CN108949054A - A kind of transparent antibacterial fenestrated membrane - Google Patents

Abstract

The invention proposes a kind of transparent antibacterial fenestrated membranes, are made of fungistatic coating, transparent polyester or polyimide plastic film substrate, acrylic acid adhesive layer and release film and each layer is complex as a whole；Wherein, acrylic coating is pre-formed on the outer surface of the transparent polyester or polyimide plastic film substrate, the fungistatic coating is coated on the outer surface with the acrylic coating of the transparent polyester or polyimide plastic film substrate by bacteria inhibiting composition, is formed by carrying out ultra-violet curing after 50~70 degrees Celsius of solvent flashings of low temperature under high-pressure sodium lamp.In above-mentioned transparent antibacterial fenestrated membrane provided by the invention, fungistatic coating is solidified by ultraviolet light and is solidified without high-temperature baking, avoid the defect of organic bacteriostatic agent thermal stability difference, and the thick fungistatic coating up to 4~12 μm can be formed to provide lasting fungistatic effect, and there is excellent wear-resisting and antifouling effect.

Description

Transparent antibacterial window film

Technical Field

The invention relates to a window film suitable for being adhered to the surface of window glass of a building or window glass of an automobile, in particular to a transparent bacteriostatic window film with a bacteriostatic coating.

Background

Based on the requirements of heat insulation, explosion prevention, ultraviolet protection, fog prevention and the like, window films with various functions, such as heat insulation window films, explosion prevention window films, ultraviolet protection window films, fog prevention window films and the like, are generally adhered on the surfaces of door and window glass of vehicles and buildings. For the interior or indoor environment of a vehicle, once the window film is bred with bacteria, great inconvenience is brought to healthy life, and under normal conditions, general people can not pay attention to the problem that whether the window film has the bacteria or not, so that the breeding of the bacteria on the window film can form a pollution source which is difficult to find, and great pollution hidden trouble is realized. The bacteriostatic coating is coated on the surface of the window film, so that the growth of bacteria on the window film can be inhibited, and the propagation of the bacteria can be effectively prevented.

The common bacteriostatic coating is formed by adding bacteriostatic agent on the basis of common coating and coating the bacteriostatic agent on the surface of a window film for curing. The bacteriostatic agent is used as a functional auxiliary agent to be dispersed in a coating system and exists in the coating after being cured. The bacteriostatic agent can be organic bacteriostatic agent or inorganic bacteriostatic agent. The bacteriostatic agent serving as the functional auxiliary agent has a common defect that the binding force with other components of common coatings is not enough, particularly, inorganic bacteriostatic agents can migrate to the surface of a coating along with the lapse of time, and the bacteriostatic agent is lost by wiping the surface of the coating, so that the bacteriostatic ability is attenuated, and even the bacteriostatic ability is lost.

The organic bacteriostatic agent is divided into two types of organic small-molecular bacteriostatic agents and high-molecular bacteriostatic agents, which are various, and mainly comprises vanillin or ethyl vanillin compounds, acylanilines, imidazoles, thiazoles, isothiazolone derivatives, quaternary ammonium salts, quaternary phosphonium salts, biguanidine compounds, phenols and the like, and also comprises chitin, mustard, castor oil, horseradish and other natural bacteriostatic agents. The organic small molecular bacteriostatic agent is easy to volatilize, has poor chemical stability, poor compatibility with base materials and difficult dispersion in the base materials. Another significant disadvantage of organic bacteriostats is their poor thermal stability and unsuitability for high temperature thermal curing applications.

The inorganic bacteriostatic agent is prepared by fixing metals (or ions thereof) such as silver, copper, zinc and the like on the surface of porous materials such as fluorite, silica gel and the like by utilizing the bacteriostatic ability of the metals such as silver, copper, zinc and the like and corresponding metal ions through methods such as physical adsorption, ion exchange and the like, and then adding the bacteriostatic agent into a coating system, and of course, metal powder such as silver, copper, zinc and the like and corresponding inorganic salt powder can also be directly added into the coating. The bacteriostatic agent is usually used for silver-carrying zeolite, silver-carrying zinc zeolite, etc., and the main bacteriostatic factor is silver ion or silver. The other inorganic bacteriostat, such as nano titanium dioxide, can be directly added into the coating system to play a role in bacteriostasis. The inorganic bacteriostatic agent has the advantages of good heat stability, wide spectrum bacteriostasis, high bacteriostasis efficiency and difficult generation of drug resistance, and can be applied to baking type coatings; the disadvantages are that silver ions or silver is easy to discolor and is not suitable for light-colored paint; the nano titanium dioxide can exert bacteriostatic activity only by illumination, and atomic oxygen decomposed under illumination can decompose coating resin to cause the deterioration of coating performance; another significant drawback is the aforementioned migration to the surface of the coating over time, attenuation of the bacteriostatic ability and even loss of the bacteriostatic ability.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a transparent bacteriostatic window film to reduce or avoid the aforementioned problems.

