CN101942254A - Aqueous conducting anti-corrosive paint containing nano core-shell structure polypyrrole - Google Patents

Aqueous conducting anti-corrosive paint containing nano core-shell structure polypyrrole Download PDF

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CN101942254A
CN101942254A CN 201010296970 CN201010296970A CN101942254A CN 101942254 A CN101942254 A CN 101942254A CN 201010296970 CN201010296970 CN 201010296970 CN 201010296970 A CN201010296970 A CN 201010296970A CN 101942254 A CN101942254 A CN 101942254A
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polypyrrole
shell structure
nano core
conductive protective
structure polypyrrole
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CN101942254B (en
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石元昌
孙立波
刘锋
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Shandong University
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Shandong University
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Abstract

The invention discloses an aqueous conducting anti-corrosive paint containing nano core-shell structure polypyrrole, which comprises nano core-shell structure polypyrrole compound particles and aqueous resin emulsion, wherein the nano core-shell structure polypyrrole accounts for 5.5-25 wt% of aqueous resin emulsion. When in use, the aqueous conducting anti-corrosive paint containing nano core-shell structure polypyrrole is applied or sprayed on the metal surface which is processed by oil removal and anti-corrosive treatment, the coating thickness is controlled at 20-200 mu m, and the coating is cured at room temperature. The nano core-shell polypyrrole compound particles are synthesized by using a micro emulsion method. The method has the advantages of simple experimental apparatus, low energy consumption and easy operation; and the prepared nano particles have uniform and controllable particle size. Compared with the common paint, the aqueous conducting anti-corrosive paint has incomparable advantages and high application value, and is beneficial to market popularization.

