproof coatings, but as an inorganic substance, unmodified mullite whiskers have poor compatibility with organic polymer resins as film-forming substances, and the performance of the coatings is not improved.

Disclosure of Invention

In view of the above, there is a need to provide a modified mullite and water-based intumescent fire retardant coating and a preparation method thereof, so as to solve the technical problems in the prior art that the mullite whisker directly used as a fire retardant has insufficient fire resistance and poor compatibility with organic matters.

The first aspect of the invention provides a preparation method of modified mullite, which comprises the following steps:

carrying out a first grafting reaction on a flame retardant DOPO and a silane coupling agent to obtain a DOPO grafted silane coupling agent Si-DOPO;

coating polydopamine on the surface of the mullite whisker through self-polymerization of the dopamine to obtain polydopamine-coated mullite M @ PDA;

and carrying out a second grafting reaction on the DOPO grafted silane coupling agent Si-DOPO and polydopamine coated mullite M @ PDA to obtain modified mullite M @ PDA-Si-DOPO.

A second aspect of the present invention provides a modified mullite obtainable by the process for preparing a modified mullite as provided in the first aspect of the present invention.

The third aspect of the invention provides a modified mullite-based water-based intumescent fire retardant coating, which comprises the following components in percentage by mass: 2 to 10 percent of modified mullite, 1 to 3 percent of titanium dioxide, 8 to 12 percent of melamine, 10 to 15 percent of pentaerythritol, 20 to 25 percent of ammonium polyphosphate, 13 to 18 percent of film forming matter, 0.3 to 0.8 percent of hydroxyethyl cellulose, 0.3 to 0.7 percent of dispersing agent, 0.3 to 0.7 percent of defoaming agent, 0.3 to 0.8 percent of n-octyl alcohol and the balance of deionized water.

The fourth aspect of the invention provides a preparation method of a modified mullite-based water-based intumescent fire retardant coating, which comprises the following steps:

uniformly mixing modified mullite, titanium dioxide, hydroxyethyl cellulose and melamine, adding pentaerythritol and ammonium polyphosphate, uniformly mixing, continuously adding deionized water, a dispersing agent and an antifoaming agent, uniformly mixing, and finally adding a film forming material and n-octanol, and uniformly mixing to obtain the water-based intumescent fire-retardant coating based on modified mullite.

Compared with the prior art, the invention has the beneficial effects that:

the invention adopts the polydopamine coating to coat the mullite, utilizes the rich catechol hydroxyl grafted silane coupling agent and the phosphorus flame retardant DOPO on the coating to prepare the modified mullite, and applies the modified mullite to the water-based intumescent fire retardant coating.

Drawings

In FIG. 1, from left to right, the external appearance graphs of the expanded carbon layers after 1h of fire resistance test of example 3, comparative example 1, comparative example 2 and comparative example 3 are respectively shown;

in FIG. 2, from left to right are the microscopic topography images of the expanded carbon layer of example 3 at Scanning Electron Microscopy (SEM) of 100X and 500X, respectively.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The first aspect of the invention provides a preparation method of modified mullite, which comprises the following steps:

s1, carrying out a first grafting reaction on the flame retardant DOPO and a silane coupling agent to obtain a DOPO grafted silane coupling agent Si-DOPO;

s2, coating polydopamine on the surface of the mullite whisker through self-polymerization of the dopamine to obtain polydopamine-coated mullite M @ PDA;

s3, carrying out a second grafting reaction on the DOPO grafted silane coupling agent Si-DOPO and the polydopamine coated mullite M @ PDA to obtain modified mullite M @ PDA-Si-DOPO.

The principle of the invention is as follows: compared with the defects of poor water resistance, insufficient firmness of an expanded carbon layer, easy cracking and falling and the like of the traditional water-based expanded fireproof coating, the invention selects the mullite whisker with high hardness and high melting point as the inorganic filler, and coats the mullite whisker on the surface of the mullite by utilizing the characteristic of good adhesion of polydopamine so as to solve the problem of poor compatibility of the inorganic filler and an organic film; in the aspect of flame retardant performance, the invention selects a novel flame retardant DOPO containing biphenyl, phosphorus and oxaphenanthrene ring structures, an active P-H bond is arranged on the novel flame retardant DOPO, a silane coupling agent with bifunctional end groups is utilized, an organic end containing functional groups such as amino, epoxy, unsaturated carbon-carbon double bonds and the like reacts with the active-P-H bond in the DOPO, an inorganic end containing alkoxy forms a silanol structure after hydrolysis, the silanol structure is condensed with catechol hydroxyl or amino on the surface of polydopamine, and then mutual condensation between adjacent silanol groups is carried out to crosslink, so that mullite (M @ PDA-Si-DOPO) with a flame retardant is prepared.

