JPH0610268A - Fiber treating agent composition and treated fiber - Google Patents

Abstract

PURPOSE:To obtain the subject composition consisting of a synthetic resin emulsion and a hydrophilic organic natural powder and capable of providing moisture absorbing and releasing properties rich in durability without impairing the air permeability to a fiber by applying to the fiber. CONSTITUTION:90-99 pts.wt. synthetic resin emulsion, e.g. a silicone resin, a polyurethane resin or a polyacrylic resin, especially preferably an emulsion of an amino-modified silicone capable of forming solid content of the silicone into a film is mixed with 1-10 pts.wt. hydrophilic organic natural fine powder, e.g. collagen for animal protein fine powder having <=7mum particle diameter by a ball mill in a state of water content in a synthetic resin emulsion of >=8 times based on the natural fine powder to provide the objective fiber treating composition having excellent dispersibility. A fiber treated with this composition has a natural raw material-like touch rich in durability and moisture-absorbing and releasing properties without impairing air permeability. The fiber is utilized for clothing as well as synthetic and artificial leather, etc.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a fiber treating composition. In detail, without impairing the breathability of the fiber itself,
The present invention relates to a fiber treatment composition capable of imparting moisture absorbing / releasing properties to a fiber and imparting a natural material feeling thereto or improving them.

[0002]

2. Description of the Related Art Conventionally, in the field of texture processing of various fibers and fabrics, silicone resins, polyurethane resins, polyacrylic resins, and fluorine resins have been used to impart flexibility, elasticity, and wrinkle resistance to materials. It is used. Above all, silicone resin and polyurethane resin are used for ultra-soft processing, which is the mainstream of texture processing. As a silicone resin, amino-modified silicone is excellent in softening effect,
Polyurethane resin is often used because it exhibits super soft feeling, drape property and stretch back property, and polyurethane resin is used for the purpose of imparting volume feeling, repulsion feeling and dry feeling.

However, the amino-modified silicone-based finishing agent has a strong water absorption inhibition property and reduces the sweat absorption of the material. In addition, there are types that have excellent water absorption effects, such as a type with ethylene oxide added and a type with an emulsifier added, but durability cannot be obtained, or good flexibility cannot be obtained due to the influence of the ethylene oxide chain or emulsifier. There are many. In order to further increase durability, some have introduced a methylol group, but since they contain formalin, they are not suitable for materials that come into direct contact with the skin. A general softener is used together with the purpose of compensating for such a decrease in sweat absorption, and a hard finish is used together with the purpose of giving a dry feeling.

[0004]

DISCLOSURE OF THE INVENTION The present invention is to provide a fiber treating agent which is excellent in moisture absorption and desorption and durability and which can impart a dry touch feeling to a fiber material like a natural material.

[0005]

That is, the present invention provides a fiber treatment agent composition comprising a synthetic resin emulsion and a fine powder of a hydrophilic organic natural product, and a fiber treated with the composition.

The synthetic resin emulsion used in the present invention is
Silicone resin, polyurethane resin, polyacrylic resin or fluorine resin emulsion type, or mixed emulsion type of these resins, the silicone resin is amino-modified, especially the solid content of silicon becomes film. A type (general amino-modified silicone is oily) is more preferable, and it is excellent in the powder-falling-preventing property of the hydrophilic organic natural product fine powder, that is, the adhesive force to the fiber and the washing resistance of the fiber.

The hydrophilic organic natural product fine powders are hard proteins and wool such as collagen, elastin, keratin, silk powder and sponge powder for animal protein fine powders and cotton for plant fine powders. Celluloses such as hemp, pulp and seaweed are used. The particle size of these fine powders is 3 μm in standard deviation and the average particle size is 7 μm or less. The average particle size is preferably 4 μm or less, whereby the adhesion to the fiber is improved, and the one having an excellent touch feeling can be obtained. If the average particle size exceeds 7 μm, the adhesion to the fiber is reduced and a rough feeling occurs, which is not preferable. The color of the natural protein fine powder preferably has an average particle size of 5
In the case of a fine powder of μm, the whiteness is 70% or more.
Even with the same fine powder, the whiteness varies depending on the size of the average particle size. The coloring of the fine powder itself impairs the whiteness of the fiber or fabric.

As the fiber treating agent composition, 90 to 99 parts by weight of a synthetic resin emulsion and 1 to 10 parts by weight of a fine powder of a hydrophilic organic natural product are used, for example, by stirring and dispersing with a ball mill. . As the synthetic resin emulsion, an emulsion composed of a water component whose weight is 8 times or more the weight of the hydrophilic organic natural product fine powder is used. If the water component is 8 times or less, the hydrophilic organic natural product fine powder absorbs water and swells, and an emulsion cannot be obtained when the two components are mixed. The mixing of these two components only under ordinary stirring is not sufficient because the fine powder is not well dispersed, aggregates of the fine powder are generated, and the fine powder is likely to fall off.
However, those obtained by treating the two components with a ball mill are excellent in dispersibility of the fine powder, and when pressure is applied to the fine powder, the synthetic resin component permeates or adheres to the fine powder. Property is promoted and the adhesion to the fiber is further improved. Further, by treating with a ball mill, the hydrophilic organic natural product fine powder as a raw material becomes finer, leading to an improvement in texture.

The fiber treatment composition thus obtained is applied to the fiber or the woven fabric by the pad method, the spray method or the like, and then subjected to the drying step.

The drying temperature is above 80 ° C and below 160 ° C,
It is preferably 100 ° C. or higher and 120 ° C. or lower. When the hydrophilic organic natural product is in a water-containing state and has a high drying temperature, hydrolysis is promoted, which gives off an offensive odor or causes a color change. If the drying temperature is too low, the drying time will be long and the workability will be reduced.