Description

A kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Technical field
The present invention relates to a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole.
Background technology
1977, Heeger, discoveries such as MacDiarmid and Bai Chuanying tree, the adulterated polyacetylene film of arsenic pentafluoride or iodine has metallic conductivity, and specific conductivity reaches 103Scm -1, the traditional concept that polymkeric substance is generally isolator has been broken in this discovery, causes the interesting basic science problem of a series of relevant conductive polymers structures and character.Conductive polymers is in wide application prospects in aspect such as electrode materials, modified electrode and the enzyme electrodes of chemical power source, electrochromism demonstration, electrostatic shielding in addition, thereby excited the research boom of conductive polymers in the world wide.1979, American I BM company prepared specific conductivity up to 100Scm with electrochemically oxidative polymerization -1The electric polypyrrole film.Polypyrrole becomes one of emphasis of studying in the conducting polymer field because of having advantage such as easily synthetic, that electric conductivity is high, stability is better, and develops to the industrial application direction gradually.
The loss that the annual metallic corrosion in the whole world causes is huge, has statistical figure to show, global annual metallic corrosion total amount reaches the 20%-40% of metal output, about 1,000 hundred million yuan of financial loss.And U.S.'s loss that causes because of static that relates to more than ten industry of announcing in the recent period is just up to more than 200 hundred million dollars.And use coating that metal or electronic component are carried out the effective means the most that the surface-coated processing is minimizing metallic corrosion, reduction static hazard.
At present, mainly still based on the coating protective system, and current effective anti-corrosion of metal pigment mostly is sexavalence chromium compounds and plumbiferous compound to the protection of hardware, and wherein the sexavalence chromium compounds is a carcinogenic substance, and lead also is the heavy metal of serious environment pollution.And electric polypyrrole has electroconductibility as metal, can make the metallic surface active passivation, and the heavy metal that can be used for substituting in the coating plays preservative activity.Therefore to be expected be environmentally acceptable high-efficiency anticorrosive paint of new generation to electric polypyrrole.
Yet, be generally black powder according to the electric polypyrrole of traditional method preparation, make with the polypyrrole to be the difficult toning of coating of conductive filler material.In addition, because the big conjugated in the linear molecule chain makes polypyrrole have extremely strong rigidity, polypyrrole can not can not dissolve in fusion, and this makes it be difficult to machine-shaping, the also non-constant of mechanical property, if and electrically conducting coating is made as water-borne coatings, then can be very unstable, very easily precipitate.
In sum, there are many weak points in prior art, prepares a kind of polypyrrole content height, chemical compatibility is good, electric conductivity is high waterborne conductive protective system becomes problem demanding prompt solution.
Summary of the invention
At above-mentioned prior art, the invention provides a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole, and preparation method thereof.Utilize the waterborne conductive protective system of this method preparation to have advantages such as chemical compatibility is good, electric conductivity is high, preservative effect is good.
The present invention is achieved by the following technical solutions:
A kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole, be composed of the following components: nano core-shell structure polypyrrole composite particles and resin aqueous emulsion, wherein, nano core-shell structure polypyrrole accounts for 5.5%~25% of resin aqueous emulsion quality.
Preferably, nano core-shell structure polypyrrole accounts for account for 5.5%~8.5% o'clock of resin aqueous emulsion quality, preservative effect the best.
Preferably, nano core-shell structure polypyrrole accounts for account for 6.4%~15% o'clock of resin aqueous emulsion quality, and conductivity is good, can be used as antistatic coating.
The kernel of described nano core-shell structure polypyrrole composite particles is an iodine dopen Nano electric polypyrrole, and the shell of electric polypyrrole composite particles is polymethylmethacrylate (PMMA).
Described water-borne coatings resin emulsion is that solid content is 40%~80% water-borne acrylic resin emulsion.
A kind of preparation method who contains the waterborne conductive protective system of nano core-shell structure polypyrrole may further comprise the steps:
(1) nano core-shell structure polypyrrole is synthetic:
1. at room temperature in there-necked flask, add distilled water, cats product cetyl trimethylammonium bromide (CTAB) and cosurfactant Pentyl alcohol successively, and magnetic agitation forms the micellar solution of tensio-active agent;
2. pyrrole monomer (Py) is added drop-wise in the above-mentioned micellar solution that configures;
3. in there-necked flask, add iodine;
4. previously prepd is dissolved in the FeCl of distilled water 3Dropwise splash in the there-necked flask, at room temperature, system is carried out magnetic agitation, after 3 hours, pyrroles's chemical oxidising polymerisation is finished in micella;
5. in there-necked flask, add monomers methyl methacrylate (MMA), and temperature is risen to 70 ℃ of heating in water bath;
6. Potassium Persulphate (KPS) solution for preparing is added drop-wise in the system with constant pressure funnel, 70 ℃ of isothermal reaction 3h, promptly being able to iodine doping polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate;
(2) composite: behind above-mentioned nano core-shell structure polypyrrole washing centrifugal drying, be added in the water-borne coatings resin emulsion, dispersed with stirring is even, promptly get the waterborne conductive protective system of nano core-shell structure polypyrrole, wherein, nano core-shell structure polypyrrole accounts for 5.5%~25% of water-borne coatings resin solution quality.
