CN101921530B - Nontoxic biological antifouling coating, preparation method thereof and antifouling treatment method of substrate - Google Patents

Abstract

The invention provides a kind of non-toxic biological antifouling coating, comprising resin base material, varnish, auxiliary agent and curing agent, said non-toxic biological antifouling coating also includes fat-soluble luminous powder, and said resin base material has relatively Good light transmittance; the present invention also provides a preparation method of the non-toxic biological antifouling coating and a method for treating the surface of the base material with the non-toxic biological antifouling coating. According to the non-toxic biological anti-fouling coating of the present invention, mainly provide ambient lighting around the clock through the luminous material, thereby using the photoinhibition effect to reduce the adhesion of marine organisms, and the luminous powder used in the present invention is alkaline earth silicon aluminum excited by rare earth elements Salt, non-toxic and non-radiative, reducing adverse effects on the environment; the present invention can also achieve different degrees of biological antifouling in different environments by changing the specific ratio of luminous powder and each component, and can be applied to different Working conditions: the production cost and maintenance cost of the non-toxic biological antifouling paint of the present invention are relatively low.

Description

A kind of non-toxic biological antifouling coating and its preparation method and antifouling treatment method of substrate

technical field

The present invention relates to a biological antifouling paint, a preparation method of the biological antifouling paint, and an antifouling treatment method, more specifically, to a non-toxic biological antifouling paint containing luminous powder, the non-toxic A preparation method of a biological antifouling paint, and a method for antifouling treatment of a substrate by using the non-toxic biological antifouling paint containing luminous powder.

Background technique

On various artificial surfaces, the attachment, growth, and reproduction of organic life forms have brought many disadvantages, and this phenomenon is collectively referred to as biofouling. Biofouling in the marine range can lead to many disadvantages, such as increased energy consumption, reduced efficiency, and increased corrosion of marine vessels. Regardless of civil, commercial or military use, marine antifouling is an important issue in marine engineering. Marine fouling is a huge resistance to the marine industry, so scholars from all over the world are devoting themselves to the research of coatings that can achieve effective antifouling.

In view of the current marine antifouling requirements, the main countermeasures include chemical antifouling methods, physical antifouling methods and biological antifouling methods. Chemical methods include the use of contact, solution and self-polishing antifouling coatings, the most effective of which is the self-polishing tributyltin (TBT) coating, which has been banned due to adverse environmental side effects. This has led to many other alternative chemistries, such as replacing tin-containing coatings with copper compounds. However, various chemical poisoning methods will always be protested by environmentalists, so it is extremely important to study non-toxic and effective broad-spectrum antifouling. For this reason, scholars are mainly divided into three categories of research. One is to start from the material, hoping to obtain a material with low adhesion, so that the attachment can be washed away under the action of water flow; the other is to start from the physical point of view. Antifouling is carried out by macro means such as electrolysis or radiation, or by changing the physical properties of the material surface such as roughness, surface morphology, hydrophobicity, zeta potential, etc.; the other is from a biological point of view, refining various biological Secreted metabolites or enzymes inhibit biofouling. At present, physical methods are still at the exploratory stage, and it is difficult to give theoretical help and guidance for actual operations. For biological methods, such as proteases and glycosyl enzymes have a wide range of antifouling potential, but these antifouling coatings still need more experimental evidence in terms of application, so ideally non-toxic and broad-spectrum Effective antifouling means are yet to be developed.

Contents of the invention

In order to solve at least one of the technical problems of marine antifouling coatings in the prior art, such as environmental protection, low efficiency, and high manufacturing and maintenance costs, the present invention provides a non-toxic biological antifouling coating, including resin base material, varnish, auxiliary agent and curing agent, characterized in that the non-toxic biological antifouling coating also includes fat-soluble luminous powder, and the resin base material has better light transmission.

Preferably, the weight percentage content of each component is 15-40% of resin base material, 1-10% of varnish, 14-36% of auxiliary agent, 1-4% of curing agent and 10-55% of fat-soluble luminous powder.

The pH of the resin base material is neutral or slightly alkaline.

The resin base material is any one of epoxy resin, polyurethane resin, amino varnish, polyester resin, acrylic resin and fluorocarbon resin.

The luminous powder at least includes non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements.