The modified mullite is coated with polydopamine, and the polydopamine not only contains amino, but also is grafted with phosphorus-containing flame retardant DOPO (9, 10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide) by using a silane coupling agent. When a combustion reaction occurs, on one hand, a P element in DOPO captures and quenches free radicals such as HO, O, H and the like in the combustion reaction process in the form of P or PO free radicals to inhibit the progress of chain reaction, on the other hand, P is separated from a heterocyclic ring form in DOPO at a high temperature to generate a (P ═ O) -O-P structure with higher stability, and the structure and a biphenyl structure effectively inhibit thermal degradation of a carbon layer together to promote carbon formation and improve the carbon residue rate; meanwhile, the silane coupling agent and the catechol hydroxyl and amino on the surface of the polydopamine are crosslinked by condensation or self-condensation, and the stability of the expanded carbon layer can be greatly improved by the fibrous mullite whisker with high hardness; in addition, the hydroxyl of pyrocatechol which is not reacted on the surface of the polydopamine also has the effect of capturing free radicals, and the unreacted amino can release NH when being combusted₃And the combustible gas in the expanded carbon layer is diluted by the non-combustible gas, so that the expanded carbon layer has a certain flame-retardant effect. In addition, P and N react with oxygen at high temperatures to form a high thermal stability (PON)_XAnd when the N-P-Si exists simultaneously, the N-P-Si can mutually catalyze to form a cross-linked network, thereby obviously improving the graphitization degree of the carbon layer and the density of the carbon layer. Therefore, the expanded fireproof coating added with the modified mullite (M @ PDA-Si-DOPO) can form a more compact and firm expanded carbon layer after combustion, and can capture and quench a large amount of free radicals required by combustion, thereby achieving good flame retardant effect. In addition, after the mullite is organically modified, the density of hydrophilic groups on the surface is reduced, a larger water contact angle is obtained, and the compatibility of organic and inorganic components is improved, so that the performances such as water resistance, weather resistance and the like are improved to a certain extent.

In the invention, the molar ratio of the flame retardant DOPO to the silane coupling agent is 1 (1-1.5); in some embodiments of the present invention, the molar ratio is 1 (1.1 to 1.3), and further 1: 1.2.

In the present invention, the silane coupling agent is at least one of vinyltriethoxysilane (A-151), vinyltrimethoxysilane (A-171), gamma-glycidoxypropyltrimethoxysilane (KH-560) and gamma-aminopropyltriethoxysilane (KH-550), and is preferably a mixture of vinyltriethoxysilane (A-151) and vinyltrimethoxysilane (A-171). In some embodiments of the present invention, a radical initiator is selectively added according to the type of the silane coupling agent. When the silane coupling agent contains carbon-carbon double bonds, a free radical initiator needs to be added, and the grafting reaction type is free radical addition, and a free radical is needed to initiate the reaction; when the silane coupling agent contains amino or epoxy groups and other groups capable of reacting with P-H bonds, the grafting reaction can be carried out at a certain temperature. Furthermore, the addition amount of the free radical initiator is 1-5% of the mass of DOPO.

In the invention, the temperature of the first grafting reaction is 80-160 ℃, and the time is 12-24 h. In some embodiments of the invention, the reaction temperature may be controlled by means of an oil bath.

In the invention, the step of carrying out the first grafting reaction on the flame retardant DOPO and the silane coupling agent specifically comprises the following steps: the flame retardant DOPO was completely dissolved in the silane coupling agent, followed by a first grafting reaction.

In some embodiments of the invention, the flame retardant DOPO is completely dissolved in the silane coupling agent by stirring the mixed solution of the flame retardant DOPO and the silane coupling agent at 40-50 ℃ for 0.5-1 h.

In the invention, the mullite whisker is desized mullite pretreated by an organic solvent.

In some embodiments of the present invention, the pretreatment process is specifically: dispersing mullite whiskers into a mixed solvent of absolute ethyl alcohol and acetone, refluxing for 2-4 h in a water bath at 70-90 ℃, and then performing suction filtration, washing and drying for later use. Further, the volume ratio of the absolute ethyl alcohol to the acetone is 1: 1; the dosage ratio of the mullite whisker to the mixed solvent of absolute ethyl alcohol and acetone is 1g to 10 ml.

In the invention, the step of coating the polymeric dopamine on the surface of the mullite whisker through self-polymerization of the dopamine specifically comprises the following steps: adding mullite whiskers into the Tris-dopamine hydrochloride solution, and stirring for reaction to coat polydopamine on the surfaces of the mullite whiskers.