[0011]

EXAMPLES The present invention will be described in more detail with reference to Examples and Comparative Examples. (Example 1) Silicon AMZ is used as an emulsion type of amino-modified silicone resin in which solid content is formed into a film.
(Synthetic resin component 13%, manufactured by Nika Kagaku) 100 g of water 24
To an emulsion solution obtained by adding 7 g and diluting, 13 g of collagen fine powder having an average particle size of 5 μm was added, and this mixture was ball-milled (made by Seishin Enterprise Co., Ltd. planetary ball-mill).
Was used for 10 minutes at a rotation speed of 150 rpm. 27g of nylon stocking material,
This ball-milled mixture was impregnated and the mangle with a roll-to-roll pressure of 1 kg / cm ² (wet between two rolls, one of which was a metal roll and the other of which was a rubber roll) Was inserted and the excess treating agent was removed through a squeezing machine that squeezes out water (pad method). As a result, the amount of the treatment agent coated on the stocking material was 36 g (solid content 2.6 g). Put the obtained stocking material in a dryer,
It was dried at 120 ° C. for 5 minutes.

(Examples 2 to 17 and Comparative Examples 1 to 10) The stocking material was treated in the same manner as in Example 1 for the other Examples and Comparative Examples. The contents of these are shown in Tables 1 and 2. In Example 3, instead of the impregnation treatment by the pad method of Example 1, by spraying,
Spray coating was performed to such an extent that the treatment agent did not drip (spray method). The amount of treatment applied was 36 g. Other synthetic resin emulsions used in the examples are described below. Amino-modified silicone resin SM8702: (manufactured by Toray Dow Corning Silicone) Amino-unmodified silicone resin SH8710:
(Toray Dow Corning Silicone) Polyurethane resin Superflex E2000:
(Manufactured by Dai-ichi Kogyo Seiyaku Co., Ltd.) Acrylic resin VINYBRAN 1225: (manufactured by Nisshin Chemical Co., Ltd.) Fluorine-based resin NK GARD FG-270 (manufactured by NISSA CHEMICAL CO., LTD.) Polyester / Polyurethane resin Evaphanol N-
20: (Nichika Chemical)

[0013]

[Table 1]

[0014]

[Table 2]

The stocking materials obtained in the above Examples and Comparative Examples were evaluated and the results are shown in Table 3. Among the evaluation items, the dispersibility of the treatment agent is determined by filtering the treatment agent with a 200-mesh filter.
The amount of residual powder above was evaluated. Adhesion was evaluated by how much the treated sample was strongly repelled with a finger on black paper, and how much the powder fell off. The touch was determined based on the sensory evaluation of 10 people, with a natural feel of material as a dry feel and the unique texture of silicone as a slimy feel. The judgment values were 5 (very good), 4 (somewhat good), 3 (normal), 2 (somewhat bad), and 1 (pretty bad) in order of goodness. For moisture absorption and desorption,
40 ° C, 90% RH (hygroscopic condition) and 23 ° C, 30% RH
Each was performed under (moisture releasing conditions), and the evaluation made the blank be 3.

[0016]

[Table 3]

According to Table 3, the general examples (1, 3,
5-9, 11-17), very good results were obtained. However, Example 2 in which normal stirring was performed
In Example 4, the adhesiveness and touch were slightly inferior, and the average particle size of the fine powder was large.
In Example 10 in which the drying temperature was high, the color change was slightly inferior, but good results were obtained.
On the other hand, the one in which the hydrophilic organic natural product fine powder was not used (Comparative Example 1) or the one in which no fiber treatment agent composition was used (Comparative Example 2) had an average particle size of fine powder. Too large (Comparative Examples 3 and 4), synthetic resin emulsion with low water content (Comparative Example 6), after treating the fiber,
Those whose drying temperature was too high or too low (Comparative Examples 7-1)
No good results were obtained for 0). However,
The amount of fine powder which was too large (Comparative Example 5) was slightly good, but the amount was ineffective.

[0018]

EFFECTS OF THE INVENTION The fiber treatment composition of the present invention has high adhesiveness to fibers and imparts a dry touch feeling and moisture absorption / release property to the fibers themselves. Moreover, the breathability of the fiber or fabric is not impaired. High adhesiveness to fibers means durability, and moisture absorption / release is equal to sweat absorption and sweat release. Therefore, in addition to clothing, it can be used for leather products such as PVC, synthetic leather, artificial leather, base fabric, automobile interior materials,
It can be widely used for stockings.

Continuation of front page (51) Int.Cl. ⁵ Identification code Internal reference number FI Technical display location D06N 3/14 102 7141-4F // D06M 23/08 7199-3B D06M 21/00 Z

Claims (5)

[Claims] 1. A fiber treatment composition comprising a synthetic resin emulsion and a fine powder of a hydrophilic organic natural product. 2. A hydrophilic organic natural product comprising 90 to 99 parts by weight of a synthetic resin emulsion and 1 to 10 parts by weight of a fine powder of a hydrophilic organic natural product, wherein the water content in the synthetic resin emulsion is 7 μm or less in average particle size. The fiber treatment agent composition according to claim 1, wherein the weight of the fine powder is 8 times or more, and the mixing of both is performed by a ball mill. 3. The fiber treatment composition according to claim 1, wherein the synthetic resin emulsion is either a silicone resin emulsion or a polyurethane resin emulsion. 4. A fiber treated with the fiber treatment composition according to claim 1. 5. The fiber according to claim 4, which is treated at a drying temperature of 80 to 160 ° C. after the fiber treating agent composition is attached to the fiber.