The present invention also provides the preparation method of above-mentioned a kind of non-toxic biological antifouling coating, it is characterized in that, comprises the following steps:

Step (1): Take 15-40% of light-transmitting resin base material, 1-10% of varnish, 14-36% of additives, and 10-55% of fat-soluble luminous powder according to weight percentage;

Step (2): melting the above-mentioned components together to obtain a fusion solution;

Step (3): Fully and evenly stir the fused liquid obtained in step (2), and add 1-4% by weight of curing agent to prepare the non-toxic biological antifouling coating.

Preferably, the pH of the resin base material is neutral or slightly alkaline.

The resin base material at least includes any one of epoxy resin, polyurethane resin, amino varnish, polyester resin, acrylic resin and fluorocarbon resin.

The luminous powder at least includes non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements.

The present invention also provides a method for antifouling treatment of a substrate, characterized in that it comprises the following steps:

Take the non-toxic biological antifouling paint prepared according to the above steps (1) to (3), and evenly apply it to the surface of the substrate to be antifouling;

At room temperature, the surface of the substrate is placed in a dry and dust-free condition for curing for more than 24 hours;

A coating of the non-toxic biological antifouling paint is prepared on the surface of the substrate to complete the antifouling treatment of the substrate.

The antifouling principle of the present invention is mainly to provide ambient lighting around the clock through the luminous material, so as to reduce the adhesion of marine organisms by using the light inhibition effect. Due to the adoption of the above technical scheme, the present invention has the following advantages: 1. The luminous powder used in the present invention is an alkaline earth aluminosilicate excited by rare earth elements, which is non-toxic and non-radiative, so the antifouling coating and its antifouling coating The layer also has the characteristics of non-toxic and non-radiation, which reduces the adverse effects on the environment; 2. The present invention can realize biological antifouling in different degrees and in different environments by changing the specific ratio of luminous powder and resin substrate, etc. Therefore, it can be applied to different types of marine working conditions; 3. The production cost and maintenance cost of the present invention are relatively low.

Description of drawings

Fig. 1 is the flow chart of the preparation method of non-toxic biological antifouling paint of the present invention;

Fig. 2 is a flow chart of the method for antifouling treatment of the substrate according to the present invention.

Detailed ways

The specific implementation manners according to the present invention will be described below in conjunction with the accompanying drawings.

According to a kind of non-toxic bio-antifouling coating of the present invention, comprise resin base material, varnish, assistant and curing agent, described non-toxic bio-anti-fouling coating also comprises fat-soluble luminous powder, and described resin base material has transparent Lightness.

Preferably, the non-toxic bio-antifouling paint, the weight percentage content of each component is: resin base material 15-40%, varnish 1-10%, auxiliary agent 14-36%, curing agent 1-4%, Fat-soluble luminous powder 10-55%.

The pH of the resin base material is neutral or slightly alkaline.

The resin base material is any one of epoxy resin, polyurethane resin, amino varnish, polyester resin, acrylic resin and fluorocarbon resin.

The luminous powder at least includes non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements.

Embodiment 1: according to a kind of nontoxic biological antifouling coating of the present invention, comprise epoxy resin with light transmission, varnish, auxiliary agent, fat-soluble luminous powder, curing agent, each component is respectively by weight percentage: 40% oxygen resin, 10% varnish, 36% additives, 10% luminous powder, 4% curing agent, the luminous powder contains non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements. The non-toxic biological antifouling paint of this embodiment has a good antifouling effect after being placed on the surface of the substrate by the treatment method of the present invention, and can achieve the purpose of the present invention.

Embodiment 2: Another kind of non-toxic bio-antifouling coating of the present invention comprises polyurethane resin with light transmission, varnish, auxiliary agent, fat-soluble luminous powder, curing agent, and each component is respectively by weight percentage: polyurethane resin 38%, varnish 8%, auxiliary agent 30%, luminous powder 20%, curing agent 4%, the luminous powder contains non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements. The non-toxic biological antifouling paint of this embodiment also has a good antifouling effect after being placed on the surface of the substrate by the treatment method of the present invention, and can achieve the purpose of the present invention.

Embodiment 3: another kind of non-toxic biological antifouling coating of the present invention, comprises amino varnish with translucency, varnish, auxiliary agent, fat-soluble luminous powder, curing agent, and each component is respectively by weight percentage: amino varnish 35%, varnish 6%, auxiliary agent 25%, luminous powder 30%, curing agent 4%, the luminous powder contains non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements. The non-toxic biological antifouling paint of this embodiment, after being placed on the surface of the substrate by the treatment method of the present invention, also has a good antifouling effect, and can also achieve the purpose of the present invention.

