JPH0261147A - Non-woven fabric - Google Patents

Abstract

PURPOSE:To provide a nonwoven fabric having excellent water-absorptivity and water evaporativity and suitable for undershirts, infant underwear, etc., comprising a fiber layer composed of a mixture of acrylic fibers and cellulosic fibers. CONSTITUTION:The objective nonwoven fabric comprises a fiber layer composed of a mixture of preferably 20-70% of acrylic fibers and preferably 30-50% of cellulosic fibers (e.g., cotton, rayon or acetate fibers), the acrylic fibers and cellulosic fibers preferably having a fineness of <=1.5d and a fiber length of 10-100mm, respectively.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a nonwoven fabric made of acrylic fibers and cellulose fibers.

[Conventional technology]

Non-woven fabrics made of acrylic fibers (for example,
2421) is used for a variety of purposes, taking advantage of the flexibility, good texture, bulkiness, and excellent dyeability of the fiber itself, and is expected to be used in a wide range of applications in the future. ing.

Recently, there has been an increasing demand for nonwoven fabrics, particularly in the clothing field, especially in the clothing field that comes into direct contact with the skin.

The properties required in this field of clothing are that it should feel soft and smooth when it comes in contact with the skin, be excellent in water absorption and hygroscopicity, and have excellent moisture evaporation properties.

For example, when used as underwear or infant underwear, it has an excellent sweat absorption function, and
Good evaporation of moisture from the garment is an important requirement for comfortable clothing.

[Problem that the invention seeks to solve]

According to the studies of the present inventors, nonwoven fabrics made of conventionally known acrylic fibers (for example, Japanese Patent Publication No. 53-324
Due to the flexibility of the fibers themselves, the nonwoven fabric described in Publication No. 21 is softer and smoother than nonwoven fabrics made of other fiber materials, such as polypropylene fibers or polyester fat fibers, but it does not meet the above-mentioned required characteristics. It turns out that it's not even close.

The present inventors completed the present invention as a result of intensive research aimed at solving the above problems.

[Failure to solve the problem]

The nonwoven fabric of the present invention is a nonwoven fabric comprising a fiber layer in which acrylic fibers and cellulose fibers are mixed.

[Effect]

Hereinafter, the nonwoven fabric of the present invention will be explained in more detail.

The nonwoven fabric of the present invention consists of a fiber layer in which acrylic fibers and cellulose fibers are mixed. The acrylic fiber used in the present invention is Acryloni) IJ Le Kaoru 80.
% by weight (hereinafter, % means weight unless otherwise specified) or more and up to 20% of an ethylenically unsaturated monomer copolymerizable with acrylonitrile. Further, the fiber may be made of a mixture of two or more polymers containing 80% or more of acrylonitrile units as a whole. Here, ethylene monomers copolymerizable with acrylonitrile include methyl acrylate, acrylamide, vinyl chloride, vinylidene chloride, vinyl acetate,
These are conventionally known compounds such as acrylic acid, methacrylic acid, allylsulfonic acid, methallylsulfonic acid, styrenesulfonic acid, or their Na, K + NH4 salts.

The fineness of the acrylic fibers constituting the nonwoven fabric of the present invention is preferably 10 d or less, particularly 1.5 d or less, in order to give the nonwoven fabric flexibility and a smooth feel when in contact with the skin. Further, the length of the fiber is preferably 10 to 100 m, and 1
When the length is shorter than 0 m, the intertwining of fibers with each other decreases, resulting in insufficient strength of the nonwoven fabric. On the other hand, its length is 10
If it exceeds 0, the entanglement of the fibers will be improved, but it will not be possible to mix uniformly with the cellulose fibers, which is not preferable.

