CN113683949A - Preparation method of corrosion-resistant microporous fireproof coating - Google Patents

Abstract

The invention discloses a preparation method of an anti-corrosion microporous fireproof coating, which comprises the following preparation steps: s1: preparing materials: the weight portions of the raw materials are as follows: polyester: 1-10 parts of modified diatomite: 5-25 parts of marble: 2-10 parts of calcium carbonate: 3-12 parts of fiber: 2-12 parts of sodium benzoate: 1-8 parts; s2: taking materials: in step S1, a certain amount of polyester and fiber are taken, and the taken polyester and fiber are placed in the same stirrer, and then a small amount of clear water is added. The performance of the finally prepared fireproof coating is better through the added polyester, marble and calcium carbonate, the irritant odor in the fireproof coating can be removed through the added modified diatomite, the influence of the irritant odor on the smell of people is avoided, meanwhile, the threat to the health of people is also avoided, and the fireproof coating has corrosion resistance through the addition of sodium benzoate, so that the use quality and the use performance of the fireproof coating are enhanced.

Description

Preparation method of corrosion-resistant microporous fireproof coating

Technical Field

The invention relates to the technical field of fireproof paint preparation, in particular to a preparation method of an anti-corrosion microporous fireproof paint.

Background

The fireproof coating is characterized in that the fireproof capacity of the material can be improved, the flame spread and propagation speed can be slowed down, or the burning can be stopped within a certain time by brushing the coating on the surface of flammable materials, and the coating is called fireproof coating or flame-retardant coating. The fire-proof paint is a special paint which is used on the surface of flammable base material, can reduce the flammability of the surface of the material to be painted, can retard the rapid spread of fire and is used for improving the fire endurance of the material to be painted. The fire retardant is applied to the surface of a flammable base material to change the burning characteristics of the surface of the material and retard the rapid spread of fire; or special coatings applied to building components to increase the fire endurance of the component, known as fire-retardant coatings. The existing fireproof coating has single performance, and the existing fireproof coating does not have the performance of corrosion prevention.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a preparation method of a corrosion-resistant microporous fireproof coating, which solves the problems brought forward by the background.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a preparation method of the corrosion-resistant microporous fireproof coating comprises the following preparation steps:

s1: preparing materials:

the weight portions of the raw materials are as follows: polyester: 1-10 parts of modified diatomite: 5-25 parts of marble: 2-10 parts of calcium carbonate: 3-12 parts of fiber: 2-12 parts of sodium benzoate: 1-8 parts;

s2: taking materials:

taking a certain amount of polyester and fibers in the step S1, placing the polyester and the fibers in the same stirrer, adding a small amount of clear water, and mixing and stirring for a period of time to obtain a first mixed material;

s3: grinding:

grinding the mixed material I obtained in the step S2 in a grinder, after grinding for a period of time, placing the ground material in a new stirrer, then adding marble, calcium carbonate and modified diatomite, starting the stirrer, mixing and stirring, and after stirring for a period of time, obtaining a mixed material II;

s4: preparation:

and (4) placing the mixed material II obtained in the step S3 in a vessel, adding a proper amount of clear water, adding a certain amount of sodium benzoate, mixing and stirring, filtering after stirring for a period of time, and obtaining the fireproof coating after filtering.

Preferably, the modified diatomite is prepared by mixing purified water and rosin glyceride, stirring, drying and grinding.

Preferably, the marble is a powdery marble.

Preferably, the calcium carbonate is light calcium carbonate.

Preferably, the polyester is used as a polyurethane resin, or an epoxy resin.

Preferably, the stirring time of the step of S2 is 60 minutes, and the stirring rate is 300 revolutions per minute.

Preferably, the milling time in the step S3 is 30 minutes, and the stirring time is 45 minutes, and the stirring rate is 500 rpm.

Preferably, the fiber is silica fiber or mullite fiber.