Embodiment 4: another kind of non-toxic biological antifouling paint of the present invention comprises polyester resin with light transmission, varnish, auxiliary agent, fat-soluble luminous powder, curing agent, and each component is respectively by weight percentage: poly 30% resin, 5% varnish, 21% additives, 40% luminous powder and 4% curing agent. The luminous powder contains non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements. The non-toxic biological antifouling paint of this embodiment also has a good antifouling effect after being placed on the surface of the substrate by the treatment method of the present invention, and can also achieve the purpose of the present invention.

Embodiment 5: another kind of non-toxic biological antifouling paint of the present invention comprises acrylic resin with light transmission, varnish, auxiliary agent, fat-soluble luminous powder, curing agent, and each component is respectively by weight percentage: acrylic resin 25%, varnish 5%, additives 17%, luminous powder 50%, curing agent 3%, the luminous powder contains non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements. The non-toxic biological antifouling paint of this embodiment also has a good antifouling effect after being placed on the surface of the substrate by the treatment method of the present invention, and can also achieve the purpose of the present invention.

Embodiment 6: another kind of non-toxic biological antifouling paint of the present invention, comprises the fluorocarbon resin with translucency, varnish, auxiliary agent, fat-soluble luminous powder, curing agent, and each component is respectively by weight percentage: fluorine 23% of carbon resin, 4% of varnish, 15% of additives, 55% of luminous powder, and 3% of curing agent. The luminous powder contains non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements. The non-toxic biological antifouling paint of this embodiment also has a good antifouling effect after being placed on the surface of the substrate by the treatment method of the present invention, and can also achieve the purpose of the present invention.

The present invention also provides the preparation method of described a kind of nontoxic biological antifouling paint, comprises the following steps:

Step (1): Take 15-40% of light-transmitting resin base material, 1-10% of varnish, 14-36% of additives, and 10-55% of fat-soluble luminous powder according to weight percentage;

Step (2): melting the above-mentioned components together to obtain a fusion solution;

Step (3): Fully and evenly stir the fused solution obtained in step (2), and add 1-4% by weight of curing agent to prepare the non-toxic biological antifouling coating.

The specific process and steps are shown in Figure 1.

Preferably, the pH of the resin base material is neutral or slightly alkaline.

The resin base material at least includes any one of epoxy resin, polyurethane resin, amino varnish, polyester resin, acrylic resin and fluorocarbon resin.

The luminous powder at least includes non-toxic and non-radiative alkaline earth aluminosilicate excited by rare earth elements.

Embodiment 7:

Take 40% of light-transmitting epoxy resin by weight percentage, 10% of varnish, 36% of additives, and 10% of fat-soluble luminous powder; the above-mentioned components are fused together to obtain a fusion solution; fully stir the After the fusion solution is made uniform, 4% curing agent is added to prepare the non-toxic biological antifouling coating. The non-toxic biological antifouling paint has good antifouling effect and can realize the object of the present invention.

Embodiment 8:

Take 38% of light-transmitting polyurethane resin, 8% of varnish, 30% of auxiliary agent, and 20% of fat-soluble luminous powder in percentage by weight; dissolve the above-mentioned components together to obtain a fusion solution; stir well and add 4% curing agent to prepare the non-toxic biological antifouling coating. The non-toxic biological antifouling paint has good antifouling effect and can realize the object of the present invention.

Embodiment 9:

Take 35% of light-transmitting amino varnish, 6% of varnish, 25% of auxiliary agent, and 30% of fat-soluble luminous powder in percentage by weight; melt the above-mentioned components together to obtain a fusion solution; stir well and add 4% curing agent to prepare the non-toxic biological antifouling coating. The non-toxic biological antifouling paint has good antifouling effect and can realize the object of the present invention.

Example 10:

Take 30% of light-transmitting polyester resin, 5% of varnish, 21% of auxiliary agent, and 40% of fat-soluble luminous powder by weight; melt the above-mentioned components together to obtain a fusion solution; after fully stirring Add 4% of curing agent to prepare the non-toxic biological antifouling coating. The non-toxic biological antifouling paint has good antifouling effect and can realize the object of the present invention.

Example 11:

Take 25% of light-transmitting acrylic resin, 5% of varnish, 17% of additives, and 50% of fat-soluble luminous powder by weight; melt the above-mentioned components together to obtain a fusion solution; stir well and add 3% curing agent to prepare the non-toxic biological antifouling coating. The non-toxic biological antifouling paint has good antifouling effect and can realize the object of the present invention.