Specifically, the invention provides a transparent bacteriostatic window film, wherein a bacteriostatic coating is formed by coating a bacteriostatic composition containing an organic bacteriostatic agent on the surface of the window film, the bacteriostatic coating can be cured without high-temperature baking, the defect of poor thermal stability of the organic bacteriostatic agent is avoided, and the formed bacteriostatic coating has a lasting bacteriostatic effect and excellent wear-resistant and anti-fouling effects.

In order to solve the technical problem, the invention provides a transparent antibacterial window film which is composed of an antibacterial coating, a transparent polyester or polyimide plastic film substrate, an acrylic acid adhesive layer and a release film, wherein all the layers are compounded into a whole; the anti-bacterial coating is formed by coating an anti-bacterial composition on the outer side surface of the transparent polyester or polyimide plastic film base material, which is provided with the acrylic coating, and performing ultraviolet curing under a high-pressure mercury lamp after volatilizing a solvent at the low temperature of 50-70 ℃; the antibacterial composition is formed by uniformly mixing the following components at normal temperature, wherein the ratio of each component is as follows: high functional group monomer: 10 to 35 wt%; low functional group monomer: 5-25 wt%; ethyl acetate: 5-15 wt%; butyl acetate: 5-15 wt%; isopropyl alcohol: 5-15 wt%; butanone: 5-10 wt%; photoinitiator (2): 1-5 wt%; leveling agent: 1-3 wt%; wear-resistant auxiliary agent: 0.1-1 wt%; bacteriostatic agent: 1-5 wt%; the sum of the components is 100 wt%; the bacteriostatic agent is a bacteriostatic agent with UV reactive groups, which is sold by three speciality chemical industries, Inc. of Changzhou and is named as ST-382.

preferably, the photoinitiator is an alpha-hydroxy ketone.

Preferably, the high functional monomer is Dipentaerythritol Pentahexaacrylate (DPHA).

Preferably, the low functional monomer is nonylphenol polyoxyethylene ether acrylate.

Preferably, the leveling agent is a BYK-351 leveling agent available from Bick chemical, Germany.

Preferably, the abrasion-resistant additive is a fluorine-containing additive sold by Santa chemical Limited of Hezhou under the name 1203 HY.

Preferably, the acrylic adhesive layer is formed by coating an acrylic adhesive mixture on the surface of a transparent polyester or polyimide plastic film substrate, standing at 90-150 ℃ for 10-150 seconds and then curing, wherein the acrylic adhesive mixture is prepared by mixing, by mass, 4-50: 0.003 to 0.2: 1-15: 2-35 of an acrylic adhesive: curing agent: 4-methyl-2-pentanone: butanone is formed by firstly mixing butanone, 4-methyl-2-pentanone and acrylic acid adhesive at the ambient temperature of 18-28 ℃, stirring for 15-20 minutes, adding curing agent, and stirring for 20-30 minutes, wherein the viscosity of the butanone is 80-300 centipoises; the release film is compounded on the outer surface of the acrylic adhesive layer.

Preferably, the acrylic adhesive is SAA1451 produced by SAN 'AN aerospace Sanwo chemical Co., Ltd, and has a solid content of 40-45% by mass, and the curing agent is SAC11 produced by SAN' AN aerospace Sanwo chemical Co., Ltd, and has a solid content of 60% by mass, or the acrylic adhesive is SAA1401 produced by SAN 'AN aerospace Sanwo chemical Co., Ltd, and has a solid content of 40-45% by mass, and the curing agent is SAC12 produced by SAN' AN aerospace Sanwo chemical Co., Ltd, and has a solid content of 5% by mass.

