阅读说明：本技术 一种金属防锈特抗漆 (Metal antirust specially-resistant paint ) 是由 秦振 于 2021-09-17 设计创作，主要内容包括：本发明公开了一种金属防锈特抗漆,包括甲组漆和乙组漆,甲组漆采用S1胶和钛白粉制作而成,乙组漆采用S2胶、铁碴和镍矿制作而成。本发明金属防锈漆粘结性好,喷涂钢铁后不容易脱落,并且颜色稳定,防锈效果特别好,可保证钢铁长久不生锈。特别是采用废旧料作原料,漆的成本低,保质期长。(The invention discloses a metal antirust super-resistant paint which comprises a group A paint and a group B paint, wherein the group A paint is prepared from S1 glue and titanium dioxide, and the group B paint is prepared from S2 glue, iron slag and nickel ore. The metal antirust paint has good cohesiveness, is not easy to fall off after being sprayed on steel, has stable color and particularly good antirust effect, and can ensure that the steel is not rusted for a long time. In particular, the paint is low in cost and long in quality guarantee period by adopting waste materials as raw materials.)

1. The metal antirust specially-resistant paint comprises a group A paint and a group B paint, and is characterized in that the group A paint and the group B paint are prepared by the following steps:

(one) raw material treatment

Collecting waste glue, placing in an outdoor place, allowing the waste glue to be exposed to the sun and rain for more than one year or longer, selecting the glue S1 and the glue S2, storing in a classified manner, and producing group A paint by the glue S1; producing group B paint by using the glue S2; the S1 glue is transparent colorless soft glue, and the S2 glue is opaque colored hard glue;

(II) production of group A paint

(1) Taking the S1 glue, crushing and cleaning, heating to 400 ℃ of 300-;

(2) putting 80% of cold rubber powder and 20% of ground S1 rubber powder into a smelting furnace, heating the smelting furnace to 20 ℃ every 10 minutes until the mixture is completely dissolved to obtain rubber liquid, preserving heat for 1 hour, naturally cooling and grinding for later use;

(3) uniformly mixing 70% of the ground product and 30% of S1 rubber powder, putting the mixture into a container, heating to 600 ℃, raising the temperature by 20 ℃ every 10 minutes, stirring until the mixture is completely dissolved into liquid, then preserving the heat for 1 hour, naturally cooling, and adding a solvent in proportion to obtain a group A paint;

(III) preparation of paint of group B

(1) Selecting light-weight iron slag from iron slag formed in the process of smelting iron by using charcoal for one hundred years, cleaning, removing impurities and dust, and drying in the sun for later use;

(2) heating the cleaned iron slag to 400-500 ℃, and grinding into fine powder with the fineness of 1200-1300 meshes for later use;

(3) heating nickel ore to over 1000 ℃, grinding the nickel ore to a fineness of over 1300 meshes when the nickel ore turns red, and then removing impurities to obtain nickel ore powder for later use;

(4) taking the S2 gum, crushing, cleaning and removing impurities for later use;

(5) putting the S2 glue into a container, heating to 20 ℃ every 10 minutes, continuously stirring uniformly, and keeping the central temperature and the outer layer temperature to be approximately the same;

(6) and after the glue of S2 is melted, adding 10-15% of nickel ore powder, heating to 400-500 ℃, stirring, spraying the glue solution into a cooling chamber at minus-30 ℃ by using a high-pressure spray gun when the mixture is dissolved into the glue solution, grinding the cooled product to 1300 meshes, and adding a solvent in proportion to obtain the group B paint.

2. The metal antirust special-resistant paint as claimed in claim 1, which is characterized by further comprising a coloring material, wherein volcanic rocks of various colors are used as pigments during manufacturing, the temperature is increased to 300 ℃ and 500 ℃, then the volcanic rocks are ground into fine powder with the fineness of 1300 meshes, and impurities are removed to obtain the coloring material.

3. The metal antirust special-resistant paint as claimed in claim 1, wherein the paint is prepared by cleaning steel plates, spraying paint A, mixing colors with pigment B, and spraying the mixed paint B.

Technical Field

The invention belongs to the field of paint, and particularly provides metal antirust special-resistant paint.

Background

At present, various paints are commercially available, and some paints have an anticorrosive function, but are poor in adhesion, easy to come off, and easy to discolor, and are particularly expensive.

Disclosure of Invention

The invention aims to provide the metal antirust special-resistant paint which has stable color, good antirust effect, low cost and long quality guarantee period, and can ensure that steel does not rust for a long time.

