CN110591459A

CN110591459A - Preparation method of aluminum alloy anticorrosive material

Info

Publication number: CN110591459A
Application number: CN201910947947.6A
Authority: CN
Inventors: 史德超; 丁文文
Original assignee: Xuzhou Xinbo Metal Products Co Ltd
Current assignee: Xuzhou Xinbo Metal Products Co Ltd
Priority date: 2019-10-08
Filing date: 2019-10-08
Publication date: 2019-12-20

Abstract

The invention discloses a preparation method of an aluminum alloy anticorrosive material, which specifically comprises the following steps: s1: weighing 10-15 parts of zinc oxide in parts by weight in sequence, placing the weighed zinc oxide in a zinc sulfate solution, and dropwise adding an ammonium carbonate solution under stirring of a magnetic stirrer until the pH value of the solution reaches 7-7.5; s2: filtering the solution obtained in the step S1, placing the filtered upper-layer substance in an oven for drying for 10-15h, adjusting the temperature to 230-; s3: and (4) calcining the material obtained in the step S2 in a muffle furnace for 5-8h to obtain the magnetic zinc oxide. The magnetic zinc oxide particles can generate an attraction effect with iron, cobalt and nickel simple substances in the aluminum alloy, the modified carboxyl-terminated butadiene-acrylonitrile rubber realizes an early-stage adsorption effect, and the attraction effect can be generated after the anticorrosive material is solidified, so that the adhesion stability of the anticorrosive material and the aluminum alloy material is enhanced by more than 20%.

Description

Preparation method of aluminum alloy anticorrosive material

Technical Field

The invention relates to the technical field of anticorrosive materials, in particular to a preparation method of an aluminum alloy anticorrosive material.

Background

At present, since the beginning of smelting metals and using metal products by human beings, the corrosion and protection problems of metals are accompanied, the social loss caused by the corrosion of metals is huge, and according to statistics, about 1/10 of the metals smelted by people every year is corroded and damaged, which is equivalent to that about 1/10 of smelters do useless work every year due to the existence of corrosion; 1/10 the damage of metal products affected by the corrosion-damaged metal is far more than the value of the metal itself; the resulting loss of downtime, production downtime, and personal injuries is even more immeasurable, and therefore, the problems of metal corrosion and protection are highly appreciated by people.

Through retrieval, Chinese patent publication No. CN105401019A discloses a preparation method of an anticorrosive aluminum alloy, zinc powder, magnesium powder, silicon powder, an iron block, a rhenium ingot, a titanium ingot, boron powder, a copper block, an indium ingot, chromium powder and a cerium ingot are smelted to obtain an alloy liquid, an argon tank is utilized to spray argon gas, a nano modifier is uniformly dispersed and distributed in the alloy liquid to carry out modification treatment, then a composite stabilizer is added, refining and deoxidation are carried out, then casting is carried out, casting forming and cleaning are carried out to obtain a casting, the casting is preheated, reheated and insulated, then precooling treatment, quenching treatment and tempering treatment are carried out in clear water, and after cooling to room temperature, the anticorrosive aluminum alloy is obtained, the tensile strength of the obtained aluminum alloy is improved by 0.7%, the yield strength is improved by 6.1%, the elongation is improved by 10.8%, the impact toughness is improved by 17.9%, and the hardness is improved by HRC 0.3; has excellent corrosion resistance.

The existing aluminum alloy anticorrosive material has the following defects: the anticorrosive material is adhered to the aluminum alloy material by using glue or a binder, has poor stability, and can easily crack or fall off when being used in high-temperature and high-pressure areas or areas with large temperature difference all the year round, so that the aluminum alloy is exposed and corroded in later period.

Disclosure of Invention

The invention aims to provide a preparation method of an aluminum alloy anticorrosive material, which is characterized in that magnetic zinc oxide particles are added, when the magnetic zinc oxide particles are coated on the surface of the aluminum alloy, the magnetic zinc oxide particles can generate an attraction effect with iron, cobalt and nickel simple substances in the aluminum alloy, the modified carboxyl-terminated butadiene-acrylonitrile rubber realizes the early-stage adsorption effect, and after the anticorrosive material is solidified, the attraction effect can be generated, so that the adhesion stability of the anticorrosive material and the aluminum alloy material is enhanced by more than 20 percent, and the problem that the existing aluminum alloy anticorrosive material is adhered to the aluminum alloy material by using glue or a binder, has poor stability, and is easy to crack or fall off when being used in high-temperature and high-pressure areas or areas with large temperature difference all the year around, so that the aluminum alloy is exposed and corroded in the later stage is solved.

