JP3777573B2 - Wool with excellent physical properties - Google Patents

Description

【００４１】
【実験例２】
実験例２は各種ウールの消臭特性を測定した。
＜試料材料＞
ウール加工綿
ウール加工糸
但し加工は実験例１と同様に実施したもの
【００４２】
＜調査方法＞
ホルムアルデヒド消臭について、三菱レイヨン試験法に基づき、ホルムアルデヒドの消臭率を求めた。
・試料 : １ｇ
・ 初期濃度 : ３５ｐｐｍ
・ ガス量 : ５００ｍｌ
・ 放置時間 : １時間
【００４３】
＜調査結果＞
【００４４】
【表２】

【００４５】
上記ホルムアルデヒド消臭調査結果により、加工綿及び加工糸とも消臭率９５％以上を示し、優れた消臭効果を示す。
【００４６】
【実験例３】
実験例３は各種ウールのピリング試験の結果を示す。
＜試験材料＞
ウール製天竺編 ＴＳＴ６８３２
実験例１の加工品をニットあみしたもの
【００４７】
＜測定方法＞
ＪＩＳ Ｌ １０７６ Ａ法 ＩＣＩ型法 ５時間
＜測定結果＞
【００４８】
【表３】

【００４９】
【実験例４】
実験例４はアンモニアガスの消臭性について、各種ウールについてその特性を測定した。
＜試験材料＞
Ｎｏ．１ : 未加工品
Ｎｏ．２ : ウール綿加工品
Ｎｏ．３ : 加工後洗濯したもの
但し、上記各Ｎｏ．１〜Ｎｏ．３の材料は以下のものである
Ｎｏ．１ : 実験例１の原毛と同じもの
Ｎｏ．２ : 実験例１と同じ加工品
Ｎｏ．３ : 実験例１と同じ加工品を湯洗い後、６５℃×１５分で中性洗剤（１％濃度）を使用してドライ洗濯したもの
【００５０】
＜測定方法＞
ユニチカガーメンテック（株）のバック法で行う。
【００５１】
＜測定結果＞
【００５２】
【表４】

【００５３】
【実験例５】
実験例５は各種ウールについて、ＪＩＳ−Ｌ−０８４２、同−０８４４及び同−０８４９に基ずく各種測定を行ったものである。
＜試験材料＞
Ｎｏ．１ : 実験例１の原毛、未加工と同じ
Ｎｏ．２ : 実験例１の原毛、未加工品と同じ
【００５４】
＜測定結果＞
【００５５】
【表５】

【表６】

【００５６】
【実験例６】
実験例６は、編地とこれを用いて作ったセータについて、夫々その耐洗濯性寸法変化率を測定したものである。
【００５７】
＜試験材料＞
Ｎｏ．１ : 編み地（半製品）
Ｎｏ．２ : セーター
但しＮｏ．１は中国産カシミヤ綿（輸入品）を実験例１と同じ加工を施したものであり、またＮｏ．２は上記Ｎｏ．１の編み地を用いてセーターとしたものである。
【００５８】
＜測定結果＞
【００５９】
【表７】