In the described step (1), cats product cetyl trimethylammonium bromide (CTAB) is 0.034~0.068 with the mass ratio of distilled water; The mass ratio of cosurfactant Pentyl alcohol and distilled water is 0.02~0.04; The mass ratio of pyrrole monomer and distilled water is 0.01~0.03; The mass ratio of pyrrole monomer and methyl methacrylate monomer is 0.40~0.67; The mass ratio of doping agent elemental iodine and pyrrole monomer is 0.3~0.4; Oxygenant FeCl 3With the mass ratio of pyrrole monomer be 3.9~6.2; The mass ratio of oxygenant Potassium Persulphate and methyl methacrylate is 0.04~0.07.
A kind of using method that contains the waterborne conductive protective system of nano core-shell structure polypyrrole, for: the waterborne conductive protective system of nano core-shell structure polypyrrole applied or is sprayed on metallic surface through oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, and self-vulcanizing gets final product.
Waterborne conductive protective system of the present invention has excellent in chemical consistency, high electric conductivity, can effectively slow down corrosion of metal simultaneously, is a kind of novel environment friendly conductive nano protective system.The nano core-shell polypyrrole of the present invention's preparation has intact globosity, and its shell is about 10nm, and interior nuclear diameter is 50nm~70nm.Adopt the waterborne conductive protective system of the present invention's preparation, the content of nano core-shell structure polypyrrole accounts for 5.5% of resin aqueous emulsion quality~8.5% o'clock, preservative effect the best.Adopt the waterborne conductive protective system of the present invention's preparation, accounting for the resin aqueous emulsion quality at the content of nano core-shell structure polypyrrole is 6.4%~15% o'clock, and conductivity is good, can be used as antistatic coating.
It is emphasized that the present invention has realized the nucleocapsid modification of polypyrrole, and carried out the iodine doping.The contriver has successfully synthesized the nanometer shell of polymethylmethacrylate on the nanometer polypyrrole surface, make the polypyrrole conductive filler material have excellent comprehensive performances.Plasticity insulating polymer polymethylmethacrylate on the polypyrrole surface makes polypyrrole have good thermoplasticity and snappiness, with matrix resin better consistency is arranged.Because the shell polymkeric substance as thin as a wafer, the swelling action of polymkeric substance makes the polypyrrole molecular chain partly to swell in the matrix resin, forms conductive network.Therefore the existence of shell insulating polymer polymethylmethacrylate does not influence the conductive capability of polypyrrole.And the electric conductivity of iodine doping also raising nanometer polypyrrole.The swelling action of the existence of nanoshell strata compound as thin as a wafer and polymkeric substance can more help coating toning in use so that the color of intrinsic polypyrrole is thin out in addition.
The nano core-shell polypyrrole composite particles of the present invention's preparation adopts microemulsion method synthetic, and this method experimental installation is simple, and energy consumption is low, processing ease, and the nano particle diameter homogeneous and controllable of preparation.
The filmogen that the present invention uses is a resin aqueous emulsion, and it only contains a spot of organic solvent, compares the advantage with tangible environmental protection with the solvent-borne type product, can reduce production costs with water to replace organic solvent simultaneously.
In sum, the waterborne conductive protective system of the present invention's preparation has incomparable advantage with respect to common coating, has very high using value, and marketing is highly advantageous to.
Description of drawings
Fig. 1 is the transmission electron microscope photo of the prepared electric polypyrrole kernel of the present invention.
Fig. 2 is the scanning electron microscope picture of the prepared electric polypyrrole kernel of the present invention.
Fig. 3 is the transmission electron microscope photo of the prepared electric polypyrrole composite particles with nucleocapsid structure of the present invention.
Fig. 4 is the stereoscan photograph of the prepared electric polypyrrole composite particles with nucleocapsid structure of the present invention.
Embodiment
The present invention is further illustrated below in conjunction with embodiment:
Embodiment 1: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 10.2g, cosurfactant Pentyl alcohol 6g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 4g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 1.4g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 20.4g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole, its transmission electron microscope photo such as Fig. 1, stereoscan photograph such as Fig. 2.We can see that the diameter of prepared nanometer polypyrrole is about 40nm~50nm by photo, and pattern is spherical.
5. in there-necked flask, add methyl methacrylate (MMA) 7.41g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.41g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole composite particles of shell for nuclear, polymethylmethacrylate, its transmission electron microscope photo such as Fig. 3, stereoscan photograph such as Fig. 4.We can see by photo, and the interior nuclear diameter of nano core-shell structure polypyrrole is about 40nm~50nm, and outer casing thickness is about 20nm.With its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 5.5% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content is 40%) in the aqueous acroleic acid resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 2: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 6.8g, cosurfactant Pentyl alcohol 4g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 2g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 0.6g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 7.8g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 5g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.2g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 15.25% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content is 60%) in the aqueous acroleic acid resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 3: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 13.6g, cosurfactant Pentyl alcohol 8g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 6g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 2.4g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 37.2g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 8.96g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.63g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 25% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content