Preferably, the thickness of the transparent bacteriostatic window film is 79-251 μm, wherein the thickness of the bacteriostatic coating is 4-12 μm; the thickness of the transparent polyester or polyimide plastic film base material is 50-175 mu m; the thickness of the acrylic acid adhesive layer is 6-25 mu m; the thickness of the release film is 19-39 μm.

In the transparent antibacterial window film provided by the invention, the antibacterial coating is cured by ultraviolet light without being baked and cured at high temperature, so that the defect of poor thermal stability of an organic antibacterial agent is overcome, and the formed antibacterial coating has a lasting antibacterial effect and excellent wear-resistant and anti-fouling effects.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein,

fig. 1 shows a schematic view of a transparent bacteriostatic window film according to an embodiment of the invention.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will now be described with reference to the accompanying drawings. Wherein like parts are given like reference numerals. The starting materials used in the examples are, unless otherwise indicated, commercially available commercial products which are commercially available from commercial sources.

As described in the background section, in view of the defect that the conventional bacteriostatic coating is prone to discoloration due to the use of an inorganic bacteriostatic agent, the application of the bacteriostatic coating to a window film is easy to reduce the use appearance, so that the invention provides a transparent bacteriostatic window film with a bacteriostatic composition, wherein the bacteriostatic composition contains an organic bacteriostatic agent, and in order to avoid the defect of poor thermal stability of the organic bacteriostatic agent, the bacteriostatic composition is cured by means of UV irradiation at a lower temperature, so that a bacteriostatic coating with a thickness of 4-12 μm can be formed to provide a lasting bacteriostatic effect, and the bacteriostatic coating has excellent wear resistance and stain resistance.

The transparent bacteriostatic window film is shown in figure 1 and consists of a bacteriostatic coating 1, a transparent polyester or polyimide plastic film substrate 2, an acrylic acid adhesive layer 3 and a release film 4, wherein the layers are compounded into a whole. An acryl coating layer is previously formed on the outer side surface of the transparent polyester or polyimide plastic film substrate 2, and the other side surface (inner side surface) thereof is not provided with the acryl coating layer. The thickness of the transparent bacteriostatic window film is 79-251 mu m, wherein the thickness of the bacteriostatic coating 1 is 4-12 mu m; the thickness of the transparent polyester or polyimide plastic film substrate 2 is 50-175 μm; the thickness of the acrylic acid adhesive layer 3 is 6-25 mu m; the thickness of the release film 4 is 19 to 39 μm.

The thickness of the antibacterial coating 1 of the transparent antibacterial window film can reach 4-12 mu m, which is far more than that of a common coating with the general thickness of 1-2 mu m, so that the defects of full-surface crystal points and unobvious antibacterial effect caused by too thin coating thickness can be avoided. In addition, the transparent polyester or polyimide plastic film substrate 2 of the invention preferably uses a film material with an acrylic coating, for example, a film substrate with a product name of SX185 produced by jiangsu color plastic ltd, and when the surface of the substrate is produced, the acrylic coating is coated on the surface of PET, and the acrylic coating thereon can form a chemical bond with the antibacterial coating 1 of the invention to be firmly combined, so that a coating with a thickness of 4-12 μm can be formed on the surface of the film substrate 2, and the problem that the conventional coating is too thick and is easy to fall off can be overcome.

In a specific embodiment, the bacteriostatic coating 1 is formed by curing the following bacteriostatic composition, wherein the bacteriostatic composition is formed by uniformly mixing the following components at normal temperature, and the mixture ratio of the components is as follows:

the sum of the components is 100 wt%; the bacteriostatic agent is an organic bacteriostatic agent sold by three speciality chemical industries of Hezhou, Inc. under the name of ST-382, and has remarkable antibacterial, antifungal, and anti-yeast effects. The official website of Changzhou three speciality chemical Limited is: http:// www.sunttochemical.com.

in another embodiment, the photoinitiator is α -hydroxy ketone, which can be a photoinitiator produced by BASF-IRGACURE 184 from BASF, germany, and the photoinitiator can be rapidly cured with the bacteriostatic agent under the irradiation of an ultraviolet mercury lamp, so that the organic bacteriostatic agent is prevented from being damaged by high-temperature curing.