The preparation method of the aluminum alloy anticorrosive material provided by the embodiment of the invention specifically comprises the following steps:

s1: weighing 10-15 parts of zinc oxide in parts by weight in sequence, placing the weighed zinc oxide in a zinc sulfate solution, and dropwise adding an ammonium carbonate solution under stirring of a magnetic stirrer until the pH value of the solution reaches 7-7.5;

s2: filtering the solution obtained in the step S1, placing the filtered upper-layer substance in an oven for drying for 10-15h, adjusting the temperature to 230-;

s3: calcining the material obtained in the step S2 in a muffle furnace for 5-8h to prepare magnetic zinc oxide;

s4: weighing 20-30 parts of modified carboxyl-terminated butadiene-acrylonitrile rubber, 15-25 parts of hydroxyethylidene diphosphate, 10-12 parts of imidazoline, 10-15 parts of sodium molybdate, 5-10 parts of polyaspartic acid and 10-20 parts of auxiliary materials in sequence according to parts by weight, mechanically mixing and stirring the materials for 10-15min to obtain a mixed solution;

s5: and (3) putting the magnetic zinc oxide prepared in the S3 into the mixed solution, adding 2-5 parts by weight of lubricant, and heating and stirring continuously to enable the mixture to be in a molten state, thus obtaining the aluminum alloy anticorrosive material.

On the basis of the scheme, the modified carboxyl-terminated nitrile rubber is prepared by mixing carboxyl nitrile rubber and epoxy resin E51 according to the proportion of 3-5: 1-2.

Based on the scheme, in S5, the lubricant is one or two of stearic acid, butyl stearate or oleamide.

On the basis of the scheme, in S4, the auxiliary materials comprise the following components in parts by weight: 5-8 parts of ethylene glycol, 1-3 parts of a dispersing agent, 1-3 parts of a flatting agent, 1-4 parts of a wetting agent and 1-2 parts of a defoaming agent.

On the basis of the scheme, the flatting agent is any one of isophorone, diacetone alcohol and silicone oil.

On the basis of the scheme, the dispersing agent comprises the following components in parts by weight: 50-60 parts of butyl acetate, 20-30 parts of polydimethylsiloxane, 10-20 parts of dimethylbenzene and 10-15 parts of water.

On the basis of the scheme, the preparation method of the dispersing agent comprises the following steps:

s1: weighing polydimethylsiloxane, dimethylbenzene and water according to parts by weight, and sequentially mixing to prepare a mixed solution to be added into a titration container;

s2: weighing butyl acetate according to the weight parts, putting the butyl acetate into a reaction container, introducing nitrogen, bubbling the nitrogen instead of stirring, dropwise adding the mixed solution at a constant speed at normal temperature for reaction, distilling the mixed solution after dropwise adding is finished, and stopping when the pH value during distillation is controlled to be 7-7.5 to obtain the dispersing agent.

On the basis of the scheme, in S1, the frequency of the magnetic stirrer for stirring and adjusting the zinc oxide and the zinc sulfate solution is 300-500 HZ.

On the basis of the scheme, in S3, before the obtained material is placed in a muffle furnace to be calcined, the material needs to be washed for 3-5 times by distilled water, and after the washing is finished, the material needs to be dried.

The preparation method of the aluminum alloy anticorrosive material is applied to improving the anticorrosive performance of the aluminum alloy material.

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

1. the coating has a good metal decoration effect after being coated, the surface can be smooth after being coated for one time, and the dispersing agent, the leveling agent, the wetting agent and the defoaming agent are arranged, so that the anticorrosive material can be mixed more uniformly, later-stage coating is facilitated, the anticorrosive material is kept in a long-time wet state by the wetting agent, the service life is prolonged, the magnetic zinc oxide particles are added, when the coating is coated on the surface of the aluminum alloy, the magnetic zinc oxide particles can generate an attraction effect with iron, cobalt and nickel simple substances in the aluminum alloy, the modified carboxyl-terminated butadiene-acrylonitrile rubber realizes an early adsorption effect, after the anticorrosive material is solidified, the attraction effect can be generated, and the adhesion stability of the anticorrosive material and the aluminum alloy material is enhanced by more than 20%;

2. the dispersing agent is prepared by uniformly mixing the raw materials in a liquid phase by a sol-gel method, polydimethylsiloxane and dimethylbenzene are bonded in an inorganic network by covalent bonds and coordination bonds through hydrolysis and polycondensation to form a stable transparent sol system in a solution, and the sol and butyl acetate are slowly polymerized to form gel with a three-dimensional network structure, so that the gel structure of the three-dimensional network structure is stable, and the polarity between the bonding sites is strong, so that the anticorrosive material is more stable and is not easy to fall off.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments for further understanding of the features and technical means of the invention and the functions achieved.

