KR100839898B1 - Moisture permeable and antibacterial polyurethane resin for fabric coating and process of producing thereof - Google Patents

Abstract

A moisture permeable and antibacterial polyurethane resin compound for the fabric coating and a manufacturing method thereof are provided to use the non-ionic ionomer having the optimum HLB value and an antibacterial agent with a hydrophilic group. A pre-polymer is produced by the reaction of diisocyanate and polyol and filled into a reaction device. Thereafter, the co-polymer type ionomer of alkylarylethylene oxide and alkylarylpropylene oxide is injected and agitated into the reaction device. Thereafter, EG(Ethylene Glycol) and PG(Propylene Glycol) are injected in turn and melted completely. Thereafter, the distilled water is injected and the reaction temperature is raised at 50-60 degrees in centigrade at pH 5.0-6.0 and the agitating speed of the reaction device is maintained by 4,000-5,000 rpm. Thereafter, triclosan as an antibacterial agent is injected and melted completely. Thereafter, the temperature of the reaction device is cooled at 20-30 degrees in centigrade. The polyurethane resin compound consists of the pre-polymer of 80-100 wt%, the co-polymer type ionomer of alkylarylethylene oxide and alkylarylprophylene oxide of 1-30 wt%, EG of 1-10 wt%, PG of 1-10 wt%, the distilled water of 70-100 wt% and triclosan of 1-7 wt%.

Description

Moisture Permeable And Antibacterial Polyurethane Resin for Fabric Coating And Process of Producing Thereof}

1 is a copy of the moisture permeability test report of the fabric coated with the antimicrobial moisture-permeable polyurethane resin composition for textile coating of the present invention.

The present invention relates to an antimicrobial moisture-permeable polyurethane resin composition for textile coating.

Currently, in the textile industry, the development of human-compatible fiber products is progressing in a higher dimension in terms of materials and technology, and the fiber polymer material plays a very important role as a biomaterial and has recently been developed more rapidly. In particular, there is an increasing interest in hygienic textile products used in the human body and surroundings of the human body having cleanliness, comfort, and protection functions to maintain, promote or restore the health of the human body and add comfort to daily life. Up to this point, the chemical products were treated with chemical sanitation, but the demand for technology development to use biomaterials and biotechnologies to use special functional materials as general supplies is increasing.

The development of hygienic processing for textiles requires the application of bio-friendly functional processing technology, and it is expected that the use of effective natural materials is recommended, and new processing technology that uses various antibacterial functional materials in combination is expected to be generalized. As the interest in improving living standards and maintaining health is increasing, there is an urgent need for the development and processing of sanitary fiber materials, which are effective in preventing diseases while maintaining a clean state in daily life.

Hygiene fibers must be breathable to allow the human body to pass sweat. Two methods are used for manufacture of such a moisture-permeable membrane.

(1) Monolithic membranes

It is made of polyurethane, polyether / polyester or other copolymers, which have solid layers which impart protection. These film membranes are made of hard and soft segments in the molecular chain. Because of the different structure of these segments there is a thermoplastic sensitivity between them.

Some degree of semipermeability occurs in this microseparation, which is caused by the difference in relative humidity on the skin and in the atmosphere.

(2) Microporous membranes

 Microporous membranes create comfort by letting the sweat out by the air passing through the fabric at the surface of the skin. Moisture on the surface of the skin passes through microporous pores through gas phase diffusion and convection. These pores have a size of about 0.1 to 0.2 micron, which can release liquid water compared to water vapor, which is estimated to be 0.0004 micron.

Textile products using microporous films currently on the market (Europe, America) do not have antimicrobial protection. That is, the limitation of the hygienic textile products on the market has a problem of the lack of wearing comfort caused by the water vapor is not easily released, the wearer can easily feel sweat or unpleasant. In particular, when used as a garment, moisture and heat should ideally move through the pores of the fabric.

 Conventional waterproof processing for retaining this moisture permeability is a function of completely waterproof by preventing the penetration of rain or water from the outside by coating or laminating the rubber or acrylic resin on the bubble, Since it does not radiate sweat, steam inferiority from the inside, there is always a problem of discomfort when worn because there is no moisture permeability.

In addition, in the textile industry, the importance of antimicrobial activity is highlighted in addition to the moisture permeability, and this antimicrobial property means that antibiotics and the like inhibit the growth of bacteria, and are added to various plastics, papers, fibers, etc. Functional additives having the function of preventing and killing bacteria and molds are called antibacterial agents.