Further, the high functional monomer may be dipentaerythritol pentahexaacrylate (e.g., DPHA available from Tokyo Dieyi Chemicals, Inc. under the brand names M-400 or M-402). The low functional monomer may be nonylphenol polyoxyethylene ether acrylate (e.g., M-113 difunctional monomer available from deny-biochemicals ltd, york). The official website of the chemistry ltd, dieai, york, yoyo, york: http:// www.tdz.cn/.

The high-functional group monomer and the low-functional group monomer can be purchased from Dietyoh of east Asia of Zhang Home, wherein the high-functional group monomer is DPHA and the six-functional group monomer has the main functions of: the fullness and the wear resistance are increased, and the shrinkage rate is low; the low functional group monomer is a difunctional monomer and has the main functions of: the curing speed is high, and the adhesion to materials is increased; the coating has high hardness, wear resistance and fullness under the condition of ensuring good adhesive force.

In addition, the leveling agent may be a BYK-351 leveling agent available from Bick chemical company, Germany. For example, various supply information of the BYK-351 leveling agent can be searched by Baidu search, and the supply information can be directly purchased through a website or other sale channels by the technical personnel in the field.

The wear-resistant additive is a fluorine-containing additive which is sold by Santa chemical Limited company of Changzhou (http:// www.sunttochemical.com) and is 1203HY, and has very excellent slipping property, stain resistance and wear resistance. Because the fluorine-containing components in the auxiliary agent can be in cross-linking reaction with the coating, the coating can keep higher wear resistance and stain resistance for a long time.

EXAMPLE 1 preparation of bacteriostatic compositions A-C

formula (I)

The specific formulation is shown in table 1.

TABLE 1

② preparation of

Weighing the components according to the formula of the formula shown in the table 1, putting the components into a container, stirring and mixing the components uniformly at normal temperature to prepare the antibacterial compositions A to C respectively, and packaging the antibacterial compositions A to C.

EXAMPLE 2 preparation of a transparent bacteriostatic Window film

The specific operation is as follows:

(A) preparing the raw materials

firstly, preparing a transparent polyester or polyimide plastic film substrate with the thickness of 50 mu m, such as a film substrate which is produced by Jiangsu double star color plastic Co., Ltd and is named SX185, wherein one side surface of the SX185 film substrate is provided with an acrylic coating when the surface leaves a factory, and the other side is not provided with the acrylic coating, and a release film 4 with the thickness of 19 mu m.

② preparing the bacteriostatic composition A prepared in the example 1.

preparing the mixed material for forming the acrylic adhesive layer 3.

According to the acrylic acid adhesive: curing agent: 4-methyl-2-pentanone: the mass ratio of the butanone is 50: 0.2: 15: 35 preparing the above components.

Wherein the acrylic adhesive is SAA1451 produced by SAN 'AN aerospace Sanwo chemical Co., Ltd, the solid content is 40-45% by mass, the curing agent is SAC11 produced by SAN' AN aerospace Sanwo chemical Co., Ltd, the solid content is 60% by mass, and the 4-methyl-2-pentanone and butanone can be from Changzhou Source chemical Co., Ltd. Or the acrylic adhesive is SAA1401 produced by the three-Watson chemical company of Sian space, the solid content is 40-45% by mass, the curing agent is SAC12 produced by the three-Watson chemical company of Sian space, and the solid content is 5% by mass.

The raw materials can be replaced by equivalent products of different production plants.

At the ambient temperature of 18-28 ℃, butanone, 4-methyl-2-pentanone and acrylic acid adhesive are mixed and stirred for 15-20 minutes, curing agent is added, and stirring is carried out for 20-30 minutes, and the mixture is formed, wherein the viscosity of the mixture is 80-300 centipoises, and the mixture can be stored for later use.

(B) Preparation of transparent antibacterial window film

One side of a transparent polyester or polyimide plastic film substrate 2 with an acrylic coating is used as an outer side surface, after an antibacterial composition A forming the antibacterial coating 1 is coated on the outer side surface, the antibacterial coating 1 is formed by ultraviolet curing under a high-pressure mercury lamp after a solvent is volatilized at a low temperature of 50-70 ℃.