is 80%) in the aqueous acroleic acid resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 4: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 6.8g, cosurfactant Pentyl alcohol 4g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 6g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 2.4g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 37.2g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 15g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 1.05g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 5.5% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content 40%) in the water-borne acrylic resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 5: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 10.2g, cosurfactant Pentyl alcohol 8g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 2g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 0.7g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 7.8g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 3.71g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.15g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 15.25% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content 40%) in the water-borne acrylic resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 6: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 13.6g, cosurfactant Pentyl alcohol 6g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 4g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 1.2g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 24.8g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 7.41g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.52g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 25% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content 80%) in the water-borne acrylic resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 7: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 6.8g, cosurfactant Pentyl alcohol 8g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 4g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 1.2g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 20.4g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 5.97g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.24g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 25% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content 40%) in the water-borne acrylic resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 8: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 10.2g, cosurfactant Pentyl alcohol 6g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 2g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 0.8g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 7.8g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 2.99g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.21g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 5.5% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content 80%) in the aqueous acroleic acid resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 9: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 13.6g, cosurfactant Pentyl alcohol 4g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 6g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 2.1g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 30.6g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 15g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.83g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 8.5% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content 50%) in the aqueous acroleic acid resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 10: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 6.8g, cosurfactant Pentyl alcohol 6g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 2g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 0.8g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 10.2g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 5g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.2g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 6.4% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content 60%) in the aqueous acroleic acid resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 11: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 10.2g, cosurfactant Pentyl alcohol 8g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 6g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 2.1g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 23.4g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 8.96g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.63g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 20% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content 70%) in the aqueous acroleic acid resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.
Embodiment 12: prepare a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole
Step is as follows:
(1) preparation nano level iodine doping polypyrrole:
1. at room temperature in there-necked flask, add distilled water 200g, cats product cetyl trimethylammonium bromide (CTAB) 13.6g, cosurfactant Pentyl alcohol 4g, and magnetic agitation forms the micellar solution of tensio-active agent;
2. the 4g pyrrole monomer is added drop-wise in the there-necked flask, and continues magnetic agitation, form the micellar solution of the tensio-active agent that contains pyrrole monomer;
3. in there-necked flask, add the 1.2g elemental iodine, and continue magnetic agitation;
4. in there-necked flask, slowly drip 24.8g FeCl 3(being dissolved in the 40g distilled water), magnetic agitation 3h can obtain iodine dopen Nano polypyrrole.
5. in there-necked flask, add methyl methacrylate (MMA) 7.41g, and be warmed up to 70 ℃ of heating in water bath;
6. slowly be added drop-wise to Potassium Persulphate (KPS) 0.41g (being dissolved in the 5g water) solution that configures in the there-necked flask, 70 ℃ of isothermal reaction 3h, promptly being able to polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate, with its centrifugal drying, standby.
(2) the waterborne conductive protective system is composite: 15% the nano core-shell structure polypyrrole composite particles that will account for the resin aqueous emulsion quality joins (solid content 60%) in the aqueous acroleic acid resin emulsion, and stir, promptly get the waterborne conductive protective system that contains nano core-shell structure polypyrrole.
During use, the waterborne conductive protective system of the above-mentioned nano core-shell structure polypyrrole for preparing is applied or is sprayed on through the metallic surface of oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, self-vulcanizing.