In some preferred embodiments of the present invention, the Tris-dopamine hydrochloride solution has a pH of 8 to 10, and further 8.5.

In some preferred embodiments of the present invention, the concentration of dopamine hydrochloride in the Tris-dopamine hydrochloride solution is 1 to 2.5g/L, and further 2 g/L.

In some embodiments of the invention, the Tris-dopamine hydrochloride solution is prepared by:

adding 1.21g of Tris into 100mL of deionized water, stirring until the Tris is completely dissolved, then slowly adding 10mL of 0.1mol/L diluted hydrochloric acid and supplementing deionized water to 200mL to obtain a Tris buffer solution;

dispersing the dopamine hydrochloride into deionized water, and adjusting the pH value to 8-10 through the Tris buffer solution to obtain a Tris-dopamine hydrochloride solution. Further, the dosage ratio of the dopamine hydrochloride to the deionized water is 1g: (1-3) L, further 1g: 2L.

In some preferred embodiments of the present invention, the solid-to-liquid ratio of the mullite whisker to the Tris-dopamine hydrochloride solution is (50-300) g: 1L, further (100-200) g: 1L, further 100 g: 1L of the compound.

In some preferred embodiments of the present invention, the temperature of the stirring reaction is 20 to 70 ℃, and further 60 ℃; the time is 12-48 h, and further 24 h.

In the invention, the mass ratio of the DOPO grafted silane coupling agent Si-DOPO to the polydopamine coated mullite M @ PDA is (0.02-0.1): 1, further (0.05-0.08): 1, and further 0.05: 1.

in the invention, the temperature of the second grafting reaction is 60-80 ℃, and further 80 ℃; the time is 12-24 h, and further 12 h.

In the present invention, the second grafting reaction is carried out in an organic solvent.

In some preferred embodiments of the present invention, the organic solvent is at least one of absolute methanol, absolute ethanol, or toluene. Further, the dosage ratio of M @ PDA to the organic solvent is 1g: (5-10) ml, further 1g: 7.5 ml.

In the invention, the second grafting reaction of the DOPO grafted silane coupling agent Si-DOPO and polydopamine coated mullite M @ PDA comprises the following steps: adding polydopamine-coated mullite M @ PDA into an organic solvent, stirring and dispersing uniformly, adding an acid to adjust the pH value to 4-6, and then dropwise adding a DOPO grafted silane coupling agent Si-DOPO to perform a second grafting reaction.

In some preferred embodiments of the present invention, the temperature for stirring and dispersing is 40 to 60 ℃, further 50 ℃, and the time is 0.5 to 1 hour, further 1 hour.

In the present invention, the first grafting reaction and the second grafting reaction are both performed in a nitrogen atmosphere.

In the present invention, the above reactions are all carried out under stirring. In some embodiments of the invention, the stirring rate is 400 to 600 rpm.

A second aspect of the present invention provides a modified mullite obtainable by the process for preparing a modified mullite as provided in the first aspect of the present invention.

The third aspect of the invention provides a modified mullite-based water-based intumescent fire retardant coating, which comprises the following components in percentage by mass: 2 to 10 percent of modified mullite, 1 to 3 percent of titanium dioxide, 8 to 12 percent of melamine, 10 to 15 percent of pentaerythritol, 20 to 25 percent of ammonium polyphosphate, 13 to 18 percent of film forming matter, 0.3 to 0.8 percent of hydroxyethyl cellulose, 0.3 to 0.7 percent of dispersing agent, 0.3 to 0.7 percent of defoaming agent, 0.3 to 0.8 percent of n-octyl alcohol and the balance of deionized water.

In the invention, the film forming matter can select styrene-acrylic emulsion with a core-shell structure or acrylic emulsion with a core-shell structure, and further is styrene-acrylic emulsion with a water-based core-shell structure or acrylic emulsion with a water-based core-shell structure. The styrene-acrylic emulsion with the water-based core-shell structure or the acrylic emulsion with the water-based core-shell structure is the prior art, and can be prepared by the technicians in the field according to actual conditions or directly purchased. For example, it can be prepared by patent CN 109401456A.

In the present invention, the kinds of the dispersant and the defoaming agent are not limited, and those skilled in the art can select them as needed. For example, the dispersant may be dispersant 5040 and the defoamer may be defoamer 470.

In some specific embodiments of the present invention, the modified mullite-based water-based intumescent fire retardant coating comprises the following components by mass percent: 6% of modified mullite, 2% of titanium dioxide, 11% of melamine, 14% of pentaerythritol, 25% of ammonium polyphosphate, 15% of film forming matter, 0.3% of hydroxyethyl cellulose, 50400.3% of dispersing agent, 4700.4% of defoaming agent, 0.3% of n-octanol and 25.7% of deionized water.