After coating the mixed material forming the acrylic adhesive layer 3 on the other side surface (the inner side surface without the acrylic coating) of the transparent polyester or polyimide plastic film substrate 2, standing at the temperature of 80-130 ℃ for 10-120 seconds, curing to form the acrylic adhesive layer 3, and then compounding the release film 4 on the outer surface of the acrylic adhesive layer 3, thereby obtaining the transparent antibacterial window film (as shown in figure 1) with all layers compounded into a whole.

Wherein the thickness of the bacteriostatic coating 1 is 8 μm; the thickness of the acrylic adhesive layer 3 is 15 μm; the thickness of the transparent bacteriostatic window film is 92 mu m

When the bacteriostatic composition forming the bacteriostatic agent coating layer 1 and the mixed material forming the acrylic adhesive layer 3 are applied, spray coating, knife coating, or comma coating may be used.

EXAMPLE 3 preparation of a transparent bacteriostatic Window film

The specific operation is as follows:

(A) preparing the raw materials

firstly, preparing a transparent polyester or polyimide plastic film substrate with the thickness of 175 mu m, such as a film substrate which is produced by Jiangsu double star color plastic Co., Ltd and is named SX185, wherein one side surface of the SX185 film substrate is provided with an acrylic coating when the surface leaves a factory, and the other side is not provided with the acrylic coating, and a release film 4 with the thickness of 39 mu m.

② preparing the bacteriostatic composition B prepared in the example 1.

preparing the mixed material for forming the acrylic adhesive layer 3.

According to the acrylic acid adhesive: curing agent: 4-methyl-2-pentanone: the mass ratio of the butanone is 4: 0.003: 1:2 preparing the above components.

Wherein the acrylic adhesive is SAA1451 produced by SAN 'AN aerospace Sanwo chemical Co., Ltd, the solid content is 40-45% by mass, the curing agent is SAC11 produced by SAN' AN aerospace Sanwo chemical Co., Ltd, the solid content is 60% by mass, and the 4-methyl-2-pentanone and butanone can be from Changzhou Source chemical Co., Ltd. Or the acrylic adhesive is SAA1401 produced by the three-Watson chemical company of Sian space, the solid content is 40-45% by mass, the curing agent is SAC12 produced by the three-Watson chemical company of Sian space, and the solid content is 5% by mass.

The raw materials can be replaced by equivalent products of different production plants.

At the ambient temperature of 18-28 ℃, butanone, 4-methyl-2-pentanone and acrylic acid adhesive are mixed and stirred for 15-20 minutes, curing agent is added, and stirring is carried out for 20-30 minutes, and the mixture is formed, wherein the viscosity of the mixture is 80-300 centipoises, and the mixture can be stored for later use.

(B) Preparation of transparent antibacterial window film

One side of a transparent polyester or polyimide plastic film substrate 2 with an acrylic coating is used as an outer side surface, after an antibacterial composition B forming an antibacterial agent coating 1 is coated on the outer side surface, the antibacterial agent coating 1 is subjected to ultraviolet curing under a high-pressure mercury lamp after a solvent is volatilized at a low temperature of 50-70 ℃ to form the antibacterial coating 1.

After coating the mixed material forming the acrylic adhesive layer 3 on the other side surface (the inner side surface without the acrylic coating) of the transparent polyester or polyimide plastic film substrate 2, standing at the temperature of 80-150 ℃ for 10-120 seconds, curing to form the acrylic adhesive layer 3, and then compounding the release film 4 on the outer surface of the acrylic adhesive layer 3, thereby obtaining the transparent antibacterial window film (as shown in figure 1) with all layers compounded into a whole.

Wherein the thickness of the bacteriostatic coating 1 is 12 μm; the thickness of the acrylic adhesive layer 3 is 25 μm; the thickness of the transparent bacteriostatic window film is 251 mu m.

When the bacteriostatic composition forming the bacteriostatic agent coating layer 1 and the mixed material forming the acrylic adhesive layer 3 are applied, spray coating, knife coating, or comma coating may be used.

EXAMPLE 4 preparation of a transparent bacteriostatic Window film

The specific operation is as follows:

(A) preparing the raw materials

firstly, preparing a transparent polyester or polyimide plastic film substrate with the thickness of 120 mu m, such as a film substrate which is produced by Jiangsu double star color plastic Co., Ltd and is named SX185, wherein one side surface of the SX185 film substrate is provided with an acrylic coating when the surface leaves a factory, and the other side is not provided with the acrylic coating, and a release film 4 with the thickness of 23 mu m.