(III) advantageous effects

Compared with the prior art, the invention provides a preparation method of the corrosion-resistant microporous fireproof coating, which has the following beneficial effects:

according to the preparation method of the corrosion-resistant microporous fireproof coating, the performance of the finally prepared fireproof coating is better through the added polyester, marble and calcium carbonate, the irritant odor in the fireproof coating can be removed through the added modified diatomite, the influence of the irritant odor on the smell of people is avoided, meanwhile, the threat to the health of people is also avoided, and the fireproof coating has corrosion resistance through the added sodium benzoate, so that the use quality and the use performance of the fireproof coating are enhanced.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

a preparation method of the corrosion-resistant microporous fireproof coating comprises the following preparation steps:

s1: preparing materials:

the weight portions of the raw materials are as follows: polyester: 1 part of polyurethane resin adopted for polyester, or epoxy resin, modified diatomite: 5 parts of modified diatomite, which is prepared by mixing, stirring, drying and grinding purified water and rosin glyceride, wherein the modified diatomite comprises marble: 2 parts, the marble adopts powdery marble, calcium carbonate: 3 parts of calcium carbonate, namely light calcium carbonate, fiber: 2 parts, the fiber is silica fiber or mullite fiber, sodium benzoate: 1 part;

s2: taking materials:

taking a certain amount of polyester and fibers in the step S1, placing the polyester and the fibers in the same stirrer, adding a small amount of clear water, mixing and stirring for 60 minutes at a stirring speed of 300 revolutions per minute to obtain a first mixed material;

s3: grinding:

grinding the mixed material I obtained in the step S2 in a grinder, after grinding for 30 minutes, placing the ground material in a new stirrer, then adding marble, calcium carbonate and modified diatomite, starting the stirrer, mixing and stirring for 45 minutes, and then stirring at the speed of 500 revolutions per minute to obtain a mixed material II;

s4: preparation:

and (4) placing the mixed material II obtained in the step S3 in a vessel, adding a proper amount of clear water, adding a certain amount of sodium benzoate, mixing and stirring, filtering after stirring for a period of time, and obtaining the fireproof coating after filtering.

Example two:

a preparation method of the corrosion-resistant microporous fireproof coating comprises the following preparation steps:

s1: preparing materials:

the weight portions of the raw materials are as follows: polyester: 10 parts of polyurethane resin used for polyester, or epoxy resin, modified diatomite: 25 parts of modified diatomite is prepared by mixing, stirring, drying and grinding purified water and rosin glyceride, and is marble: 10 parts of marble, namely powdery marble, calcium carbonate: 12 parts of calcium carbonate, namely light calcium carbonate, fiber: 12 parts of silica fiber or mullite fiber, sodium benzoate: 8 parts of a mixture;

s2: taking materials:

taking a certain amount of polyester and fibers in the step S1, placing the polyester and the fibers in the same stirrer, adding a small amount of clear water, mixing and stirring for 60 minutes at a stirring speed of 300 revolutions per minute to obtain a first mixed material;

s3: grinding:

grinding the mixed material I obtained in the step S2 in a grinder, after grinding for 30 minutes, placing the ground material in a new stirrer, then adding marble, calcium carbonate and modified diatomite, starting the stirrer, mixing and stirring for 45 minutes, and then stirring at the speed of 500 revolutions per minute to obtain a mixed material II;

s4: preparation:

and (4) placing the mixed material II obtained in the step S3 in a vessel, adding a proper amount of clear water, adding a certain amount of sodium benzoate, mixing and stirring, filtering after stirring for a period of time, and obtaining the fireproof coating after filtering.

Example three:

a preparation method of the corrosion-resistant microporous fireproof coating comprises the following preparation steps:

s1: preparing materials:

the weight portions of the raw materials are as follows: polyester: 2 parts of polyurethane resin used for polyester, or epoxy resin, modified diatomite: 6 parts of modified diatomite is prepared by mixing, stirring, drying and grinding purified water and rosin glyceride, and is marble: 3 parts, the marble adopts powdery marble, calcium carbonate: 4, adopting light calcium carbonate as calcium carbonate, and adopting the following fibers: 3 parts, the fiber is silica fiber or mullite fiber, sodium benzoate: 2 parts of (1);

s2: taking materials:

taking a certain amount of polyester and fibers in the step S1, placing the polyester and the fibers in the same stirrer, adding a small amount of clear water, mixing and stirring for 60 minutes at a stirring speed of 300 revolutions per minute to obtain a first mixed material;

s3: grinding:

grinding the mixed material I obtained in the step S2 in a grinder, after grinding for 30 minutes, placing the ground material in a new stirrer, then adding marble, calcium carbonate and modified diatomite, starting the stirrer, mixing and stirring for 45 minutes, and then stirring at the speed of 500 revolutions per minute to obtain a mixed material II;

s4: preparation:

and (4) placing the mixed material II obtained in the step S3 in a vessel, adding a proper amount of clear water, adding a certain amount of sodium benzoate, mixing and stirring, filtering after stirring for a period of time, and obtaining the fireproof coating after filtering.