Next, the proportion of acrylic fiber in the nonwoven fabric is 20 to 7
It is 0%. If it is less than 20%, the soft and smooth feel of acrylic fibers cannot be obtained, and the strength of the nonwoven fabric becomes low, making it unusable for practical use. Furthermore, since the content of cellulose fibers increases, the evaporation performance of absorbed water also deteriorates, making it impossible to provide comfortable performance to clothing such as underwear. On the other hand, if it exceeds 70%, sufficient water absorption performance cannot be provided.

Next, the cellulose fibers constituting the nonwoven fabric of the present invention are
These include natural fibers such as cotton, recycled fibers such as rayon, penvelve, or acetate, and synthetic fibers. The content of the fiber is 30 to 80%, and if it is less than 30%, the water absorption performance will not be sufficiently exhibited, and if it exceeds 70%, the water absorption performance will increase, but the evaporation of the absorbed water will be poor.

The cellulose fiber of the present invention has K
Since the thinner the filament, the softer and smoother the texture 1 can be obtained, the fiber length is approximately 10 d or less, preferably 1.5 d or less, and the fiber length is preferably 10 to 100 fl. If it is less than 10m, the strength of the nonwoven fabric will be insufficient due to the entanglement of fibers, and if it is less than 100yn
If the length is longer than i, mixing with the acrylic fibers will become uneven.

The nonwoven fabric of the present invention is a nonwoven fabric consisting of a mixed fiber layer of acrylic fibers and cellulose fibers, and the combination of these fibers is very important in achieving the object of the present invention. The major feature is that it is mixed, especially uniformly mixed to form a fiber layer.

A nonwoven fabric made of a fiber layer made of a mixture of these two fibers provides a softer and smoother feel than a nonwoven fabric made of a single fiber layer. The reason for this is not fully understood yet, but according to the research of the present inventors, the difference in Young's modulus between the two fibers facilitates the sliding between the two intertwined fibers. It is thought that there are. This gives a more flexible feel, and in addition to the inherent flexibility of the fiber itself, by using fibers with a finer fineness, it becomes even more flexible, and in addition, it can give a smoother feel. It is something.

Therefore, it is desirable that both fibers be mixed more uniformly. If the fibers are unevenly mixed, or if a large number of fibers are gathered together, the intertwined fibers will not easily slide against each other, resulting in a nonwoven fabric lacking in flexibility.

Next, the cellulose fiber of the present invention has hydrophilic fibers, so it is one of the most suitable fibers for clothing such as underwear, but the absorbed moisture evaporates slowly, which causes a sticky and uncomfortable feeling. This is a major cause of giving. The nonwoven fabric of the present invention makes full use of the excellent water absorption properties of cellulose fibers, while also absorbing moisture. It has been improved to evaporate faster. It has been found that in order to obtain this property, it is essential to combine acrylic fibers.

It is still unclear why a fiber layer made by uniformly mixing cellulose fibers and acrylic fibers evaporates absorbed water faster than cellulose fibers alone. Although it is not clear, it is thought that this may be due to the following reasons. That is,
Acrylic fiber is the most hydrophilic among synthetic fibers.FF1F! However, compared to cellulose fibers, it is hydrophobic and absorbs very little water. Therefore, water absorbed by the acrylic fibers can easily evaporate.

On the other hand, cellulose fibers are highly hydrophilic fibers and absorb a large amount of water, making them suitable for underwear, etc. However, due to their strong hydrophilicity, absorbed water is difficult to evaporate. However, in a nonwoven fabric made of a fiber layer in which side fibers are mixed, water is quickly absorbed by the cellulose fibers, and the water absorbed by the cellulose fibers is absorbed by the relatively hydrophilic acrylic fibers that are intertwined with each other. The water transferred to the fibers quickly evaporates (this action allows the nonwoven fabric of the present invention to have excellent water absorbency as well as excellent water evaporation properties.

The nonwoven fabric of the present invention may be used as a binder to the extent that flexibility is not impaired. Normally, nonwoven fabrics may lack tensile strength only due to the entanglement of fibers, and a binder is used to improve this.