Example 1

The embodiment provides a preparation method of an aluminum alloy anticorrosive material, which specifically comprises the following steps:

s1: weighing 10 parts of zinc oxide in parts by weight in sequence, placing the weighed zinc oxide in a zinc sulfate solution, and dropwise adding an ammonium carbonate solution under stirring of a magnetic stirrer until the pH value of the solution reaches 7;

s2: filtering the solution obtained in the step S1, placing the filtered upper-layer substance in an oven for drying for 10 hours, adjusting the temperature to 230 ℃, taking out the oven after the drying is finished, placing the oven in a fume hood, and naturally cooling to room temperature;

s3: calcining the material obtained in the step S2 in a muffle furnace for 5 hours to prepare magnetic zinc oxide;

s4: weighing 20 parts of modified carboxyl-terminated butadiene-acrylonitrile rubber, 15 parts of hydroxy ethylidene diphosphate, 10 parts of imidazoline, 10 parts of sodium molybdate, 5 parts of polyaspartic acid and 10 parts of auxiliary materials in sequence according to parts by weight, mechanically mixing and stirring the materials for 10min to obtain a mixed solution;

s5: and (3) putting the magnetic zinc oxide prepared in the step (S3) into the mixed solution, adding 2 parts by weight of lubricant, and heating and stirring continuously to enable the mixture to be in a molten state to obtain the aluminum alloy anticorrosive material.

The modified carboxyl-terminated nitrile rubber is prepared by mixing carboxyl nitrile rubber and epoxy resin E51 according to a ratio of 3: 1.

In S5, the lubricant is stearic acid.

In S4, the auxiliary materials comprise, by weight: 5 parts of ethylene glycol, 1 part of dispersing agent, 1 part of flatting agent, 1 part of wetting agent and 1 part of defoaming agent.

The leveling agent is isophorone.

The dispersing agent comprises the following components in parts by weight: 50 parts of butyl acetate, 20 parts of polydimethylsiloxane, 10 parts of dimethylbenzene and 10 parts of water.

The preparation method of the dispersant comprises the following steps:

s2: weighing butyl acetate according to the weight parts, putting the butyl acetate into a reaction container, introducing nitrogen, bubbling the nitrogen instead of stirring, dropwise adding the mixed solution at a constant speed at normal temperature for reaction, distilling the mixed solution after dropwise adding is finished, and stopping when the pH value is controlled to be 7 during distillation to obtain the dispersing agent.

In S1, the frequency of the magnetic stirrer for stirring adjustment of the zinc oxide and the zinc sulfate solution is 300 HZ.

In S3, the obtained material needs to be washed with distilled water 3 times before being calcined in a muffle furnace, and then dried after being washed.

Example 2

s1: weighing 11 parts of zinc oxide in parts by weight, placing the weighed zinc oxide in a zinc sulfate solution, and dropwise adding an ammonium carbonate solution under stirring of a magnetic stirrer until the pH value of the solution reaches 7;

s2: filtering the solution obtained in the step S1, placing the filtered upper-layer substance in an oven for drying for 11 hours, adjusting the temperature to 240 ℃, taking out the oven after the drying is finished, and placing the oven in a fume hood for naturally cooling to room temperature;

s3: calcining the material obtained in the step S2 in a muffle furnace for 6 hours to prepare magnetic zinc oxide;

s4: weighing 22 parts of modified carboxyl-terminated butadiene-acrylonitrile rubber, 18 parts of hydroxyethylidene diphosphate, 10 parts of imidazoline, 11 parts of sodium molybdate, 6 parts of polyaspartic acid and 12 parts of auxiliary materials in sequence according to parts by weight, mechanically mixing and stirring the materials for 11min to obtain a mixed solution;

s5: and (3) putting the magnetic zinc oxide prepared in the step (S3) into the mixed solution, adding 3 parts by weight of lubricant, and heating and stirring continuously to enable the mixture to be in a molten state to obtain the aluminum alloy anticorrosive material.

The modified carboxyl-terminated nitrile rubber is prepared by mixing carboxyl nitrile rubber and epoxy resin E51 according to a ratio of 4: 1.

In S5, the lubricant is butyl stearate.

In S4, the auxiliary materials comprise, by weight: 6 parts of ethylene glycol, 2 parts of dispersing agent, 2 parts of flatting agent, 2 parts of wetting agent and 1 part of defoaming agent.

The leveling agent is diacetone alcohol.

