RU2603734C1 - Method of producing polymer coating on surface of cotton fabric - Google Patents

Abstract

FIELD: textile.

SUBSTANCE: invention relates to a method of producing on surface of cotton fabric polymer coatings with hydrophobic properties, which can be used as protective, water-, dirt-repellant coatings. Technical result is achieved in a method of producing polymer coating on surface of cotton fabric, which involves treatment of fabric by dipping in solution of applied compound under normal conditions and subsequent heat treatment at 140 °C, Treatment of cotton fabric is performed for 30 minutes with 0.5-3 % solution of a copolymer of glycidyl methacrylate and hexyl methacrylate in methyl ethyl ketone, obtained beforehand, in molar ratio of monomer links glycidyl methacrylate: hexyl methacrylate, equal to 9-7:1-3.

EFFECT: high hydrophobic properties of cotton fabric.

1 cl, 9 ex, 2 tbl

Description

The invention relates to a method for producing polymer coatings having hydrophobic properties on the surface of cotton fabric, which can be used as protective, water-, and dirt-repellent coatings.

Known methods of water-repellent treatment for fabric (Patent CN 103882691, D06M 11/13, D06M 11/38, D06M 13/188, 05/14/2014). According to the first method, the fabric is treated in 3 stages with compositions containing polyvinyl alcohol, epoxy resin, polyacrylic acid, trimethylammonium chloride dodecyl sulfate, silicone, etc. The second method involves treating the fabric surface with a thin layer of special glue, drying at temperature and further curing using an isocyanate hardener.

The disadvantage of these methods is the need for a hardware base. Processing a large number of reagents leads to a deterioration in the physico-mechanical properties of the tissue.

A known method of producing a waterproof breathable fabric (Patent RU 2526379 C2, IPC D06M 11/74, D06M 11/73, D06C 7/02, 05/11/2011). According to the method, the first side of the fabric is covered with a waterproof breathable membrane, while one side of the membrane is left open. A processing agent is applied to the coated fabric and the treated fabric is thermofixed. The processing agent may contain one or more hydrophobic and oleophobic compounds. The invention provides protection of the fabric from contamination on a water and oil basis.

The disadvantages of this method is the difficulty of manufacturing and the high cost of membranes and hydrophobizing agents (fluorocarbon) used for application to the surface of the fabric. It should be noted that the modifier is fixed by the physical method using a heat setting device.

The closest technical solution to the claimed is a method of obtaining a protective hydrophobic and oleophobic coating on a textile material (Patent RU 2394956 C1, IPC D06M 13/408, D06M 15/353, C08F 220/24, D06M 15/347, 12/9/2008). The method includes treating the material with a solution of a fluorine-containing compound and then removing the solvent. As a fluorine-containing compound, 2,2,3,3,4,4,5,5,6,6,6,7,7,7-tridecafluoro-N- [3- (triethoxysilyl) propyl] heptanamide, structural formula CF _{3, is used} - (CF ₂ ) ₅ -C (O) -HN- (CH ₂ ) ₃ -Si (OC ₂ H ₅ ) ₃ . After removing the solvent, it is possible to carry out additional fixation of the water repellent by treatment with hot air or by calendaring.

The disadvantage of this method is the high cost and complexity of the synthesis of a hydrophobic agent. When working with silane, crosslinking of the latter is possible even with a small water content in the solution. Modification in a supercritical carbon dioxide environment requires a special laboratory setup.

The objective of the invention is to develop an effective method for producing a grafted polymer coating on the surface of cotton fabric.

The technical result is to increase the hydrophobicity of cotton fabric.

The technical result is achieved in a method for producing a polymer coating on the surface of a cotton fabric, including processing the fabric by the window method in a solution of the applied compound under normal conditions and subsequent heat treatment at 140 ° C, while processing the cotton fabric for 30 minutes with a 0.5-3% solution the previously obtained copolymer of glycidyl methacrylate and hexyl methacrylate in methyl ethyl ketone, with a molar ratio of glyceryl methacrylate: hexyl methacrylate monomer units equal to 9-7: 1-3.

The essence of the method is to obtain a polymer coating on the surface of cotton fabric by grafting to it polymer chains of copolymers of glycidyl methacrylate (GMA) and hexyl methacrylate (HCM) with a ratio of monomeric units of glycidyl methacrylate: hexyl methacrylate equal to 9-7: 1-3. Moreover, in the structure of the copolymers there are epoxy groups capable of interacting with hydroxo groups on the surface of cotton fabric.

Next, the surface of the cotton fabric is treated with a solution of the obtained copolymer in methyl ethyl ketone for 20 minutes and further heat treatment at 140 ° C. Under the influence of temperature, the oxirane rings partially open and the copolymer is covalently fixed on the surface of the cotton fabric.

The main advantage of this vaccination method compared to other methods is that the pre-synthesized copolymer can be characterized by traditional chemical and physical methods. In addition, this method of vaccination is less complicated from a chemical point of view and seems more technological.

The composition of the synthesized glycidyl methacrylate and hexyl methacrylate copolymers was confirmed by elemental analysis. The obtained elemental analysis data are in good agreement with the theoretical content of carbon and hydrogen in the corresponding copolymers.