Among these antimicrobials, Korea Patent Application No. 2001-118760, which has already been recognized for its widespread antimicrobial power and harmlessness to the human body, must first accept an insoluble antimicrobial agent in water in order to be easily blended with an aqueous polyurethane. However, the antimicrobial agent of the patent application has a problem that it is very difficult to accept by a general method due to the structure of almost no hydrophilic group.

Accordingly, the present inventors can easily control the nonionic ionomer and HLB having an optimal HLB value and add a hydrophilic group so as to overcome the problems of the prior art to produce a fabric having moisture permeability and antibacterial property by coating or laminating the fabric. It is a technical task to provide a stable antimicrobial moisture-permeable polyurethane resin composition using an antibacterial agent.

Therefore, according to the present invention, after the prepolymer produced by the reaction of diisocyanate and polyol is charged to the reactor, the copolymerized ionomer of alkylaryl ethylene oxide and alkyl aryl propylene oxide is added to the reactor and stirred, followed by ethylene glycol ( EG) and propylene glycol (PG) were added in order to completely dissolve, distilled water was added and the reaction temperature was raised to 50-60 ° C. at pH 5.0-6.0, and the stirring speed of the reactor was maintained at 4,000-5,000 rpm. While the antimicrobial agent triclosan (C1 ₂ H ₇ Cl ₃ O ₂ ) is added and completely dissolved and the reactor temperature is cooled to 20 ~ 30 ℃ provides a manufacturing method of antimicrobial moisture-permeable polyurethane resin composition for coating do.

In addition, according to the present invention there is provided an antimicrobial moisture-permeable polyurethane resin composition for fabric coating, characterized in that produced by the above production method.

Hereinafter, the present invention will be described in more detail.

The present invention relates to an antimicrobial moisture-permeable polyurethane resin composition for fabric coating that can produce a fabric having moisture permeability and antibacterial by coating or laminating the fabric.

The antimicrobial moisture-permeable polyurethane resin composition for textile coating of the present invention is stirred by mixing a polyurethane prepolymer, a copolymerized ionomer of alkylaryl ethylene oxide, and alkylaryl propylene oxide in a reactor, and stirring ethylene glycol (EG) and propylene glycol (PG). It is a polyurethane resin composition in an emulsion state in which a polyurethane resin and triclosan obtained by adding distilled water and then adding trichloroic acid (C1 ₂ H ₇ Cl ₃ O ₂ ) uniformly dispersed after being added sequentially.

The polyurethane prepolymer used in the present invention is a prepolymer produced by the reaction of an excess of diisocyanate with a polyol, and the polyol may use a polyether polyol or a polyester polyol. After the polyurethane prepolymer was charged into the reactor, the copolymerized ionomer of alkylaryl ethylene oxide and alkyl aryl propylene oxide was added to the reactor, followed by stirring. Then, ethylene glycol (EG) and propylene glycol (PG) were sequentially added thereto. Dissolve completely.

In order to prepare the water-dispersible polyurethane resin of the present invention, in order to emulsify the polymerized polyurethane polymer in water, it is preferable to introduce an ionomer having a hydrophilic group and disperse it in water. Therefore, in the present invention, the ionic group is present on the particle surface of the polyurethane polymer by the copolymerized ionomer of the alkylaryl ethylene oxide and the alkyl aryl propylene oxide to stabilize the dispersed particles. The chain extension used to extend the chain of the prepolymer by selecting a copolymerized ionomer (12 to 14 carbon atoms, weight average molecular weight 500 to 550) of an alkylaryl ethylene oxide and an alkyl aryl propylene oxide, which is a nonionic ionomer having an optimal HLB value. It is chemically bonded through zein ethylene glycol (EG) and propylene glycol (PG).

Thereafter, distilled water was added and the reaction temperature was raised to 50 to 60 ° C. at pH 5.0 to 6.0, and then trichloroic acid (C1 ₂ H ₇ Cl ₃ O ₂ ), which is an antimicrobial agent, was added while maintaining the stirring speed of the reactor at 4,000 to 5,000 rpm. After complete dissolution and cooling the reactor temperature to 20 ~ 30 ℃ to prepare an antimicrobial moisture-permeable polyurethane resin composition for textile coating of the present invention. At this time, when the temperature of the reactor exceeds 60 ℃, the hydrophilicity of the ionomer disappears as the temperature rises, and the emulsification capacity decreases when the pH is exceeded. The antibacterial moisture-permeable water-soluble polyurethane resin having excellent emulsion stability through chain extension reaction under the above conditions. Manufacture.

