CN104790206A - Self-roughened porous meshed super-hydrophobic polyester fabric and preparation method thereof - Google Patents

Abstract

The invention provides a self-roughening porous net-like superhydrophobic polyester fabric and a preparation method thereof. Firstly, pad the fabric with ethanol solution, then pad with the mixed solution of polydimethylsiloxane/polyvinyl chloride in tetrahydrofuran, and dry it at 40°C for 2 hours to obtain a roughened porous network structure on the surface of the fiber. superhydrophobic polyester fabric. The static contact angle of water droplets on the surface of the polyester fabric prepared by the method is greater than 150°, and the superhydrophobic performance of the polyester fabric has good wear resistance and solvent resistance stability.

Description

A self-roughening porous mesh superhydrophobic polyester fabric and its preparation method

【Technical field】

The invention relates to a preparation method of a super-hydrophobic surface, in particular to a self-roughening porous net-like super-hydrophobic polyester fabric and a preparation method thereof.

【Background technique】

In recent years, superhydrophobic surfaces have attracted extensive attention from researchers due to their special wettability. Surface wettability is closely related to many physicochemical processes, such as adsorption, lubrication, adhesion, dispersion, and friction. Surface wettability has important applications in many fields such as catalysis, oil extraction, mineral processing, lubrication, coating, waterproofing and biomedical materials. Therefore, the research and development of materials with special surface wettability is of great significance to expand the application range of materials and improve the application performance of materials.

The preparation methods of traditional superhydrophobic surfaces mainly include: (1) modifying low surface energy substances on rough surfaces; (2) constructing rough structures on the surface of hydrophobic bulk materials. The technical means used mainly include phase separation method, template method (Chinese patent CN 101851069A), nanoparticle loading method, self-assembly method, chemical vapor deposition method (Chinese patent CN101463140A) and the like. Among them, the preparation of superhydrophobic surface by phase separation method has attracted extensive attention due to its advantages of low cost, simple process, and unlimited surface shape and size. At present, most superhydrophobic surfaces prepared by phase separation method are on the surface of hard substrates, and there are few reports on soft substrates such as textiles.

【Content of invention】

The technical problem solved by the present invention is to provide a self-roughening porous network superhydrophobic polyester fabric and its preparation method. The present invention carries out ethanol pretreatment to the polyester fabric, and then pads polydimethylsiloxane/polyvinyl chloride. The coating finishing solution induces phase separation through the mutual exchange of the polymer matrix between the solvent/non-solvent to prepare a self-roughening porous network superhydrophobic polyester fabric. This self-roughening porous network structure itself has good low surface energy properties, and can obtain suitable roughness without adding nanomaterials. Therefore, the obtained polyester fabric has no static contact with water droplets after intense friction and washing. The angle is still greater than 150°, and its superhydrophobic properties have good wear resistance and solvent resistance stability.

To achieve the above object, the present invention adopts the following technical solutions:

A kind of preparation method of self-roughening porous net-like superhydrophobic polyester fabric, padding fabric ethanol solution, then padding polydimethylsiloxane/tetrahydrofuran mixed solution of polyvinyl chloride, drying at 40 ℃, passing The mechanism of exchange-induced phase separation of polymer matrix polydimethylsiloxane/polyvinyl chloride in a mixed system of solvent tetrahydrofuran and non-solvent ethanol produces a porous network rough surface, thereby preparing polyester fabrics with superhydrophobic surfaces.

The mass ratio of polydimethylsiloxane and polyvinyl chloride in the mixed liquid is 10:1-1:1.

The polydimethylsiloxane is obtained by uniformly mixing polydimethylsiloxane and silicone elastomer curing agent at a mass ratio of 8:1-10:1.

A self-roughening porous mesh superhydrophobic polyester fabric prepared based on the above method, the surface contact angle of the fabric is 160.5°-165.7°.

After the fabric is washed, its static contact angle with water drops is 157.6°-160.1°.

After the fabric is rubbed, its static contact angle with water drops is 154°-158.3°.

Compared with the prior art, the present invention has at least the following beneficial effects: the present invention carries out ethanol pretreatment to the polyester fabric, then pads the coating finishing liquid of polydimethylsiloxane/polyvinyl chloride, passes polymer matrix in solvent The phase separation was induced by the mutual exchange between /non-solvent to prepare superhydrophobic polyester fabric with self-roughening porous network. This self-roughening porous network structure itself has good low surface energy properties, and can obtain suitable roughness without adding nanomaterials. Therefore, the obtained polyester fabric has no static contact with water droplets after intense friction and washing. The angle is still greater than 150°, and its superhydrophobic properties have good wear resistance and solvent resistance stability.

【Description of drawings】

Figure 1 is a topographical view of the surface of polyester fabric fibers treated with PDMS/PVC.

【Detailed ways】

The invention pretreats the polyester fabric with ethanol, then pads the polydimethylsiloxane/polyvinyl chloride coating finishing liquid, and induces phase separation through the mutual exchange of the polymer matrix between the solvent/non-solvent to prepare the Features self-roughening porous mesh superhydrophobic polyester fabric. This self-roughening porous network structure itself has good low surface energy properties, and can obtain suitable roughness without adding nanomaterials. Therefore, the obtained polyester fabric has no static contact with water droplets after intense friction and washing. The angle is still greater than 150°, and its superhydrophobic properties have good wear resistance and solvent resistance stability.