The fourth aspect of the invention provides a preparation method of a modified mullite-based water-based intumescent fire retardant coating, which comprises the following steps:

uniformly mixing modified mullite, titanium dioxide, hydroxyethyl cellulose and melamine, adding pentaerythritol and ammonium polyphosphate, uniformly mixing, continuously adding deionized water, a dispersing agent and an antifoaming agent, uniformly mixing, and finally adding a film forming material and n-octanol, and uniformly mixing to obtain the water-based intumescent fire-retardant coating based on modified mullite.

In the invention, solid powder is added twice and then fully mixed, and ground for 10-20 min until no obvious agglomeration and no sense of gravel exist; after the liquid components are added, stirring and grinding are required for 5-10 min until the liquid components are uniformly dispersed.

In the following examples and comparative examples for avoiding redundancy, the preparation method of the aqueous intumescent fire retardant coating based on modified mullite is as follows, unless otherwise specified:

(1) weighing the raw materials according to the proportion, wherein the mass percentages of the components are respectively as follows: 6% of modified mullite, 2% of titanium dioxide, 11% of melamine, 14% of pentaerythritol, 25% of ammonium polyphosphate, 15% of film forming matter, 0.3% of hydroxyethyl cellulose, 50400.3% of dispersing agent, 4700.4% of defoaming agent, 0.3% of n-octanol and 25.7% of deionized water; wherein, the film forming material is water-based styrene-acrylic core-shell emulsion prepared according to patent CN 109401456A.

(2) Adding the weighed modified mullite, titanium dioxide, hydroxyethyl cellulose and melamine into a mortar, grinding for 15min until no obvious agglomeration exists and no gravel feeling exists, adding pentaerythritol and ammonium polyphosphate, continuously uniformly grinding for 15min, adding deionized water, a dispersing agent 5040 and a defoaming agent 470, fully stirring and grinding for 10min, finally adding a film forming material and n-octanol, and continuously stirring and grinding for 10min to obtain the water-based intumescent fire retardant coating based on the modified mullite (M @ PDA-Si-DOPO).

In the following examples and comparative examples of the present invention, unless otherwise specified, the pretreatment of the mullite whisker before dopamine coating is specifically as follows: adding 30g of mullite whisker and 300mL of mixed solvent of absolute ethyl alcohol and acetone (1:1) into a 500mL single-neck flask, carrying out suction filtration after refluxing for 3h in a water bath at 80 ℃ by using a middle condenser tube, repeatedly washing and carrying out suction filtration by using deionized water until the pH value of a cleaning solution in a suction filtration flask is neutral, and putting the cleaning solution into an oven at 100 ℃ for drying for 24h for later use.

In the following examples and comparative examples of the present invention, unless otherwise specified, the preparation method of Tris buffer solution is as follows:

1.21g of Tris (hydroxymethyl) aminomethane (Tris) was weighed into a beaker, 100mL of deionized water was added and stirred until completely dissolved, 10mL of 0.1mol/L diluted hydrochloric acid was slowly added and deionized water was added to 200 mL.

In the following examples and comparative examples of the invention, the preparation of the panels of aqueous intumescent fire-retardant coating based on modified mullite (M @ PDA-Si-DOPO) is as follows, unless otherwise specified:

firstly, taking a steel plate with the thickness of 150mm multiplied by 100mm multiplied by 3mm, polishing the steel plate by using coarse sand paper under the washing of water flow until the surface has no obvious rust or other impurities, wiping off the water on the surface of the steel plate, naturally drying the steel plate, weighing the steel plate, and storing the steel plate to a shade place;

secondly, polishing the used steel plate to be bright in surface by using fine sand paper, uniformly coating the mullite water-based intumescent fire retardant coating prepared according to the formula on one surface of the steel plate without pollution on the surface by using a plastic dropper, marking the other surface, airing at room temperature until the surface is dry and does not flow (one to two days), putting the steel plate into a 60 ℃ drying oven for drying for 12 hours, taking out, measuring the thickness of the coating, and weighing the mass of the steel plate;

preparing two samples according to each formula, measuring the thickness of the coatings by using a vernier caliper, ensuring that the thickness difference of the coatings of the two samples is not more than 1mm, weighing the mass of the samples, and ensuring that the mass difference of the steel plates before and after coating is not more than 1 g.