The triclosan is a compound widely used as an antibacterial deodorant as C1 ₂ H ₇ Cl ₃ O ₂ (2,4,4-Trichloro-2hydroxyldiphenyl ether) and has an excellent effect on Gram-positive bacteria, Staphylococcus aureus, and Salmonella, Gram-negative bacteria. It is a compound that is widely used in hygiene products such as toothpaste soap cosmetics or detergents.

The prepolymer is 80 to 100 parts by weight, the copolymerized ionomer of the alkylaryl ethylene oxide and alkylaryl propylene oxide is 10 to 30 parts by weight, ethylene glycol (EG) is 1 to 10 parts by weight, propylene glycol (PG) is 1 ~ It is preferable that 10 weight part, distilled water is 70-100 weight part, and triclosan is 1-7 weight part.

The present invention provides an antimicrobial moisture-permeable water-soluble polyurethane resin for textile coating having excellent emulsion stability. In the case of coating or laminating the water-soluble polyurethane resin of the present invention to form a film on the surface of the fabric, it is given antimicrobial moisture permeability.

Hereinafter, the following examples are given as non-limiting examples of the method for preparing the antimicrobial moisture-permeable polyurethane resin for textile coating of the present invention.

Example 1

After filling the reactor with 90 parts by weight of the prepolymer produced by the reaction of the diisocyanate with the polyether polyol, a copolymerized ionomer of alkylaryl ethylene oxide and alkyl aryl propylene oxide (C12 to 14 MW = 3000) was added to the reactor. After stirring by weight part, ethylene glycol (EG) and propylene glycol (PG) were added in 5 parts by weight in order to dissolve completely, and then 80 parts by weight of distilled water were added and the reaction temperature was raised to 60 ° C. at pH 5.8. While maintaining the stirring speed of the reactor at 4,000 rpm, 5 parts by weight of triclosan (C1 ₂ H ₇ Cl ₃ O ₂ ), an antimicrobial agent, was completely dissolved, and the reactor temperature was cooled to 20 ° C. A water-soluble polyurethane resin having 200 cps and anionic and pH 6.0 ± 1 was prepared.

The prepared water-soluble polyurethane resin was used on a fabric (Nylon fabric warp DTY 15 SD, SDY 50D SD, weft DTY 15 SD, SDY 50D SD Rib tissue paper fabric (width 50 inches, weight 50 g / yd) using a knife coater) After direct coating, it is extruded to an appropriate width and dried .. After drying, the moisture permeability of the fabric is tested by the KS K0594 method, and the fabric exhibits a moisture permeability of 2,200 g / (m 2 · 24h).

Therefore, according to the present invention, it is possible to provide a polyurethane resin composition capable of imparting stable antimicrobial and moisture permeable performance when coated on a fabric.

Claims (5)

After filling the reactor with the prepolymer produced by the reaction of diisocyanate and polyol, a copolymerized ionomer of alkylaryl ethylene oxide and alkyl aryl propylene oxide was added to the reactor, followed by stirring, followed by ethylene glycol (EG) and propylene glycol ( PG) was added in order to completely dissolve, then distilled water was added and the reaction temperature was raised to 50 ~ 60 ℃ at pH 5.0 ~ 6.0, while maintaining the stirring speed of the reactor 4,000 ~ 5,000 rpm triclosan (C1) ₂ H ₇ Cl ₃ O ₂ ) After the complete dissolution and manufacturing method of the antimicrobial moisture-permeable polyurethane resin composition for fabric coating characterized in that the reactor temperature is cooled to 20 ~ 30 ℃. According to claim 1, wherein the prepolymer is 80 to 100 parts by weight, 10 to 30 parts by weight of the copolymerized ionomer of the alkylaryl ethylene oxide and alkylaryl propylene oxide, 1 to 10 parts by weight of ethylene glycol (EG), propylene glycol (PG) is 1 to 10 parts by weight, distilled water is 70 to 100 parts by weight and triclosan is 1 to 7 parts by weight of the antimicrobial moisture-permeable polyurethane resin composition for fabric coating. The method of claim 1, wherein the polyol is a polyether based polyol or a polyester based polyol. The method of claim 1, wherein the copolymerized ionomer of the alkyl aryl ethylene oxide and alkyl aryl propylene oxide has 12 to 14 carbon atoms and the weight average molecular weight of 500 to 5550, the production of antimicrobial moisture-permeable polyurethane resin composition for coating Way. The antimicrobial moisture-permeable polyurethane resin composition for fabric coating, characterized in that produced by the method of any one of claims 1 to 4.

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