KR100455784B1 - A moist peameable and water-proof fabric with excellent resistance of dye migration - Google Patents

Abstract

The present invention relates to a moisture-permeable waterproof fabric having excellent dyefastness and fastness, and an adhesive film layer (2) mainly composed of linear water-dispersible polyurethane on the polyester fabric (1) and a surface film layer mainly composed of reticulated water-dispersible polyurethane. (3) is characterized in that the coating or laminating in sequence. The moisture-permeable waterproof fabric of the present invention does not use an organic solvent in the process of coating or laminating the film layers, so it is excellent in color fastness to fastness of 3 or more and also good in touch, washing and friction durability.

Description

A moist peameable and water-proof fabric with excellent resistance of dye migration}

The present invention relates to a moisture-permeable waterproof fabric having excellent properties for preventing contamination due to migration of dyes (hereinafter referred to as "fastness to dye transfer"). Moisture-proof waterproof fabric is used as a fabric for clothing worn during intense exercise under relatively harsh weather conditions, such as sportswear, mountaineering clothes and skiwear. Therefore, the moisture-permeable waterproof fabric not only blocks raindrops during rainfall, but also maintains body temperature in clothing in low temperature environments, and maintains the temperature in clothing by releasing sweat emitted from the body in high temperature environments following intense exercise. The function which can always express a comfortable wearing feeling is calculated | required.

As a conventional technique for manufacturing a moisture-permeable waterproof fabric, a microporous or hydrophilic non-porous polyurethane membrane is directly coated on one side of the fabric by a dry method or a wet method as in Japanese Patent Laid-Open No. 63-230337 and Japanese Patent Laid-Open No. 2-47058. Forming or laminating is widely used.

Specifically, the wet coating method forms a polyurethane film layer having fine pores by coating a resin prepared by mixing polyurethane and dimethylformamide, which is an organic solvent, to a predetermined thickness on a fabric, and then passing it through water. It is a method to have moisture permeability and water resistance at the same time.

In the dry coating method, a resin prepared by dissolving a polyurethane in a highly volatile organic solvent such as methyl ethyl ketone, toluene, acetone, isopropyl alcohol, etc. is coated on a fabric to a predetermined thickness, and then heated to volatilize the volatile organic solvent. By forming a homogeneous polyurethane film layer to have moisture permeability and water resistance at the same time.

Since the wet method and the dry method are applied directly to the fabric with a polyurethane resin solution, the resin solution may penetrate into the fabric and the product feels hard. There is a limit in expressing the functions such as moisture permeability and water resistance. Have. Therefore, in recent years, a laminating method, which is a method of manufacturing a film having a moisture-permeable waterproof function and then combining it with a fabric by using an adhesive, has been applied to the production of a moisture-permeable waterproof fabric.

The resin prepared by dissolving polyurethane in a highly volatile organic solvent such as methyl ethyl ketone, toluene, acetone, isopropyl alcohol, etc. was coated on a smooth sheet (paper, film, fabric, etc.) to a certain thickness and then heat treated. Volatilize the volatile organic solvent to form a homogeneous polyurethane film, and then uniformly apply the adhesive resin prepared by mixing the polyurethane adhesive component with the organic solvent and the isocyanate curing agent with a knife or uniformly using gravure After coating, it blends with the fabric and matures to give a soft fabric feel while having moisture permeability and water resistance at the same time.

The conventional manufacturing method of the conventional moisture-permeable waterproof fabric is basically a volatile organic chemicals by heat treatment during the work process by using a volatile organic solvent such as dimethylformamide, toluene, methyl ethyl ketone, acetone, isopropyl alcohol ( Volatile Organic Chemicals) are released into the atmosphere, causing serious air pollution, and in the course of work, these substances pose a risk of human injury, explosion and fire accidents.