The dispersing agent comprises the following components in parts by weight: 52 parts of butyl acetate, 22 parts of polydimethylsiloxane, 12 parts of dimethylbenzene and 11 parts of water.

The preparation method of the dispersant comprises the following steps:

In S1, the frequency of the magnetic stirrer for stirring adjustment of the zinc oxide and the zinc sulfate solution is 400 HZ.

In S3, the obtained material needs to be washed with distilled water 4 times before being calcined in a muffle furnace, and then dried after being washed.

Example 3

s1: weighing 13 parts of zinc oxide in parts by weight, placing the weighed zinc oxide in a zinc sulfate solution, and dropwise adding an ammonium carbonate solution under stirring of a magnetic stirrer until the pH value of the solution reaches 7;

s2: filtering the solution obtained in the step S1, placing the filtered upper-layer substance in an oven for drying for 13h, adjusting the temperature to 250 ℃, taking out the oven after the drying is finished, and placing the oven in a fume hood for naturally cooling to room temperature;

s4: weighing 26 parts of modified carboxyl-terminated butadiene-acrylonitrile rubber, 20 parts of hydroxy ethylidene diphosphate, 11 parts of imidazoline, 13 parts of sodium molybdate, 6 parts of polyaspartic acid and 16 parts of auxiliary materials in sequence according to parts by weight, mechanically mixing and stirring the materials for 13min to obtain a mixed solution;

s5: and (3) putting the magnetic zinc oxide prepared in the step (S3) into the mixed solution, adding 4 parts by weight of lubricant, and heating and stirring continuously to enable the mixture to be in a molten state to obtain the aluminum alloy anticorrosive material.

In S5, the lubricant is oleamide.

In S4, the auxiliary materials comprise, by weight: 6 parts of ethylene glycol, 2 parts of a dispersing agent, 2 parts of a flatting agent, 3 parts of a wetting agent and 2 parts of a defoaming agent.

The leveling agent is silicone oil.

The dispersing agent comprises the following components in parts by weight: 56 parts of butyl acetate, 25 parts of polydimethylsiloxane, 18 parts of dimethylbenzene and 13 parts of water.

The preparation method of the dispersant comprises the following steps:

s2: weighing butyl acetate according to the weight parts, putting the butyl acetate into a reaction container, introducing nitrogen, bubbling the nitrogen instead of stirring, dropwise adding the mixed solution at a constant speed at normal temperature for reaction, distilling the mixed solution after dropwise adding is finished, and stopping when the pH value during distillation is controlled to be 7.5 to obtain the dispersing agent.

Example 4

s1: weighing 14 parts of zinc oxide in parts by weight, placing the weighed zinc oxide in a zinc sulfate solution, and dropwise adding an ammonium carbonate solution under stirring of a magnetic stirrer until the pH value of the solution reaches 7.5;

s2: filtering the solution obtained in the step S1, placing the filtered upper-layer substance in an oven for drying for 14h, adjusting the temperature to 250 ℃, taking out the oven after the drying is finished, and placing the oven in a fume hood for naturally cooling to room temperature;

s4: weighing 28 parts of modified carboxyl-terminated butadiene-acrylonitrile rubber, 22 parts of hydroxyethylidene diphosphate, 11 parts of imidazoline, 14 parts of sodium molybdate, 8 parts of polyaspartic acid and 18 parts of auxiliary materials in sequence according to parts by weight, mechanically mixing and stirring the materials for 14min to obtain a mixed solution;

s5: and (3) putting the magnetic zinc oxide prepared in the step (S3) into the mixed solution, adding 5 parts by weight of lubricant, and heating and stirring continuously to enable the mixture to be in a molten state to obtain the aluminum alloy anticorrosive material.

In S5, the lubricant is stearic acid and butyl stearate mixed in a mixing ratio of 1: 1.

In S4, the auxiliary materials comprise, by weight: 7 parts of ethylene glycol, 2 parts of a dispersing agent, 2 parts of a flatting agent, 3 parts of a wetting agent and 2 parts of a defoaming agent.

The leveling agent is isophorone.

The dispersing agent comprises the following components in parts by weight: 58 parts of butyl acetate, 28 parts of polydimethylsiloxane, 18 parts of xylene and 14 parts of water.

The preparation method of the dispersant comprises the following steps:

In S1, the frequency of the magnetic stirrer for stirring adjustment of the zinc oxide and zinc sulfate solution is 450 HZ.