Example 1

The embodiment provides a modified mullite-based water-based intumescent fire retardant coating, wherein the modified mullite is obtained by the following steps:

(1) preparation of DOPO-grafted silane coupling agent (Si-DOPO): weighing 1.5g of DOPO and 2g of gamma-glycidoxypropyltrimethoxysilane (the molar ratio is about 1:1.2) in a 250mL three-neck flask, connecting a condenser pipe in the middle, connecting a guide pipe at the upper end of the condenser pipe, sealing the outlet of the guide pipe by water, connecting nitrogen at the other side, plugging the last neck of the flask by a bottle plug, paying attention to the fact that each plug is sealed by vaseline oil or a raw material belt, and immersing the flask in an oil bath kettle of a constant-temperature heating magnetic stirrer; introducing nitrogen to exhaust air in the device before the reaction starts, and ensuring that the whole reaction is finished in a nitrogen atmosphere; heating to 40 ℃, adjusting the rotating speed to 500rpm, stirring for 30min to completely dissolve DOPO in the silane coupling agent, then heating to 160 ℃ to carry out grafting reaction, and reacting for 12h to obtain the product (Si-DOPO).

(2) Preparation of polydopamine coated mullite (M @ PDA): adding 0.6g of dopamine hydrochloride and 300mL of deionized water into a 500mL flask, uniformly stirring, dropwise adding a prepared Tris buffer solution until the pH value of the solution is 8.5, respectively adding 300mL of the solution into four 500mL beakers, sequentially adding 15g, 30g, 60g and 90g of the pretreated mullite whiskers according to the proportion of 1L/50g, 1L/100g, 1L/200g and 1L/300g, continuously stirring for 24 hours in a water bath at 60 ℃ until the solution is dark brown, performing suction filtration, washing with deionized water, and drying in an oven at 45 ℃ to obtain the polydopamine coated mullite (M @ PDA), which is marked as 1-a, 1-b, 1-c and 1-d.

(3) Preparation of modified mullite (M @ PDA-Si-DOPO): adding 20g of the prepared M @ PDA and 150mL of anhydrous ethanol serving as reaction solvents into a 250mL three-neck flask, connecting a stirring paddle in the middle, connecting a condensation pipe on one side, plugging a bottle stopper on the other side, immersing the flask into a 50 ℃ oil bath kettle, stirring and dispersing uniformly at the rotating speed of 500rpm, dropwise adding a 1mol/L diluted acetic acid solution prepared in advance after 1 hour to adjust the pH value of the solution to about 5, and heating to 80 ℃; meanwhile, 1g of the Si-DOPO (M @ PDA: Si-DOPO ═ 1: 0.05) is weighed, the mixture is slowly dripped into the flask in three times in 1.5h, and the temperature is kept for reaction for 12h after the dripping is finished, so that the grafting reaction is carried out. And after the reaction is finished, performing suction filtration on the product, washing and suction filtration by using absolute ethyl alcohol, repeatedly washing and suction filtration by using deionized water, and then putting the product into a 60 ℃ drying oven to be dried for 12 hours to obtain the modified mullite (M @ PDA-Si-DOPO).

The fire resistance tests were carried out on four groups of aqueous intumescent fire-retardant coatings based on modified mullite (M @ PDA-Si-DOPO) of examples 1-a, 1-b, 1-c, 1-d by the simulated large panel fire test method, the results of which are shown in Table 1.

TABLE 1

(limit of fire: time required for complete rupture of the expanded carbon layer formed from the flame contact coating to the combustion of the fireproof coating and sudden change in the back temperature of the steel sheet;)

From table 1, it can be known that the dosage of the dopamine hydrochloride solution and the mullite has a great influence on the fire resistance of the obtained fire retardant coating; when the ratio of the dopamine hydrochloride solution to the mullite is 1L/100g, the fireproof coating has the optimal fireproof performance.

Example 2

The embodiment provides a modified mullite-based water-based intumescent fire retardant coating, wherein the modified mullite is obtained by the following steps:

(1) preparation of DOPO-grafted silane coupling agent (Si-DOPO): 1g of DOPO and 1.2g of gamma-aminopropyltriethoxysilane (KH-550) (the molar ratio is about 1:1.2) are weighed into a 250mL three-neck flask, a condenser pipe is connected in the middle, a guide pipe is connected to the upper end of the condenser pipe, the outlet of the guide pipe is sealed by water, nitrogen is connected to the other side of the condenser pipe, the last neck of the flask is plugged by a bottle plug, each plug is sealed by vaseline oil or a raw material belt, and the flask is immersed into an oil bath kettle of a constant-temperature heating magnetic stirrer. And introducing nitrogen to exhaust air in the device before the reaction starts, so as to ensure that the whole reaction is finished in a nitrogen atmosphere. Adjusting the rotating speed to 500rpm, heating to 40 ℃, stirring for 30min to completely dissolve DOPO in the silane coupling agent, then heating to 150 ℃ for grafting reaction, and reacting for 12h to obtain the product (Si-DOPO).