Example 12:

Take 23% of light-transmitting fluorocarbon resin, 4% of varnish, 15% of auxiliary agent, and 55% of fat-soluble luminous powder in percentage by weight; melt the above-mentioned components together to obtain a fusion solution; after fully stirring Add 3% of curing agent to prepare the non-toxic biological antifouling coating. The non-toxic biological antifouling paint has good antifouling effect and can realize the object of the present invention.

The present invention also provides a method for antifouling treatment of a substrate, characterized in that it comprises the following steps:

Get the non-toxic biological antifouling coating described in embodiment 1-6 that the method described in above-mentioned embodiment 7-12 makes, evenly be coated on the surface of the described base material to be antifouling, for example the shell of ocean warship;

At room temperature, the surface of the substrate is placed in a dry and dust-free condition for curing for more than 24 hours;

A coating of the non-toxic biological antifouling paint is prepared on the surface of the substrate to complete the antifouling treatment of the substrate.

After the marine warships treated in this way are lowered into the ocean, the adhesion of marine organisms can be greatly reduced, and it has a good antifouling effect. Experiment shows, adopt the nontoxic biological antifouling coating described in embodiment 1-6 that above-mentioned embodiment 7-12 of the present invention makes, then adopt the antifouling treatment method of above-mentioned base material of the present invention, to including warship After the marine objects are subjected to antifouling treatment, the effect is very obvious: when the non-toxic biological antifouling coating provided in the above-mentioned embodiment 1 of the present invention is applied and the thickness of the coating is about 1mm, it is different from that without applying the non-toxic biological antifouling coating of the present invention. Compared with poisonous biological antifouling paint, the diatom adhesion rate of warship is reduced to 27%; Compared with applying the non-toxic biological antifouling paint of the present invention, the adhesion rate of diatoms on ships is reduced to 40%.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. For those skilled in the art, the present invention may have various modifications and changes. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included within the protection scope of the present invention.

Claims (7)

1. a nontoxic biological antifouling coating comprises resin binder, varnish, auxiliary agent and solidifying agent is characterized in that, described nontoxic biological antifouling coating also comprises fat-soluble luminescent powder, and described resin binder has light transmission, described luminescent powder is the alkaline-earth aluminosilicate by the non-toxic and non-radioactive of excitation of rare-earth elements, and the content of each weight percentages of components is resin binder 23～40%, varnish 4～10%, auxiliary agent 15～36%, solidifying agent 3～4%, fat-soluble luminescent powder 10～55%.

2. nontoxic biological antifouling coating according to claim 1 is characterized in that, the potential of hydrogen of described resin binder is neutrality or weakly alkaline.

3. nontoxic biological antifouling coating according to claim 2 is characterized in that, described resin binder is any in Resins, epoxy, urethane resin, vibrin, acrylic resin, the fluorocarbon resin.

4. the preparation method of a nontoxic biological antifouling coating is characterized in that, may further comprise the steps:

Step (1): according to weight percent, get 23～40% the resin binder with light transmission, 4～10% varnish, 15～36% auxiliary agent, 10～55% fat-soluble luminescent powder, described luminescent powder are the alkaline-earth aluminosilicate by the non-toxic and non-radioactive of excitation of rare-earth elements;

Step (2): together make fused liquid with above-mentioned each component is fused;

Step (3): the described fused liquid that step (2) is obtained carries out sufficient uniform stirring, and the adding weight percent is 3～4% solidifying agent, makes described nontoxic biological antifouling coating.

5. the preparation method of nontoxic biological antifouling coating according to claim 4 is characterized in that, the potential of hydrogen of described resin binder is neutrality or weakly alkaline.

6. the preparation method of nontoxic biological antifouling coating according to claim 5 is characterized in that, described resin binder comprises any in Resins, epoxy, urethane resin, vibrin, acrylic resin, the fluorocarbon resin at least.

7. the anti-fouling treatment method of a base material is characterized in that, may further comprise the steps:

Get the nontoxic biological antifouling coating claimed in claim 1 that makes according to claim 4, evenly be applied to the surface for the treatment of antifouling described base material;

At room temperature, the surface of described base material is placed under the dry non-dusting condition be cured more than 24 hours;

Make the coating of described nontoxic biological antifouling coating on the surface of described base material, finish the antifouling processing to described base material.

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