Example four:

a preparation method of the corrosion-resistant microporous fireproof coating comprises the following preparation steps:

s1: preparing materials:

the weight portions of the raw materials are as follows: polyester: 3 parts of polyurethane resin adopted for polyester, or epoxy resin, modified diatomite: 7 parts of modified diatomite, which is prepared by mixing, stirring, drying and grinding purified water and rosin glyceride, wherein the modified diatomite comprises marble: 4, the marble adopts powdery marble, calcium carbonate: 5 parts of calcium carbonate, namely light calcium carbonate, fiber: 4 parts, the fiber is silica fiber or mullite fiber, and the weight ratio of sodium benzoate: 3 parts of a mixture;

s2: taking materials:

taking a certain amount of polyester and fibers in the step S1, placing the polyester and the fibers in the same stirrer, adding a small amount of clear water, mixing and stirring for 60 minutes at a stirring speed of 300 revolutions per minute to obtain a first mixed material;

s3: grinding:

grinding the mixed material I obtained in the step S2 in a grinder, after grinding for 30 minutes, placing the ground material in a new stirrer, then adding marble, calcium carbonate and modified diatomite, starting the stirrer, mixing and stirring for 45 minutes, and then stirring at the speed of 500 revolutions per minute to obtain a mixed material II;

s4: preparation:

and (4) placing the mixed material II obtained in the step S3 in a vessel, adding a proper amount of clear water, adding a certain amount of sodium benzoate, mixing and stirring, filtering after stirring for a period of time, and obtaining the fireproof coating after filtering.

Example five:

a preparation method of the corrosion-resistant microporous fireproof coating comprises the following preparation steps:

s1: preparing materials:

the weight portions of the raw materials are as follows: polyester: 4 parts of polyurethane resin adopted for polyester, or epoxy resin, modified diatomite: 8 parts, the modified diatomite is prepared by mixing, stirring, drying and grinding purified water and rosin glyceride, and the marble comprises the following components in parts by weight: 5 parts, the marble adopts powdery marble, calcium carbonate: 6 parts of calcium carbonate, namely light calcium carbonate, fiber: 5 parts, the fiber is silica fiber or mullite fiber, sodium benzoate: 4 parts of a mixture;

s2: taking materials:

taking a certain amount of polyester and fibers in the step S1, placing the polyester and the fibers in the same stirrer, adding a small amount of clear water, mixing and stirring for 60 minutes at a stirring speed of 300 revolutions per minute to obtain a first mixed material;

s3: grinding:

grinding the mixed material I obtained in the step S2 in a grinder, after grinding for 30 minutes, placing the ground material in a new stirrer, then adding marble, calcium carbonate and modified diatomite, starting the stirrer, mixing and stirring for 45 minutes, and then stirring at the speed of 500 revolutions per minute to obtain a mixed material II;

s4: preparation:

and (4) placing the mixed material II obtained in the step S3 in a vessel, adding a proper amount of clear water, adding a certain amount of sodium benzoate, mixing and stirring, filtering after stirring for a period of time, and obtaining the fireproof coating after filtering.

Example six:

a preparation method of the corrosion-resistant microporous fireproof coating comprises the following preparation steps:

s1: preparing materials:

the weight portions of the raw materials are as follows: polyester: 5 parts of polyurethane resin adopted for polyester, or epoxy resin, modified diatomite: 12 parts of modified diatomite, which is prepared by mixing, stirring, drying and grinding purified water and rosin glyceride, wherein the modified diatomite comprises marble: 6 parts of marble, namely powdery marble, calcium carbonate: 8 parts, the calcium carbonate adopts light calcium carbonate, and the fiber: 8 parts, the fiber is silica fiber or mullite fiber, sodium benzoate: 5 parts of a mixture;

s2: taking materials:

taking a certain amount of polyester and fibers in the step S1, placing the polyester and the fibers in the same stirrer, adding a small amount of clear water, mixing and stirring for 60 minutes at a stirring speed of 300 revolutions per minute to obtain a first mixed material;

s3: grinding:

grinding the mixed material I obtained in the step S2 in a grinder, after grinding for 30 minutes, placing the ground material in a new stirrer, then adding marble, calcium carbonate and modified diatomite, starting the stirrer, mixing and stirring for 45 minutes, and then stirring at the speed of 500 revolutions per minute to obtain a mixed material II;

s4: preparation:

and (4) placing the mixed material II obtained in the step S3 in a vessel, adding a proper amount of clear water, adding a certain amount of sodium benzoate, mixing and stirring, filtering after stirring for a period of time, and obtaining the fireproof coating after filtering.