② preparing the bacteriostatic composition C prepared in the example 1.

preparing the mixed material for forming the acrylic adhesive layer 3.

According to the acrylic acid adhesive: curing agent: 4-methyl-2-pentanone: the mass ratio of the butanone is 25: 0.1: 8: 20 preparing the above components.

Wherein the acrylic adhesive is SAA1451 produced by SAN 'AN aerospace Sanwo chemical Co., Ltd, the solid content is 40-45% by mass, the curing agent is SAC11 produced by SAN' AN aerospace Sanwo chemical Co., Ltd, the solid content is 60% by mass, and the 4-methyl-2-pentanone and butanone can be from Changzhou Source chemical Co., Ltd. Or the acrylic adhesive is SAA1401 produced by the three-Watson chemical company of Sian space, the solid content is 40-45% by mass, the curing agent is SAC12 produced by the three-Watson chemical company of Sian space, and the solid content is 5% by mass.

The raw materials can be replaced by equivalent products of different production plants.

At the ambient temperature of 18-28 ℃, butanone, 4-methyl-2-pentanone and acrylic acid adhesive are mixed and stirred for 15-20 minutes, curing agent is added, and stirring is carried out for 20-30 minutes, and the mixture is formed, wherein the viscosity of the mixture is 80-300 centipoises, and the mixture can be stored for later use.

(B) Preparation of transparent antibacterial window film

One side of a transparent polyester or polyimide plastic film substrate 2 with an acrylic coating is used as an outer side surface, after an antibacterial composition C forming an antibacterial agent coating 1 is coated on the outer side surface, the antibacterial agent coating 1 is formed by ultraviolet curing under a high-pressure mercury lamp after a solvent is volatilized at a low temperature of 50-70 ℃.

After coating the mixed material forming the acrylic adhesive layer 3 on the other side surface (the inner side surface without the acrylic coating) of the transparent polyester or polyimide plastic film substrate 2, standing at the temperature of 80-130 ℃ for 10-120 seconds, curing to form the acrylic adhesive layer 3, and then compounding the release film 4 on the outer surface of the acrylic adhesive layer 3, thereby obtaining the transparent antibacterial window film (as shown in figure 1) with all layers compounded into a whole.

Wherein the thickness of the bacteriostatic agent coating 1 is 4 μm; the thickness of the acrylic adhesive layer 3 is 6 μm; the thickness of the transparent bacteriostatic window film is 153 μm.

When the bacteriostatic composition forming the bacteriostatic coating 1 and the mixed material forming the acrylic adhesive layer 3 are applied, the spray coating, the knife coating, or the comma coating may be used.

Example 5 detection of Performance of transparent bacteriostatic Window films

The bacteriostatic coatings prepared in examples 2 to 4 were examined by Lambda950 manufactured by Perkinelmer, QUV manufactured by Q-Lab, USA, etc. (see tables 2 to 3).

Table 2: performance index

Adhesion force	Lattice-cutting method 1mm x 1mm NICIBAN adhesive tape	100/100
			Hardness of pencil	Mitsubishi-UNI pencil, 45 degree angle, 500 g load	2-3H
Optical Properties	GBT 29061-2012	By passing
			Weather resistance	QUV 500 hours delta Eab is less than or equal to 3	By passing
Bacteriostatic activity	JIS Z 2801:2000	By passing

The invention has the technical effects that: the test of the bacteriostatic activity of the test article was carried out according to JIS Z2801: 2000< test methods for bacteriostatic processed articles-bacteriostatic test methods for bacteriostatic articles, bacteriostatic effects >5.2 for plastic articles, etc.

TABLE 3 measurement results of the number of bacteria grown on the surface of the sample film

The results of the experiment on the persistence of the bacteriostatic effect are as follows:

the water resistance test method comprises the following steps: antibacterial effect persistence experimental method of antibacterial processed product formulated by Japan antibacterial product technology Association

Light resistance test method: antibacterial effect persistence experimental method of antibacterial processed product formulated by Japan antibacterial product technology Association

It should be appreciated by those of skill in the art that while the present invention has been described in terms of several embodiments, not every embodiment includes only a single embodiment. The description is given for clearness of understanding only, and it is to be understood that all matters in the embodiments are to be interpreted as including technical equivalents which are related to the embodiments and which are combined with each other to illustrate the scope of the present invention.