The technical scheme adopted by the invention is as follows: the metal antirust specially-resistant paint comprises a group A paint and a group B paint, and the preparation method comprises the following steps:

(one) raw material treatment

Collecting waste glue, placing in an outdoor place, allowing the waste glue to be exposed to the sun and rain for more than one year or longer, selecting the glue S1 and the glue S2, storing in a classified manner, and producing group A paint by the glue S1; producing group B paint by using the glue S2; the S1 glue is transparent colorless soft glue, and the S2 glue is opaque colored hard glue;

(II) production of group A paint

(1) Taking the S1 glue, crushing and cleaning, adding 15-20% titanium dioxide (accounting for the total weight) when the temperature is raised to 400 ℃, uniformly stirring, spraying the uniformly stirred mixture into a container by using a high-pressure spray gun, cooling to obtain cold glue, and grinding to obtain the cold glue powder for later use.

(2) Putting 80% of cold rubber powder and 20% of ground S1 rubber powder into a smelting furnace, heating the smelting furnace to 20 ℃ every 10 minutes until the mixture is completely dissolved to obtain rubber liquid, preserving heat for 1 hour, naturally cooling and grinding for later use.

(3) Uniformly mixing 70% of the ground product and 30% of S1 rubber powder, putting the mixture into a container, heating to 600 ℃, raising the temperature by 20 ℃ every 10 minutes, stirring until the mixture is completely dissolved into liquid, then preserving the heat for 1 hour, naturally cooling, and adding a solvent in proportion to obtain a group A paint;

(III) preparation of paint of group B

(1) Selecting light-weight iron slag from iron slag formed in the process of smelting iron by using charcoal for one hundred years, cleaning, removing impurities and dust, and drying in the sun for later use; the color of the iron slag is mainly dark blue and light blue, and the dark blue and light blue iron slag are compounds with high carbon content and nitrogen content, and the compounds have strong oxidation resistance.

(2) Heating the cleaned iron slag to 400-500 ℃, and grinding into fine powder with the fineness of 1200-1300 meshes for later use;

(3) heating nickel ore to over 1000 ℃, grinding the nickel ore to a fineness of over 1300 meshes when the nickel ore turns red, and then removing impurities to obtain nickel ore powder for later use; the nickel ore powder is used as catalyst and also as brightener.

(4) Taking the S2 gum, crushing, cleaning and removing impurities for later use;

(5) putting the S2 glue into a container, heating to 20 ℃ every 10 minutes, continuously stirring uniformly, and keeping the central temperature and the outer layer temperature to be approximately the same;

(6) and after the glue of S2 is melted, adding 10-15% of nickel ore powder, heating to 400-500 ℃, stirring, spraying the glue solution into a cooling chamber at minus-30 ℃ by using a high-pressure spray gun when the mixture is dissolved into the glue solution, grinding the cooled product to 1300 meshes, and adding a solvent in proportion to obtain the group B paint. The step is a cold-hot explosion method, which can make the internal structure of raw material produce differentiation reaction and force their molecular chains to be disordered, so as to obtain the invented compound with unique properties. Preferably, the method is performed twice.

The metal antirust special-resistant paint also comprises a coloring material, wherein volcanic rocks with various colors are used as pigments during manufacturing, the temperature is increased to 300 ℃ and 500 ℃, then the volcanic rocks are ground into fine powder with the fineness of 1300 meshes, and impurities are removed to obtain the coloring material.

When the metal antirust special-resistant paint is used, a steel plate is cleaned (subjected to dust removal and rust removal), then the first group paint is sprayed, then the second group paint is mixed with colors by using a coloring material according to needs, and then the second group paint after color mixing is sprayed.

The metal antirust paint has good adhesion, is not easy to fall off after being sprayed on steel, has stable color and good antirust effect, and can ensure that the steel does not rust for a long time. In particular, the paint is low in cost and long in shelf life which can reach 7-8 years by adopting waste materials as raw materials.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments below:

example 1

The metal antirust specially-resistant paint comprises a group A paint and a group B paint, and the preparation method comprises the following steps:

raw material treatment:

collecting waste glue, placing in an outdoor place, allowing the waste glue to be exposed to the sun and rain for more than one year or longer, selecting the glue S1 and the glue S2, storing in a classified manner, and producing group A paint by the glue S1; producing group B paint by using the glue S2; the S1 glue is transparent colorless soft glue, and the S2 glue is opaque colored hard glue;

(II) producing a group A paint:

(1) taking the S1 glue, crushing and cleaning, adding 15-20% titanium dioxide (accounting for the total weight) when the temperature is raised to 400 ℃, uniformly stirring, spraying the uniformly stirred mixture into a container by using a high-pressure spray gun, cooling to obtain cold glue, and grinding to obtain the cold glue powder for later use.

(2) Putting 80% of cold rubber powder and 20% of ground S1 rubber powder into a smelting furnace, heating the smelting furnace to 20 ℃ every 10 minutes until the mixture is completely dissolved to obtain rubber liquid, preserving heat for 1 hour, naturally cooling and grinding for later use.