In addition, the organic solvent described above may be desalted by dissolving dye molecules in the fabric, and the desalted dye molecules may be transferred to a coating layer or moved to adjacent fabrics that are patched to contaminate or discolor them. This dyeing phenomenon is a reality that the coating of the polyester fabric is very limited because the dye occurs prominently in the coating process of the polyester fabric dyeing with a disperse dye that does not form a chemical bond with the fiber.

An object of the present invention is to provide a moisture-permeable waterproof fabric comprising the main component of the water-permeable waterproof film layer resin is coated or laminated on the fabric to the water-dispersible polyurethane resin to solve the problems of the prior art.

The present invention is to provide a moisture-permeable waterproof fabric formed with a water-permeable waterproof film layer using water instead of an organic solvent on the polyester fabric in order to solve the conventional problems. To this end, the present invention uses a water-dispersible polyurethane resin as a main component of the moisture-permeable waterproof film layer. In addition, the present invention is to provide a moisture-permeable waterproof fabric having excellent moisture permeability and water resistance, in particular, excellent touch and dye fastness.

1 is a schematic cross-sectional view of the present invention breathable waterproof fabric.

※ Explanation of the main parts of the drawings

Reference Signs List 1 polyester fabric 2 adhesive film layer 3 surface film layer

The moisture-permeable waterproof fabric having excellent dyefastness and fastness of the present invention for achieving the above-mentioned problems is composed of an adhesive film layer (2) having a linear water-dispersible polyurethane as a main component and a mesh-type water-dispersible polyurethane on a polyester fabric (1). Surface film layer 3 is characterized in that the coating or laminating sequentially.

Hereinafter, the present invention will be described in detail.

First, the present invention coats or laminates a resin composition containing linear water-dispersible polyurethane as a main component on a polyester fabric 1 to form an adhesive film layer 2. The linear water-dispersible polyurethane has 5 to 50 ethylene oxide units in the molecular chain, and contains 1 to 10% by weight of the carboxyl ammonium salt, ammonium sulfate salt or a complex thereof as an ionic functional group, and a total molecular weight of 1,000 It is preferable to use an oligomeric state of ˜10,000.

The polyethylene oxide units in the linear water dispersible polyurethane serve to express the hydrophilicity of the film and the ionic functionality determines the dispersibility in water. When the number of polyethylene oxide is too small, the hydrophilic performance of the polymer may be lowered, so that the final product may not express moisture permeability, and when too large, the mechanical properties of the film layer may be reduced. In addition, when the ionic functional group is too small, it does not become water-dispersed, and when too large, the hydrolysis resistance is poor and mechanical properties may be degraded.

The resin composition (I) for forming the adhesive film layer 2 mainly composed of a linear water dispersible polyurethane has 5 to 20 parts by weight of water and 2 to 10 parts by weight of a water dispersible isocyanate crosslinking agent based on 100 parts by weight of the linear water dispersible polyurethane resin. It is good to make it by wealth. As a specific example, the resin composition (I) is uniformly coated on a water-repellent polyester fabric in a conventional floating coating method so as to have a coating amount of 10 to 200 g / m 2 and then dried at 100 to 150 ° C. for 1 to 5 minutes. The process may be repeated once to three times to form an adhesive film 2 on the polyester fabric 1.

Next, the surface film layer 3 is formed on the adhesive film layer 2 by coating or laminating a resin composition (II) having a mesh-shaped water dispersible polyurethane as a main component. It is preferable to use the network-shaped water-dispersible polyurethane of the network structure whose molecular weight between a crosslinking point is 500-10,000, and whose total molecular weight is 5,000-500,000.

The reticulated water-dispersible polyurethane resin crosslinks with the water-dispersible isocyanate-based crosslinking agent to achieve strong adhesion with the fabric and to form a uniform non-porous film layer to express water resistance, and the polyethylene oxide portion of the molecular chain has hydrophilic performance. Therefore, make it breathable. In addition, since it has a network structure in itself, it maintains a stable dispersion state in water, and when coated, forms a strong film and has excellent hydrolysis resistance to serve to protect the adhesive film layer (2).