The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention. Any equivalent alterations, modifications and combinations can be made by those skilled in the art without departing from the spirit and principles of the invention.

Claims (10)

1. A transparent bacteriostatic window film is composed of a bacteriostatic coating (1), a transparent polyester or polyimide plastic film substrate (2), an acrylic adhesive layer (3) and a release film (4), wherein all the layers are compounded into a whole; the transparent polyester or polyimide plastic film is characterized in that an acrylic coating is formed on the outer side surface of the transparent polyester or polyimide plastic film base material (2) in advance; the antibacterial coating (1) is formed by coating the antibacterial composition on the outer side surface of the transparent polyester or polyimide plastic film substrate (2) with the acrylic coating, volatilizing a solvent at the low temperature of 50-70 ℃, and then performing ultraviolet curing under a high-pressure mercury lamp; the antibacterial composition is formed by uniformly mixing the following components at normal temperature, wherein the ratio of each component is as follows: high functional group monomer: 10 to 35 wt%; low functional group monomer: 5-25 wt%; ethyl acetate: 5-15 wt%; butyl acetate: 5-15 wt%; isopropyl alcohol: 5-15 wt%; butanone: 5-10 wt%; photoinitiator (2): 1-5 wt%; leveling agent: 1-3 wt%; wear-resistant auxiliary agent: 0.1-1 wt%; bacteriostatic agent: 1-5 wt%; the sum of the components is 100 wt%; the bacteriostatic agent is a bacteriostatic agent with UV reactive groups, which is sold by three speciality chemical industries, Inc. of Changzhou and is named as ST-382.

2. the window film of claim 1 wherein the photoinitiator is an alpha-hydroxy ketone.

3. The window film of claim 1 wherein the high functional monomer is Dipentaerythritol Pentahexaacrylate (DPHA).

4. The window film of claim 1 wherein the low functional monomer is nonylphenol polyoxyethylene ether acrylate.

5. The window film of claim 1 wherein the leveling agent is BYK-351, a product name of bike chemical, germany.

6. The window film of claim 1 wherein the abrasion resistance aid is a fluorochemical agent sold under the designation 1203HY by santo chemical limited.

7. Window film according to claim 1, characterized in that the thickness of the bacteriostatic coating (1) is 4 to 12 μm.

8. The window film according to claim 1, wherein the acrylic adhesive layer (3) is formed by coating an acrylic adhesive mixture on the surface of the transparent polyester or polyimide plastic film substrate (2) and curing the acrylic adhesive mixture after standing at a temperature of 90-150 ℃ for 10-150 seconds, wherein the acrylic adhesive mixture is prepared by mixing, by mass, 4-50: 0.003 to 0.2: 1-15: 2-35 of an acrylic adhesive: curing agent: 4-methyl-2-pentanone: butanone. At the ambient temperature of 18-28 ℃, mixing butanone, 4-methyl-2-pentanone and acrylic acid adhesive, stirring for 15-20 minutes, adding a curing agent, and stirring for 20-30 minutes to obtain the adhesive, wherein the viscosity of the adhesive is 80-300 centipoises; the release film (4) is compounded on the outer surface of the acrylic adhesive layer (3).

9. The window film according to claim 8, wherein the acrylic adhesive is SAA1451 manufactured by Saan Spaceflight Sanvo chemical Co., Ltd with a solid content of 40% to 45% by mass and the curing agent is SAC11 manufactured by Saan Spaceflight Sanvo chemical Co., Ltd with a solid content of 60% by mass, or the acrylic adhesive is SAA1401 manufactured by Saan Spaceflight Sanvo chemical Co., Ltd with a solid content of 40% to 45% by mass and the curing agent is SAC12 manufactured by Saan Spaceflight Sanvo chemical Co., Ltd with a solid content of 5% by mass.

10. The window film of claim 8, wherein the transparent bacteriostatic window film has a thickness of 79-251 μm, wherein the bacteriostatic coating (1) has a thickness of 4-12 μm; the thickness of the transparent polyester or polyimide plastic film substrate (2) is 50-175 μm; the thickness of the acrylic acid adhesive layer (3) is 6-25 mu m; the thickness of the release film (4) is 19-39 μm.