This binder may be a liquid adhesive, but a fibrous binder is preferred. The fibrous binder is preferably heat-meltable polypropylene fiber, polyethylene fiber, polyester fiber, polyamide fiber, or acrylonitrile fiber, and acrylonitrile fiber is particularly preferable because it is similar to the material constituting the nonwoven fabric. .

A specific example of the heat-melting acryl-α-nitrile fiber is composed of 30 to 80% acrylonitrile and 20 to 70% of an ethylene monomer copolymerizable with acrylonitrile.
Reduced viscosity is 0.4~2.0 and melt index is 5~
It is a fiber made of a polymer that is ioo.

If the content of such a binder increases, the tensile strength of the nonwoven fabric will increase, but on the other hand, flexibility and smooth feel will be lost, so it is not preferable to use a large amount. It is preferable to use it in a range of usually 10% or less, preferably 5% or less.

The tensile strength of the nonwoven fabric thus obtained is 2 kl
i+/2.5 cm or more, and its major feature is that there is almost no difference in both the vertical and horizontal directions. The reason for this is that when the two types of fibers are mixed to form a fiber layer, the side fibers are laminated randomly without giving any directionality.

Next, a method for manufacturing the nonwoven fabric of the present invention will be described.

The nonwoven fabric of the present invention is obtained by forming side fibers into a fiber layer by a conventionally known method.

For example, acrylic fibers are cut into lengths of 10 to 100 meters. Similarly, the length of cellulose fibers is adjusted to 10 to 100 rn. These fibers are mixed in a predetermined amount after or simultaneously with opening. The opening method is preferably carried out using a spinning card. The side fibers may be mixed by mixing raw material fibers and spreading the fibers with a card, or by separately opening the fibers and mixing the obtained slivers with a card again. Furthermore, at the same time as opening or after opening separately,
The side fibers may be blown out and mixed with an air stream.

In the case of the card method, a fiber layer is created after mixing thoroughly, but
In the case of the method in which the fibers are blown away by the air flow,
Falling fibers? For example, since a fiber layer is formed by receiving the fibers on a belt conveyor, it is advantageous in that the fibers can be mixed and the fiber layer can be formed in the second step, and a fiber layer without fiber directionality can be obtained. It is. It is preferable that the fibrous binder be mixed at the same time in the above mixing step.

The fiber layer obtained in this way can be used as a nonwoven fabric as it is, but the strength of the nonwoven fabric can also be improved by further intertwining the fibers.

For example, if needle punching or columnar flow punching treatment is performed, the fibers will become entangled with each other and a nonwoven fabric with high strength will be obtained. Further, resin processing can also be performed at this stage. The resin used in this case is not particularly limited as long as it is used for processing nonwoven fabrics. For example, acrylic acid ester resin emulsion can be used.

The present invention will be explained below using examples.

Example acrylnitrile 91%, methyl acrylate 8.5%,
Acrylic fibers made of a copolymer of 0.5% sodium methallylsulfonate and rayon fibers are mixed uniformly while being blown away using an air stream, and deposited on a moving net-like belt conveyor to form a fiber layer. Manufactured continuously. 9/crt for this fiber layer 50? The fibers were entangled three-dimensionally by performing underground water column treatment with a water pressure of G.

The properties of the obtained nonwoven fabric are shown in Table 1.

(Hereafter, extra colors) The properties of the nonwoven fabric were measured by the following method.

Strength: Measured using a tensile tester on a 2.5 cm wide nonwoven fabric.

One end of a water-absorbing nonwoven fabric with a width of 2 clIL was immersed in water, and the water absorption height was measured after 60 minutes.

Water evaporability: 35% water impregnated into nonwoven fabric, 35°C, 65%
After leaving it in a humid environment for 8 hours, the moisture content of the nonwoven fabric was measured.

Patent issued: Asahi Kasei Industries, Ltd.

Claims (1)

[Claims] A nonwoven fabric consisting of a fiber layer that is a mixture of acrylic fibers and cellulose fibers.