The resin composition (II) for forming the surface film layer 3 mainly composed of the reticulated water-dispersible polyurethane resin includes 5 to 20 parts by weight of water and a water-dispersible isocyanate-based crosslinking agent based on 100 parts by weight of the reticulated water-dispersible polyurethane resin. It is preferable to make it into 0.5-5.0 weight part. The method of forming the surface film layer 3 on the adhesive film layer 2 may be the same as the method of forming the adhesive film layer 2 on the polyester fabric 1 as described above.

The moisture-permeable waterproof fabric of the present invention prepared by the method described above does not use a volatile organic solvent, and thus does not generate air pollution during the coating process.

Because polyester fabric is dyed with disperse dye, when coating or laminating with existing organic solvent type resin, organic solvent in resin dissolves and extracts disperse dye in fabric and dye transfers to film layer. . In this process, the dye that is transferred to the film layer during processing becomes more severe as time passes, and the dye is transferred to adjacent fabrics that are laminated and sewn, thereby changing color or generating stains. So polyester fabrics were very limited in coating or laminating. However, when the water-dispersible polyurethane is used as in the present invention, the basic constituent of the resin is water, which does not cause dissolution extraction of the disperse dyes, thereby significantly reducing the migration contamination of the dye.

Polyurethane resin used in the formation of the adhesive film layer 2 in the present invention is a low molecular weight linear water-dispersible polyurethane and the cross-linking agent is a raw material because it is mixed with the water-dispersible isocyanate crosslinking agent and then coated to proceed the curing reaction in the drying process And cross-linking between the polyurethane molecules and the strong adhesion is expressed. In addition, a crosslinking reaction occurs between polyurethane molecules to form a firm film. As a result, it is possible to control the feel of the film film by appropriately adjusting the content of the crosslinking agent.

On the other hand, the polyurethane resin used to form the surface film layer (3) itself is a network structure having a cross-linking can maintain a stable state in water and excellent surface durability of the final product and uniform.

The moisture-permeable waterproof fabric produced according to the present invention has a water pressure of 2,000 to 10,000 mmH ₂ O (ISO 811 method), a moisture permeability of 3,000 to 10,000 g / m 2 24 hr, and a degree of dye transfer fastness of 3 or more.

In the present invention, the physical properties of the fabric were evaluated by the following method.

Water pressure : evaluated by ISO 811 method.

Water vapor permeability : evaluated by ASTM E 96 (B method, Inverted Cup) method.

Adhesion : measured by ASTM D 751 method.

Dyeing fastness : Take the test piece in 15 × 15cm, overlap the normal polyurethane coated white polyester fabric with the coated surface so as to touch each other, and leave it at 90 ℃ for 1 hour while applying pressure at a weight of 5kg. The degree of contamination on the coated surface of the fabric is determined by means of a gray scale reference table. (Very pollution: Class 1, No pollution: Class 5)

• Feel : evaluated by sensory test method of 10 experts. If more than 8 experts are judged to be soft ◎ Grade, if 5 to 7 experts judge to be soft ○ Class and if less than 4 experts are judged to be soft, they were divided into △ grade.

Hereinafter, the present invention will be described in more detail with reference to Examples and Comparative Examples. However, the present invention is not limited only to the following examples.

Example 1

Forming an adhesive film layer 2 having 20 polyethylene oxide units, containing 5% by weight of ammonium sulfate functional group, and having a linear water-dispersible polyurethane resin having a total molecular weight of 5,000 as a main component, as shown in the composition (A) below. The resin composition (I) was coated on a water-repellent polyester fabric with a floating knife (coated amount: 40 g / m 2), and then dried twice at 150 ° C. for 2 minutes to bond the polyester composition on the polyester fabric 1. The film layer 2 is formed.