(2) Preparation of polydopamine coated mullite (M @ PDA): adding 0.6g of dopamine hydrochloride and 300mL of deionized water into a 500mL flask, uniformly stirring, dropwise adding a prepared Tris buffer solution until the pH value of the solution is 8.5, adding 300mL of the solution into a 500mL beaker, adding 30g of pretreated mullite whiskers, continuously stirring for 24 hours in a water bath at 60 ℃ until the solution is dark brown, carrying out suction filtration, washing with deionized water, and then placing in a 45 ℃ oven for drying to obtain the polydopamine coated mullite (M @ PDA).

(3) Preparation of modified mullite (M @ PDA-Si-DOPO): adding 20g of the prepared polydopamine-coated mullite (M @ PDA) and 150mL of absolute ethyl alcohol into four 250mL four-neck flasks as reaction solvents, wherein the reaction solvents are respectively marked as 2-a, 2-b, 2-c and 2-d, connecting a stirring paddle in the middle, connecting a condensation pipe on one side, plugging a bottle stopper on the other side, immersing the flasks into a 50 ℃ oil bath kettle, stirring and dispersing uniformly at the rotating speed of 500rpm, dropwise adding a 1mol/L diluted acetic acid solution prepared in advance after 1 hour to adjust the pH value of the solution to about 5, and heating to 80 ℃; 0.4g, 1g, 1.6g and 2g of the Si-DOPO (M @ PDA: Si-DOPO are weighed in sequence according to the proportion of 1: 0.02, 1: 0.05, 1: 0.08 and 1: 0.10) and are slowly dripped into the flask for three times in 1.5h, and after the dripping is finished, the temperature is kept for reaction for 12h for grafting reaction. And after the reaction is finished, performing suction filtration on the product, washing and suction filtration by using absolute ethyl alcohol, repeatedly washing and suction filtration by using deionized water, and then putting the product into a 60 ℃ drying oven to be dried for 12 hours to obtain the modified mullite (M @ PDA-Si-DOPO).

Weighing four groups of 2-a, 2-b, 2-c and 2-d obtained after drying by using an electronic balance based on modified mullite (M @ PDA-Si-DOPO), and testing the grafting reaction amount and the grafting efficiency; the fire resistance tests of four groups of the waterborne intumescent fire-retardant coatings based on modified mullite (M @ PDA-Si-DOPO) in examples 2-a, 2-b, 2-c and 2-d were carried out by a simulated large panel combustion test method, and the test results are shown in Table 2.

TABLE 2

As can be seen from table 2, M @ PDA: the Si-DOPO ratio is 1: the grafting rate is highest when 0.05 is used, and the utilization rate of raw materials is also highest; the condensation reaction between silanol groups can be promoted by continuously increasing the addition of Si-DOPO, the fire resistance is not greatly improved, but the grafting rate is greatly reduced, and the utilization rate of raw materials is low.

Example 3

The embodiment provides a modified mullite-based water-based intumescent fire retardant coating, wherein the modified mullite is obtained by the following steps:

(1) preparation of DOPO-grafted silane coupling agent (Si-DOPO): weighing 2g of DOPO and 1.8g of silane coupling agent mixed solution (the molar ratio of vinyltrimethoxysilane to vinyltriethoxysilane is 1:1, and the molar ratio of DOPO to the silane coupling agent is about 1:1.2) in a 250mL three-neck flask, connecting a condenser pipe in the middle, connecting a guide pipe at the upper end of the condenser pipe, sealing the outlet of the guide pipe with water, connecting nitrogen at the other side, plugging the last neck with a bottle plug, paying attention to the fact that each plug port is sealed with vaseline oil or a raw material belt, and immersing the flask in an oil bath of a constant-temperature heating magnetic stirrer; introducing nitrogen to exhaust air in the device before the reaction starts, and ensuring that the whole reaction is finished in a nitrogen atmosphere; the rotating speed is adjusted to be 500rpm, the temperature is increased to 40 ℃, and the mixture is stirred for 30min to ensure that DOPO is completely dissolved in the silane coupling agent. 0.1g of AIBN was dissolved in 5mL of absolute ethanol to prepare a solution. And then heating to 80 ℃, slowly dripping AIBN ethanol solution for three times in 1.5h for grafting reaction, and performing rotary evaporation to remove absolute ethyl alcohol after reaction for 24h to obtain a product (Si-DOPO).