The technical scheme adopted in the present invention is:

Firstly pad the fabric with pure ethanol solution, then pad with polydimethylsiloxane/polyvinyl chloride tetrahydrofuran mixed solution, the mass ratio of polydimethylsiloxane to polyvinyl chloride is 10:1-1:1 , the polydimethylsiloxane is obtained by uniformly mixing polydimethylsiloxane PDMS and silicone elastomer curing agent at a mass ratio of 8:1 to 10:1. Finally, it was treated at 40°C for 2h. Through the mechanism of exchange-induced phase separation of the polymer matrix polydimethylsiloxane/polyvinyl chloride in the mixed system of solvent tetrahydrofuran and non-solvent ethanol, a porous network rough surface is produced, as shown in the attached figure. Thereby preparing superhydrophobic polyester fabric. Example 1

Preparation of polyester fabric by phase separation method: first the polyester fabric is padded with ethanol solution (mass fraction 99.7%), then padded in mixed solution A, mixed solution A uses tetrahydrofuran as a solvent, and PDMS and PVC are dissolved in the solvent. Among them, the main agent of PDMS is 0.2g, the curing agent is 0.02g, the PVC is 0.2g, and the tetrahydrofuran is 19.58g. After drying at 40°C for 2 hours, the surface contact angle of the polyester fabric obtained by this method is 165.7°, and the static contact angles of the fabric with water droplets after washing and friction are 160.1° and 158.3° respectively.

Example 2

Prepare polyester fabric by phase separation method: first the polyester fabric is padded with ethanol solution (mass fraction 99.7%), then padded in mixed solution A, mixed solution A is solvent with tetrahydrofuran, and PDMS and PVC are dissolved in this solvent, wherein , the main agent of PDMS is 0.2g, the curing agent is 0.02g, PVC is 0.1g, and tetrahydrofuran is 19.68g. After drying at 40°C for 2 hours, the surface contact angle of the obtained polyester fabric was 163.5°, and after the fabric was subjected to mechanical forces such as washing and friction, its static contact angles with water droplets were 159.6° and 156.4°, respectively.

Example 3

Prepare polyester fabric by phase separation method: first the polyester fabric is padded with ethanol solution (mass fraction 99.7%), then padded in mixed solution A, mixed solution A is solvent with tetrahydrofuran, and PDMS and PVC are dissolved in this solvent, wherein , the main agent of PDMS is 0.2g, the curing agent is 0.025g, PVC is 0.05g, and tetrahydrofuran is 19.725g. After drying at 40°C for 2 hours, the surface contact angle of the obtained polyester fabric was 160.5°, and after the fabric was subjected to mechanical forces such as washing and friction, its static contact angles with water droplets were 157.6° and 154°, respectively.

Example 4

Prepare polyester fabric by phase separation method: first the polyester fabric is padded with ethanol solution (mass fraction 99.7%), then padded in mixed solution A, mixed solution A is solvent with tetrahydrofuran, and PDMS and PVC are dissolved in this solvent, wherein , the main agent of PDMS is 1.0g, the curing agent is 0.1g, PVC is 0.1g, and tetrahydrofuran is 18.8g. After drying at 40°C for 2 hours, the surface contact angle of the obtained polyester fabric was 162.5°, and after the fabric was subjected to mechanical forces such as washing and friction, the static contact angles with water droplets were 159.8° and 157.3°, respectively.

The above is only one embodiment of the present invention, not all or the only embodiment. Any equivalent transformation of the technical solution of the present invention adopted by those of ordinary skill in the art by reading the description of the present invention is the right of the present invention. covered by the requirements.

Claims (6)

1. the preparation method from the super-hydrophobic dacron of roughening holey, it is characterized in that: by textile pad ethanolic solution, then the oxolane mixed solution of dimethyl silicone polymer/polyvinyl chloride is padded, dry at 40 DEG C, occurring to exchange in the mixed system of solvents tetrahydrofurane and non-solvent ethanol by polymeric matrix dimethyl silicone polymer/polyvinyl chloride induces the mechanism be separated to produce holey rough surface, thus prepares super hydrophobic surface dacron.

2. the preparation method of super-hydrophobic dacron as claimed in claim 1, is characterized in that: in described mixed liquor, the mass ratio of dimethyl silicone polymer and polyvinyl chloride is 10:1-1:1.

3. the preparation method of super-hydrophobic dacron as claimed in claim 1, is characterized in that: described dimethyl silicone polymer is dimethyl silicone polymer and elastomer silicone curing agent are obtained by mixing with the ratio uniform that mass ratio is 8: 1 ~ 10: 1.

4. based on according to claim 1 from the super-hydrophobic dacron of roughening holey, it is characterized in that: the surface contact angle of this fabric is 160.5 ° ~ 165.7 °.

5. according to claim 4 from the super-hydrophobic dacron of roughening holey, it is characterized in that: fabric is after washing, and the static contact angle of itself and water droplet is 157.6 ° ~ 160.1 °.

6. according to claim 4 from the super-hydrophobic dacron of roughening holey, it is characterized in that: fabric is after friction, and the static contact angle of itself and water droplet is 154 ° ~ 158.3 °.