(3) Uniformly mixing 70% of the ground product and 30% of S1 rubber powder, putting the mixture into a container, heating to 600 ℃, raising the temperature by 20 ℃ every 10 minutes, stirring until the mixture is completely dissolved into liquid, then preserving the heat for 1 hour, naturally cooling, and adding a solvent in proportion to obtain a group A paint;

(III) preparing a paint group B:

(1) the method comprises the steps of selecting light-weight iron slag from iron slag formed in the process of smelting iron by using charcoal for one hundred years, cleaning, removing impurities and dust, and drying in the sun for later use.

(2) Heating the cleaned iron slag to 400-500 ℃, and grinding into fine powder with the fineness of 1200-1300 meshes for later use.

(3) Heating nickel ore to over 1000 ℃, grinding the nickel ore to a fineness of over 1300 meshes when the nickel ore turns red, and then removing impurities to obtain nickel ore powder for later use;

(4) taking the S2 gum, crushing, cleaning and removing impurities for later use;

(5) putting the S2 glue into a container, heating to 20 ℃ every 10 minutes, continuously stirring uniformly, and keeping the central temperature and the outer layer temperature to be approximately the same;

(6) and after the glue of S2 is melted, adding 10-15% of nickel ore powder, heating to 400-500 ℃, stirring, spraying the glue solution into a cooling chamber at minus-30 ℃ by using a high-pressure spray gun when the mixture is dissolved into the glue solution, grinding the cooled product to 1300 meshes, and adding a solvent in proportion to obtain the group B paint.

(7) Coloring material feeding: volcanic rocks of various colors are used as pigments, the temperature is raised to 300-.

(IV) the using method:

(1) cleaning the steel plate (removing dust and rust), spraying the first group paint, mixing colors with the second group paint according to the requirement, and spraying the mixed colors.

Example 2

The metal antirust specially-resistant paint comprises a group A paint and a group B paint, and the preparation method comprises the following steps:

raw material treatment:

collecting waste glue, placing in an outdoor place, allowing the waste glue to be exposed to the sun and rain for more than one year or longer, selecting the glue S1 and the glue S2, storing in a classified manner, and producing group A paint by the glue S1; producing group B paint by using the glue S2; the S1 glue is transparent colorless soft glue, and the S2 glue is opaque colored hard glue;

(II) producing a group A paint:

(1) taking the S1 glue, crushing and cleaning, adding 15-20% titanium dioxide (accounting for the total weight) when the temperature is raised to 400 ℃, uniformly stirring, spraying the uniformly stirred mixture into a container by using a high-pressure spray gun, cooling to obtain cold glue, and grinding to obtain the cold glue powder for later use.

(2) Putting 80% of cold rubber powder and 20% of ground S1 rubber powder into a smelting furnace, heating the smelting furnace to 20 ℃ every 10 minutes until the mixture is completely dissolved to obtain rubber liquid, preserving heat for 1 hour, naturally cooling and grinding for later use.

(3) Uniformly mixing 70% of the ground product and 30% of S1 rubber powder, putting the mixture into a container, heating to 600 ℃, raising the temperature by 20 ℃ every 10 minutes, stirring until the mixture is completely dissolved into liquid, then preserving the heat for 1 hour, naturally cooling, and adding a solvent in proportion to obtain a group A paint;

(III) preparing a paint group B:

(1) the method comprises the steps of selecting light-weight iron slag from iron slag formed in the process of smelting iron by using charcoal for one hundred years, cleaning, removing impurities and dust, and drying in the sun for later use.

(2) Heating the cleaned iron slag to 400-500 ℃, and grinding into fine powder with the fineness of 1200-1300 meshes for later use.

(3) Heating nickel ore to over 1000 ℃, grinding the nickel ore to a fineness of over 1300 meshes when the nickel ore turns red, and then removing impurities to obtain nickel ore powder for later use;

(4) taking the S2 gum, crushing, cleaning and removing impurities for later use;

(5) putting the S2 glue into a container, heating to 20 ℃ every 10 minutes, continuously stirring uniformly, and keeping the central temperature and the outer layer temperature to be approximately the same;

(6) and after the glue of S2 is melted, adding 10-15% of nickel ore powder, heating to 400-500 ℃, stirring, spraying the glue solution in a cooling chamber at minus-30 ℃ by using a high-pressure spray gun when the mixture is dissolved into the glue solution, heating the cooled product to 400-500 ℃, stirring, spraying the glue solution in the cooling chamber at minus-30 ℃ by using the high-pressure spray gun when the mixture is dissolved into the glue solution, grinding the cooled product to 1300 meshes, and adding a solvent according to a proportion to obtain the group B paint.

(7) Coloring material feeding: volcanic rocks of various colors are used as pigments, the temperature is raised to 300-.

(IV) the using method:

(1) cleaning the steel plate (removing dust and rust), spraying the first group paint, mixing colors with the second group paint according to the requirement, and spraying the mixed colors.