(2) Preparation of polydopamine coated mullite (M @ PDA): adding 0.6g of dopamine hydrochloride and 300mL of deionized water into a 500mL flask, uniformly stirring, dropwise adding a prepared Tris buffer solution until the pH value of the solution is 8.5, adding 300mL of the solution into a 500mL beaker, adding 30g of pretreated mullite whiskers, continuously stirring for 24 hours in a water bath at 60 ℃ until the solution is dark brown, carrying out suction filtration, washing with deionized water, and then placing in a 45 ℃ oven for drying to obtain the polydopamine coated mullite (M @ PDA).

(3) Preparation of modified mullite (M @ PDA-Si-DOPO): adding 20g of the prepared M @ PDA and 150mL of anhydrous ethanol serving as reaction solvents into a 250mL three-neck flask, connecting a stirring paddle in the middle, connecting a condensation pipe on one side, plugging a bottle stopper on the other side, immersing the flask into a 50 ℃ oil bath kettle, stirring and dispersing uniformly at the rotating speed of 500rpm, dropwise adding a 1mol/L diluted acetic acid solution prepared in advance after 1 hour to adjust the pH of the solution to about 5, and heating to 80 ℃; meanwhile, 1g of the Si-DOPO (M @ PDA: Si-DOPO ═ 1: 0.05) is weighed, the mixture is slowly dripped into the flask in three times in 1.5h, and the temperature is kept for reaction for 12h after the dripping is finished, so that the grafting reaction is carried out. And after the reaction is finished, performing suction filtration on the product, washing and suction filtration by using absolute ethyl alcohol, repeatedly washing and suction filtration by using deionized water, and then putting the product into a 60 ℃ drying oven to be dried for 12 hours to obtain the modified mullite (M @ PDA-Si-DOPO).

Comparative example 1

Comparative example 1 differs from example 3 only in that: the mullite in the comparative example 1 is not coated by PDA, but is directly grafted with Si-DOPO by utilizing hydroxyl on the surface of the mullite to obtain modified mullite (M-Si-DOPO), and the modified mullite is used for preparing the fireproof coating, wherein the preparation method of the modified mullite comprises the following steps:

(3) preparation of modified mullite (M-Si-DOPO): adding 20g of the treated desized mullite and 150mL of absolute ethyl alcohol as reaction solvents into a 250mL three-neck flask, connecting a stirring paddle in the middle, connecting a condensation pipe on one side, plugging the other side by a bottle plug, immersing the flask into a 50 ℃ oil bath kettle, stirring and dispersing uniformly at the rotating speed of 500rpm, dropwise adding a 1mol/L diluted acetic acid solution prepared in advance after 1 hour to adjust the pH of the solution to about 5, and heating to 80 ℃. Meanwhile, 1g of the Si-DOPO is weighed, slowly dropped into the flask in three times within 1.5h, and after dropping, the temperature is kept for reaction for 12h for grafting reaction. And after the reaction is finished, performing suction filtration on the product, washing and suction filtration by using absolute ethyl alcohol, repeatedly washing and suction filtration by using deionized water, and then putting the product into a 60 ℃ drying oven to be dried for 12 hours to obtain the modified mullite (M-Si-DOPO).

Comparative example 2

Comparative example 2 differs from example 3 only in that: the silane coupling agent in the comparative example 2 is grafted with catechol hydroxyl on the surface of polydopamine only at the inorganic end to prepare the water-based intumescent fire retardant coating based on modified mullite (M @ PDA-Si), and the same amount of DOPO is directly added into the fire retardant coating, and the specific operation process is as follows:

(3) preparation of modified mullite (M @ PDA-Si): adding 20g of the prepared M @ PDA and 150mL of absolute ethyl alcohol serving as reaction solvents into a 250mL three-neck flask, connecting a stirring paddle in the middle, connecting a condensation pipe on one side, plugging a bottle stopper on the other side, immersing the flask into a 50 ℃ oil bath kettle, stirring and dispersing uniformly at the rotating speed of 500rpm, dropwise adding a 1mol/L diluted acetic acid solution prepared in advance after 1 hour to adjust the pH of the solution to about 5, and heating to 80 ℃. 0.47g of a silane coupling agent mixed solution (vinyltrimethoxysilane: vinyltriethoxysilane ═ 1:1) was weighed at the same time, and was slowly added dropwise to the flask in three times over 1.5 hours, and after completion of the dropwise addition, the temperature was maintained and the reaction was carried out for 12 hours to carry out the graft reaction. And after the reaction is finished, performing suction filtration on the product, washing and suction filtration by using absolute ethyl alcohol, repeatedly washing and suction filtration by using deionized water, and then putting the product into a 60 ℃ drying oven to be dried for 12 hours to obtain the modified mullite (M @ PDA-Si).