Example 5

s1: weighing 15 parts of zinc oxide in parts by weight in sequence, placing the weighed zinc oxide in a zinc sulfate solution, and dropwise adding an ammonium carbonate solution under stirring of a magnetic stirrer until the pH value of the solution reaches 7.5;

s2: filtering the solution obtained in the step S1, placing the filtered upper-layer substance in an oven for drying for 15 hours, adjusting the temperature to 270 ℃, taking out the oven after the drying is finished, and placing the oven in a fume hood for naturally cooling to room temperature;

s3: calcining the material obtained in the step S2 in a muffle furnace for 8 hours to prepare magnetic zinc oxide;

s4: weighing 30 parts of modified carboxyl-terminated butadiene-acrylonitrile rubber, 25 parts of hydroxy ethylidene diphosphate, 12 parts of imidazoline, 15 parts of sodium molybdate, 10 parts of polyaspartic acid and 20 parts of auxiliary materials in sequence according to parts by weight, mechanically mixing and stirring the materials for 15min to obtain a mixed solution;

The modified carboxyl-terminated nitrile rubber is prepared by mixing carboxyl nitrile rubber and epoxy resin E51 according to a ratio of 5: 1.

In S5, the lubricant is a mixed solution of butyl stearate and oleamide, and the mixing ratio is 1: 1.

In S4, the auxiliary materials comprise, by weight: 8 parts of ethylene glycol, 3 parts of a dispersing agent, 3 parts of a flatting agent, 4 parts of a wetting agent and 2 parts of a defoaming agent.

The leveling agent is silicone oil.

The dispersing agent comprises the following components in parts by weight: 60 parts of butyl acetate, 30 parts of polydimethylsiloxane, 20 parts of dimethylbenzene and 15 parts of water.

The preparation method of the dispersant comprises the following steps:

In S1, the frequency of the magnetic stirrer for stirring adjustment of the zinc oxide and the zinc sulfate solution is 500 HZ.

In S3, the obtained material needs to be washed with distilled water 5 times before being calcined in a muffle furnace, and then dried after being washed.

Examples of the experiments

Now, the anticorrosive materials described in examples 1 to 5 and the anticorrosive materials on the market (comparative examples) were tested, and the results are shown in table 1:

table 1: performance parameters of anticorrosive material

As shown in Table 1, the density of the anticorrosive material is higher than that of the anticorrosive material in the prior art by more than 50kg/m3, the water impermeability, the acid resistance and the alkali resistance of the anticorrosive material are improved, the heat-resistant temperature is improved by more than 18%, the anticorrosive material can serve as a good anticorrosive material, and the performance of the anticorrosive material is further improved.

The invention is not described in detail, but is well known to those skilled in the art.

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

1. The preparation method of the aluminum alloy anticorrosive material is characterized by comprising the following steps:

2. The method for preparing an aluminum alloy anticorrosive material according to claim 1, characterized in that: the modified carboxyl-terminated nitrile rubber is prepared by mixing carboxyl nitrile rubber and epoxy resin E51 according to the proportion of 3-5: 1-2.

3. The method for preparing an aluminum alloy anticorrosive material according to claim 2, characterized in that: in S5, the lubricant is one or a mixture of stearic acid, butyl stearate or oleamide.

4. The method for preparing an aluminum alloy anticorrosive material according to claim 3, characterized in that: in S4, the auxiliary materials comprise, by weight: 5-8 parts of ethylene glycol, 1-3 parts of a dispersing agent, 1-3 parts of a flatting agent, 1-4 parts of a wetting agent and 1-2 parts of a defoaming agent.

5. The method for preparing the aluminum alloy anticorrosive material according to claim 4, characterized in that: the flatting agent is any one of isophorone, diacetone alcohol and silicone oil.

6. The method for preparing the aluminum alloy anticorrosive material according to claim 5, characterized in that: the dispersing agent comprises the following components in parts by weight: 50-60 parts of butyl acetate, 20-30 parts of polydimethylsiloxane, 10-20 parts of dimethylbenzene and 10-15 parts of water.

7. The preparation method of the aluminum alloy anticorrosive material according to claim 6, characterized in that the preparation method of the dispersant is as follows:

8. The method for preparing an aluminum alloy anticorrosive material according to claim 7, characterized in that: in S1, the frequency of the magnetic stirrer for stirring and adjusting the zinc oxide and the zinc sulfate solution is 300-500 HZ.

9. The method for preparing an aluminum alloy anticorrosive material according to claim 8, characterized in that: in S3, before the obtained material is placed in a muffle furnace for calcination, the material needs to be washed for 3-5 times by distilled water, and after the washing is finished, the material needs to be dried.

10. The preparation method of the aluminum alloy anticorrosive material according to any one of claims 1 to 9, which is applied to improving the anticorrosive performance of the aluminum alloy material.