Example seven:

a preparation method of the corrosion-resistant microporous fireproof coating comprises the following preparation steps:

s1: preparing materials:

the weight portions of the raw materials are as follows: polyester: 8 parts of polyurethane resin adopted for polyester, or epoxy resin, modified diatomite: 20 parts of modified diatomite is prepared by mixing, stirring, drying and grinding purified water and rosin glyceride, and marble comprises the following components in parts by weight: 9 parts of marble, namely powdery marble, calcium carbonate: 11 parts of calcium carbonate, namely light calcium carbonate, fiber: 10 parts, the fiber is silica fiber or mullite fiber, sodium benzoate: 7 parts;

s2: taking materials:

taking a certain amount of polyester and fibers in the step S1, placing the polyester and the fibers in the same stirrer, adding a small amount of clear water, mixing and stirring for 60 minutes at a stirring speed of 300 revolutions per minute to obtain a first mixed material;

s3: grinding:

grinding the mixed material I obtained in the step S2 in a grinder, after grinding for 30 minutes, placing the ground material in a new stirrer, then adding marble, calcium carbonate and modified diatomite, starting the stirrer, mixing and stirring for 45 minutes, and then stirring at the speed of 500 revolutions per minute to obtain a mixed material II;

s4: preparation:

and (4) placing the mixed material II obtained in the step S3 in a vessel, adding a proper amount of clear water, adding a certain amount of sodium benzoate, mixing and stirring, filtering after stirring for a period of time, and obtaining the fireproof coating after filtering.

The invention has the beneficial effects that: the performance of the finally prepared fireproof coating is better through the added polyester, marble and calcium carbonate, the irritant odor in the fireproof coating can be removed through the added modified diatomite, the influence of the irritant odor on the smell of people is avoided, meanwhile, the threat to the health of people is also avoided, and the fireproof coating has corrosion resistance through the addition of sodium benzoate, so that the use quality and the use performance of the fireproof coating are enhanced.

It is to be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a reference structure" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The preparation method of the corrosion-resistant microporous fireproof coating is characterized by comprising the following preparation steps of:

s1: preparing materials:

the weight portions of the raw materials are as follows: polyester: 1-10 parts of modified diatomite: 5-25 parts of marble: 2-10 parts of calcium carbonate: 3-12 parts of fiber: 2-12 parts of sodium benzoate: 1-8 parts;

s2: taking materials:

taking a certain amount of polyester and fibers in the step S1, placing the polyester and the fibers in the same stirrer, adding a small amount of clear water, and mixing and stirring for a period of time to obtain a first mixed material;

s3: grinding:

grinding the mixed material I obtained in the step S2 in a grinder, after grinding for a period of time, placing the ground material in a new stirrer, then adding marble, calcium carbonate and modified diatomite, starting the stirrer, mixing and stirring, and after stirring for a period of time, obtaining a mixed material II;

s4: preparation:

and (4) placing the mixed material II obtained in the step S3 in a vessel, adding a proper amount of clear water, adding a certain amount of sodium benzoate, mixing and stirring, filtering after stirring for a period of time, and obtaining the fireproof coating after filtering.

2. The method for preparing the corrosion-resistant microporous fireproof coating according to claim 1, wherein the modified diatomite is prepared by mixing purified water and rosin glyceride, stirring, drying and grinding.

3. The method of claim 1, wherein the marble is a powdery marble.

4. The method of claim 1, wherein the calcium carbonate is precipitated calcium carbonate.

5. The method of claim 1, wherein the polyester is polyurethane resin or epoxy resin.

6. The method of claim 1, wherein the stirring time of step S2 is 60 minutes, and the stirring speed is 300 rpm.

7. The method of claim 1, wherein the grinding time in the step of S3 is 30 minutes, the stirring time is 45 minutes, and the stirring speed is 500 rpm.

8. The method of claim 1, wherein the fiber is silica fiber or mullite fiber.