Composition (A)-

The linear water dispersible polyurethane resin: 100 parts by weight

Water: 15 parts by weight

Water dispersible isocyanate crosslinking agent: 7 parts by weight

Next, a resin composition (II) having a molecular weight between the crosslinking points of 5,000 and a total molecular weight of 30,000 as a main component and composed of the composition (B) below is floated on the adhesive film layer (2). After coating with a knife (coating amount: 20g / ㎡) and dried for 2 minutes at 150 ℃ to form a surface film layer (3) to prepare a moisture-permeable waterproof fabric.

Composition B

The mesh type water dispersible polyurethane resin: 100 parts by weight

Water: 10 parts by weight

Water Dispersible Silicone: 0.5 parts by weight

The results of evaluating various physical properties of the prepared moisture-permeable waterproof fabric are shown in Table 1.

Example 2

A moisture-permeable waterproof fabric is manufactured in the same process and conditions as in Example 1 except that the coating and drying process is performed only once when the adhesive film layer 2 is formed. The results of evaluating various physical properties of the prepared moisture-permeable waterproof fabric are shown in Table 1.

Example 3

A water-permeable waterproof fabric with the same process and conditions as in Example 1 except that a linear water-dispersible urethane resin was used, wherein the linear water-dispersible urethane resin containing 30 ethylene oxide units, containing 5% by weight of ammonium sulfate functional groups and a total molecular weight of 10,000 was used. To prepare. The results of evaluating various physical properties of the prepared moisture-permeable waterproof fabric are shown in Table 1.

Comparative Example 1

Resin composition (100 parts by weight of polyurethane resin, 15 parts by weight of toluene, 7 parts by weight of crosslinking agent) mainly containing a conventional organic solvent-type hydrophilic polyurethane is coated with a floating knife on a water repellent polyester fabric (coating amount: 60 g / M 2) and then dried at 150 ° C. for 2 minutes to prepare a moisture-permeable waterproof fabric. The results of evaluating various physical properties of the prepared moisture-permeable waterproof fabric are shown in Table 1.

Fabric Property Evaluation Results division Water pressure (mmH ₂ O) Permeability (60g / ㎡24hrs) Adhesive force (g / cm) Dye color fastness touch Example 1 4,000 5,600 500 Grade 4 ○ Example 2 3,000 8,000 500 Class 3.5 ◎ 3 to implementation 7,000 8,000 700 Grade 4 ○ Comparative Example 1 7,000 800 450 2nd class △

The moisture-permeable waterproof fabric of the present invention does not use an organic solvent when forming a film, thereby improving operational stability and solving environmental pollution problems. In addition, the composition of the moisture-permeable waterproof film layer during coating does not penetrate deeply into the polyester fabric, so the touch is excellent. In addition, the moisture-permeable waterproof fabric of the present invention has excellent moisture permeability and water resistance, and at the same time solves the dye migration problem due to the organic solvent, it is excellent in dyeing fastness.

Claims (4)

On the polyester fabric 1, the adhesive film layer 2 mainly composed of linear water-dispersible polyurethane and the surface film layer 3 mainly composed of reticulated water-dispersible polyurethane are coated or laminated sequentially. Breathable waterproof fabric with excellent dye fastness. The method of claim 1, wherein the linear water-dispersible polyurethane has 5 to 50 ethylene oxide units in the molecular chain, containing 1 to 10% by weight of the carboxyl ammonium salt, ammonium sulfate salt or a complex thereof as the ionic functional group, Excellent moisture permeability and waterproof fabric, characterized in that the oligomer state of the total molecular weight 1,000 ~ 10,000. The moisture-permeable waterproof fabric according to claim 1, wherein the network-type water dispersible polyurethane has a network structure having a molecular weight of 500 to 10,000 between the crosslinking points and a total molecular weight of 5,000 to 500,000. The moisture-permeable waterproof fabric according to claim 1, wherein the dye-proof fastness of the moisture-permeable waterproof fabric is not less than 3 grade, the water pressure is 2,000-10,000 mmH ₂ O, and the moisture-permeability is 3,000-10,000 g / m ₂ 24hr.