The results of experimental studies are presented in table 1.

The synthesized copolymers are characterized by a low molecular weight along with a narrow molecular weight distribution, which allows us to study the properties of grafted polymers depending on the composition of the copolymer.

The obtained grafted polymer coatings based on copolymers of GMA and HCM have hydrophobic properties. The hydrophobic properties of the polymer coating on the surface of the cotton fabric were evaluated by the wetting angle. The results of the study are presented in table 2.

The obtained grafted polymer coating on fabrics with multi-dimensional fiber roughness provides its water-repellent properties and allows to achieve the effect of superhydrophobicity. It can be seen from the table that all samples of cotton fabric processed with the GMA and HCM copolymer possess superhydrophobic properties; it is typical to achieve contact angles of up to 162 ° with increasing concentration.

A method of obtaining a polymer coating is as follows: the synthesis of copolymers with molar ratios of GMA: GKM equal to 9-7: 1-3 was carried out in methyl ethyl ketone (IEC) at 70 ° C for 24 hours. Azobisisobutyronitrile was used as an initiator. The polymer was placed in ice-cold diethyl ether, filtered on a Bunsen flask and dried under reduced pressure for 24 hours. Next, the surface of the cotton fabric was treated with solutions of 0.5-3% of the obtained copolymers in methyl ethyl ketone for 20 minutes and further heat treatment at 140 ° C.

Example 1. The synthesis of a copolymer of GMA and HCM with a molar ratio of 9: 1 was carried out in IEC at 70 ° C for 24 hours. Azobisisobutyronitrile initiator (0.0043 g; 0.026 mmol) was dissolved in 6.5 ml of methyl ethyl ketone, then it was purged with argon for 20 minutes and GMA (1 ml, 7.03 mmol) and HCM (0.157 ml; 0.78) were added with stirring. mmol). The resulting reaction mixture was kept at 70 ° C for 24 hours. The polymer was placed in ice-cold diethyl ether, filtered on a Bunsen flask and dried under reduced pressure for 24 hours.

Samples of cotton fabric were treated by a percussion method with a 0.5% solution of the obtained copolymer in methyl ethyl ketone. After 30 minutes, the sample was removed and thermostated at 140 ° C for 20 minutes. Samples were washed in IEC, dried at 80 ° C.

Example 2. The method is carried out analogously to example 1 using a 1.5% solution of the obtained copolymer in methyl ethyl ketone.

Example 3. The method is carried out analogously to example 1 using a 3% solution of the obtained copolymer in methyl ethyl ketone.

Example 4. The method is carried out analogously to example 1 with a molar ratio of GMA and GKM monomers equal to 8: 2. Used 7.3 ml of methyl ethyl ketone, 0.0047 g (0.029 mmol) of azobisisobutyronitrile, 1 ml (7.03 mmol) of GMA, 0.354 ml (1.78 mmol) of HCM.

Samples of cotton fabric were treated by a percussion method with a 0.5% solution of the obtained copolymer in methyl ethyl ketone. After 30 minutes, the sample was removed and thermostated at 140 ° C for 20 minutes. Samples were washed in IEC, dried at 80 ° C.

Example 5. The method is carried out analogously to example 4 using a 1.5% solution of the obtained copolymer in methyl ethyl ketone.

Example 6. The method is carried out analogously to example 4 using a 3% solution of the obtained copolymer in methyl ethyl ketone.

Example 7. The method is carried out analogously to example 1 with a molar ratio of GMA and HCM monomers equal to 7: 3. Used 8.4 ml of methyl ethyl ketone, 0.0054 g (0.033 mmol) of azobisisobutyronitrile, 1 ml (7.03 mmol) of GMA, 0.607 ml (3 mmol) of HCM.

Samples of cotton fabric were treated by a percussion method with a 0.5% solution of the obtained copolymer in methyl ethyl ketone. After 30 minutes, the sample was removed and thermostated at 140 ° C for 20 minutes. Samples were washed in IEC, dried at 80 ° C.

Example 8. The method is carried out analogously to example 7 using a 1.5% solution of the obtained copolymer in methyl ethyl ketone.

Example 9. The method is carried out analogously to example 7 using a 3% solution of the obtained copolymer in methyl ethyl ketone.

Thus, the proposed method for producing a polymer coating on the surface of a cotton fabric due to the formation of a grafted polymer coating from a copolymer of glycidyl methacrylate and hexyl methacrylate makes it possible to impart superhydrophobic properties to the cotton fabric.

Claims (1)

A method of obtaining a polymer coating on the surface of a cotton fabric, including processing the fabric by the window method in a solution of the applied compound under normal conditions and subsequent heat treatment at 140 ° C, characterized in that the processing of the cotton fabric is carried out for 30 minutes with a 0.5-3% solution of the previously obtained a copolymer of glycidyl methacrylate and hexyl methacrylate in methyl ethyl ketone, with a molar ratio of glyceryl methacrylate: hexyl methacrylate monomer units equal to 9-7: 1-3.