(4) The preparation method of the water-based intumescent fire-retardant coating based on modified mullite (M @ PDA-Si) comprises the following steps of: 0.15% of DOPO, 5.85% of modified mullite, 2% of titanium dioxide, 11% of melamine, 14% of pentaerythritol, 25% of ammonium polyphosphate, 15% of film forming matter, 0.3% of hydroxyethyl cellulose, 50400.3% of dispersing agent and 4700.4% of defoaming agent; 0.3 percent of n-octanol and 25.7 percent of deionized water.

Comparative example 3

Comparative example 3 differs from example 3 only in that: the preparation method comprises the following steps of directly blending DOPO grafted silane coupling agent (Si-DOPO) and polydopamine coated mullite (M @ PDA) which are used as one of the fire-retardant coating components with other components to prepare the water-based intumescent fire-retardant coating, wherein the raw materials comprise the following components in percentage by mass: Si-DOPO: 0.28%, M @ PDA: 5.72%, titanium dioxide: 2% and melamine: 11%, pentaerythritol: 14%, ammonium polyphosphate: 25%, film-forming material: 15%, hydroxyethyl cellulose: 0.3%, dispersant 5040: 0.3%, defoamer 470: 0.4 percent; n-octanol: 0.3%, deionized water: 25.7 percent.

Carrying out fire resistance test on the four groups of the modified mullite-based water-based intumescent fire-retardant coatings in the example 3 and the comparative examples 1-3 by using a simulated large-plate combustion test method; the microscopic morphology of the expanded carbon layer of the modified mullite water-based intumescent fire retardant coating in example 3 after combustion was observed by a scanning electron microscope, and the test results are shown in table 3.

TABLE 3

It can be seen from table 3 that the fire retardant coating performance of example 3 is optimized after the ratio of the modifying substances is explored in examples 1 and 2. Meanwhile, compared with comparative examples 1-3, the fireproof coating steel plate in example 3 has the lowest back temperature and the best fire resistance limit, and the two-time grafting modification and coating modification both achieve obvious results.

Referring to fig. 1-2, fig. 1 is a graph showing the external appearance of the expanded carbon layer after 1h of the fire resistance test in example 3, comparative example 1, comparative example 2 and comparative example 3 from left to right; in FIG. 2, from left to right are the microscopic topography images of the expanded carbon layer of example 3 at Scanning Electron Microscopy (SEM) of 100X and 500X, respectively. As can be seen from the figures 1-2, the addition of the modified mullite (M @ PDA-Si-DOPO) can obviously improve the compatibility of organic and inorganic components of the fireproof coating, improve the strength and the thermal stability of the expanded carbon layer, and the preparation process is simple, green and environment-friendly, and is worthy of popularization and application.

Compared with the prior art, the invention has the beneficial effects that:

(1) the mullite used in the invention is of a fibrous short whisker structure, has higher melting point, higher hardness and stronger stability, can still keep the existing structure unchanged after combustion, and is inserted between the expanded carbon layers in the form of short fibers to play the roles of reinforcing the expanded carbon layers and improving the strength and the thermal stability of the expanded carbon layers; the surface of the mullite whisker subjected to PDA coating modification contains a large number of active hydroxyl groups, the agglomeration phenomenon in a modification solvent is not serious, and grafting modification can be carried out on the surface of the mullite whisker without stripping, surface activation and other treatment; in addition, the introduction of the mullite whiskers does not obviously influence the viscosity and the film forming performance of the coating, so that the mullite whiskers have great application potential in the aspect of fireproof coatings.

(2) The mullite is coated by polydopamine, and the silane coupling agent is used for grafting the flame retardant DOPO on the surface of the polydopamine coating, so that free radicals generated by decomposition of DOPO and polydopamine during combustion are used for capturing and quenching the free radicals required by combustion, and meanwhile, the components are mutually catalyzed and crosslinked to inhibit thermal degradation of a carbon layer and improve the stability of an expanded carbon layer, so that the mullite has the mechanisms of gas-phase flame retardance, condensed-phase flame retardance, interrupted heat exchange and the like, and the flame retardant effect is excellent;

(3) the inorganic filler mullite is subjected to a series of organic modification, and then the surface of the inorganic filler mullite is covered with a plurality of functional groups such as hydroxyl, amino, biphenyl structures and the like, so that the compatibility of the inorganic filler with other organic and inorganic components in the coating is greatly improved, and the inorganic filler mullite has good water resistance and weather resistance, and is not easy to generate the phenomena of cracking and falling off of the coating, migration of the inorganic filler and precipitation of the inorganic filler to the surface of the coating in the use process. The fireproof coating takes water as a dispersing agent, and has the advantages of simple preparation process, high atom utilization rate, environmental protection and suitability for popularization and application.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.