Claims (8)

1. waterborne conductive protective system that contains nano core-shell structure polypyrrole, it is characterized in that: be composed of the following components: nano core-shell structure polypyrrole composite particles and resin aqueous emulsion, wherein, nano core-shell structure polypyrrole accounts for 5.5%~25% of resin aqueous emulsion quality.
2. a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole according to claim 1 is characterized in that: described nano core-shell structure polypyrrole accounts for 5.5%~8.5% of resin aqueous emulsion quality.
3. a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole according to claim 1 is characterized in that: described nano core-shell structure polypyrrole accounts for 6.4%~15% of resin aqueous emulsion quality.
4. according to claim 1 or 2 or 3 described a kind of waterborne conductive protective systems that contain nano core-shell structure polypyrrole, it is characterized in that: the kernel of described nano core-shell structure polypyrrole composite particles is an iodine dopen Nano electric polypyrrole, and the shell of electric polypyrrole composite particles is a polymethylmethacrylate.
5. according to claim 1 or 2 or 3 described a kind of waterborne conductive protective systems that contain nano core-shell structure polypyrrole, it is characterized in that: described water-borne coatings resin emulsion is that solid content is 40%~80% water-borne acrylic resin emulsion.
6. claim 1 or 2 or 3 described a kind of preparation methods that contain the waterborne conductive protective system of nano core-shell structure polypyrrole is characterized in that, may further comprise the steps:
(1) nano core-shell structure polypyrrole is synthetic:
1. at room temperature in there-necked flask, add distilled water, cats product cetyl trimethylammonium bromide and cosurfactant Pentyl alcohol successively, and magnetic agitation forms the micellar solution of tensio-active agent;
2. pyrrole monomer is added drop-wise in the above-mentioned micellar solution that configures;
3. in there-necked flask, add iodine;
4. previously prepd is dissolved in the FeCl of distilled water 3Dropwise splash in the there-necked flask, at room temperature, system is carried out magnetic agitation, after 3 hours, pyrroles's chemical oxidising polymerisation is finished in micella;
5. in there-necked flask, add monomers methyl methacrylate, and temperature is risen to 70 ℃ of heating in water bath;
6. the potassium persulfate solution for preparing is added drop-wise in the system with constant pressure funnel, 70 ℃ of isothermal reaction 3h, promptly being able to iodine doping polypyrrole is the nano core-shell structure polypyrrole of shell for nuclear, polymethylmethacrylate;
(2) composite: behind above-mentioned nano core-shell structure polypyrrole washing centrifugal drying, be added in the water-borne coatings resin emulsion, dispersed with stirring is even, promptly gets the waterborne conductive protective system of nano core-shell structure polypyrrole.
7. a kind of waterborne conductive protective system that contains nano core-shell structure polypyrrole according to claim 6, it is characterized in that: in the described step (1), the mass ratio of cats product cetyl trimethylammonium bromide and distilled water is 0.034~0.068; The mass ratio of cosurfactant Pentyl alcohol and distilled water is 0.02~0.04; The mass ratio of pyrrole monomer and distilled water is 0.01~0.03; The mass ratio of pyrrole monomer and methyl methacrylate monomer is 0.40~0.67; The mass ratio of doping agent elemental iodine and pyrrole monomer is 0.3~0.4; Oxygenant FeCl 3With the mass ratio of pyrrole monomer be 3.9~6.2; The mass ratio of oxygenant Potassium Persulphate and methyl methacrylate is 0.04~0.07.
8. claim 1 or 2 or 3 described a kind of using method that contain the waterborne conductive protective system of nano core-shell structure polypyrrole, it is characterized in that, method is: the waterborne conductive protective system of nano core-shell structure polypyrrole is applied or is sprayed on the metallic surface through oil removing and antirust processing, coat-thickness is controlled at 20~200 μ m, and self-vulcanizing gets final product.
CN2010102969702A 2010-09-29 2010-09-29 Water-based conductive anticorrosive paint containing polypyrrole with nano core-shell structure Expired - Fee Related CN101942254B (en)

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CN109957272A (en) * 2019-03-03 2019-07-02 东北石油大学 A kind of preparation method of anticorrosive packing, anticorrosive paint and the two

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JP2001151806A (en) * 1999-11-24 2001-06-05 Nippon Zeon Co Ltd Acrylic emulsion for sliding prevention, method for producing the acrylic emulsion and coating composition for sliding prevention
CN101035630A (en) * 2004-08-03 2007-09-12 坎梅陶尔股份有限公司 Process for coating metallic surfaces with an anti-corrosive coating
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106916255A (en) * 2017-04-08 2017-07-04 新沂市中诺新材料科技有限公司 A kind of preparation method of novel C e PPy/PMMA nano core-shell composite conducting materials
CN107286777A (en) * 2017-07-24 2017-10-24 湖北启利新材料股份有限公司 A kind of conductive anti-corrosive primer coating of water nano polyaniline epoxy acrylic resin
CN109957272A (en) * 2019-03-03 2019-07-02 东北石油大学 A kind of preparation method of anticorrosive packing, anticorrosive paint and the two

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