【表８】

【００６０】
【実験例７】
６種類のウールについて、その耐光堅牢度を測定した。この例では、その測定を専門の検査所に依頼したものである。
＜試験材料＞
（い）実験例１と同じ加工手段により加工後、インスタントコーヒー、をＯ．Ｗ．Ｆ．２０％で６０分間ボイルしたもの（参考資料１）
（ろ）実験例１と同じ加工手段により加工後、インド茜をＯ．Ｗ．Ｆ．２０％で６０分間ボイルしたもの（参考資料２）
（は）実験例１と同じ加工手段により加工後、緑茶エキスパウダーをＯ．Ｗ．Ｆ．２０％で６０分間ボイルしたもの（参考資料３）
（に）実験例１と同じ加工手段により加工後、クルミをＯ．Ｗ．Ｆ．２０％で６０分間ボイルしたもの（参考資料４）
（ほ）実験例１と同じ加工手段により加工後、コガネバナをＯ．Ｗ．Ｆ．２０％で６０分間ボイルしたもの（参考資料５）
（へ）実験例１と同じ加工手段により加工後、６０℃で１５分洗い加工したもの。但し洗剤は合成洗剤「テキサトンＮ」（Ｏ．Ｗ．Ｆ．１５％）（参考資料６）
＜測定方法処理結果＞
添付の試験測定証明書の通り（参考資料１〜６）
【００３９】
【図面の簡単な説明】
【図１】 図１はウールの構造を拡大して模示的に示した説明図である。（イ）〜（ニ）の構造から成っている。
【図２】 図２はウール構造の断面模式図である。
【図３】 図３はスケール構造の断面摸式図である。
【図４】 図４は本発明ウールの一例の電子顕微鏡写真である。
【符号の説明】
イ・・・ＣＭＣ部位
ロ・・・エピ・クチクル層
ハ・・・エキソ・クチクル層
ニ・・・エンド・クチクル層
ホ・・・サブ・クチクル層
ヘ・・・フィブリル
ト・・・細胞間接着剤
チ・・・皮質部〜コルテックス[Industrial application fields]
The present invention relates to a modified wool and a process for producing the modified wool.
As is well known, the multi-functionality of wool is the king of all fibers, but has the disadvantage that it cannot be easily washed at home. An object of the present invention is to provide a shrink-proof wool that can be easily washed in a washing machine at home.
[0002]
[Prior art]
The existing woolen wool is aimed at a non-shrinkable wool that can be washed at home, and it is common to remove the shrinking felting scale existing on the surface of the wool. For woolen wool, emphasis is placed on bulkiness and texture. Rather, it focuses on processing characterized by thickness, bulkiness, and surface fluffing due to shrinkage processing utilizing the felting structure of the scale. For shrink-proofing of practically used wool, scale removal processing (commonly known as Croy processing) by strong alkali treatment, polymer resin film coating processing (eg, Hercosett processing) on the outermost surface of the scale, physical scale set processing, chlorine There are enzyme processing including treatment, etc., all of which are methods of melting, peeling, rubbing, compressing, or coating the uneven surface between the scales of the wool, so that any method can damage the wool surface It greatly reduces the excellent fiber physical properties of wool, such as water repellency, breathing function and deodorization function, moisture absorption, water absorption, moisture retention, elasticity (high bulk), crimp (crinkle), and non-charging (antifouling property).
[0003]
[Problems to be solved by the invention]
It is an object of the present invention to provide a wool having not only washing resistance but also various other physical properties.
[0004]
[Means for Solving the Problems]
The present invention has been made to solve the above problems, and this problem is solved by employing the following means. That is, the wool is pretreated at room temperature for a short time using wool, water, and a penetrant (preferably deaerating). Then firstly preferably a large amount of acidic solvent such oxidizing agent solution, then hypochlorite solvent traces, followed by successively a large amount of pyrophosphate solvent are charged at appropriate intervals. At this time, each solvent is at room temperature or a safe low temperature range. During this treatment, an ionization treatment is performed by heating and immersing a mixed solution of an acidic solvent and a chlorine solvent in an appropriate bath at an appropriate low temperature. More preferably, the treated wool is thoroughly washed, heated to boiling, and boiled for a short time to completely remove odorous pollutants (including harmful chlorine-based organic substances) inside the wool.
[0005]
[Action]
(1) According to the modified wool production method of the present invention, the treatment solution penetrates into the fiber structure of all animal fibers, and is deposited or fixed, and modified to have various excellent physical properties. To do. Among animal fibers, raw wool (regardless of breed, region, age, male and female) is made from, for example, Australia, New Zealand, Soviet Union, South America, China, India, Pakistan, Turkey, Argentina, UK, etc. Animal hair), ie, mohair, llama, guanaco, biicuna, cashmere, camel, angora, cow hair, chinchilla, etc. are all subject to the present invention.
[0006]
(2) The fineness of the wool can be adjusted by appropriately adjusting the processing conditions (temperature, time) in the range of ultrafine 10 microns to very thick 45 microns.
[0007]
(3) The present invention can also be applied to raw wool with fat, washed charcoal-treated wool, wool washed with a natural detergent or synthetic detergent, and the like.
[0008]
(4) Wool raw wool (including Scud hair wash), top fleece (for spinning, woolen spinning), yarn (spun, woolen spun yarn, air spinning yarn, single yarn and twisted yarn), fabric (knitting, weaving, and Nonwoven fabrics) and semi-finished products can also be applied as appropriate.
[0009]
The processing of the present invention will be described in detail below.
The present invention is basically a one-bath one-stage method, and the pretreatment is usually performed by immersing wool, water and a penetrant in an over-pressure dyeing machine at normal pressure, but the bath ratio of wool to water is 1:10. -12, and penetrant is used in an amount of about 0.3 to 1%, preferably about 0.5% by weight based on the total weight of the wool. The treatment is performed at a low temperature for a short time, preferably about 10 minutes at room temperature. As the penetrant in this case, those that have been used normally are used. For example, air can be exemplified, and a deaerator is particularly preferable.
[0010]
Next, the treatment is performed at normal temperature or low temperature, with appropriate intervals, and the respective solvents are successively added successively. First, (A) an acidic solvent is charged. As an acidic solvent in this case, a representative example is an oxidizing substance, more specifically, an aqueous solution of hydrogen peroxide, and a concentration thereof is preferably 35% hydrogen peroxide. At this time, other acidic solvents can be used, and two or more kinds may be used in combination as required. In some cases, a part of the acidic solvent may be divided and used at the end. The acidic solvent is basically used in a large amount, and the amount used is adjusted according to the fineness of the wool. Usually, it is about 10 to 30% by weight, preferably about 15 to 20% by weight, based on the total weight of the wool. The immersion time is about 30 to 720 minutes, preferably about 60 to 90 minutes.
[0011]
Subsequently, (B) hypochlorite solvent is added at an appropriate interval, usually at an interval of 1 to 5 minutes. In this case, the hypochlorite can be exemplified by its alkali metal salt, and sodium salt is particularly preferred. The amount used is also appropriately adjusted according to the fineness of the wool, but is usually 1 to 5% by weight, preferably 3 to 5%, particularly 2 to 4% by weight of the total weight of the wool. At this point, the pH is maintained at around 7 (there is a slight sign of chlorine gas generation, and it is preferable to add the solvent as soon as possible).
[0012]
In the treatment of the (C) pyrophosphate solvent in the present invention, 5 to 20, preferably 10 to 15 and particularly 10% (large amount) of the total weight of the wool is charged depending on the fineness. In this case, an alkali metal salt , particularly preferably a sodium salt thereof is used as the pyrophosphate . The solvent is mainly used for food additives, has a gentle reaction to protein, and can be used in large quantities. The solvent passes through each part (CMC site, each cuticle membrane) in the scale structure of the wool and penetrates deeply into every corner to the intercellular adhesion layer in the cortex (cortex) and each fibrous protein tissue part. Deposit. At this point, the pH is maintained around 9. Here, generation of chlorine gas is completely prevented.
[0013]
Heating in the process of the present invention is performed in a safe low temperature range between 25 ° C and 70 ° C. The standard is 50 to 70 minutes at 50 to 60 ° C., and a safe and reliable temperature and time are determined according to the wool fineness. In addition, the wool completed in the above treatment process is thoroughly washed with water, boiled and boiled for about 5 minutes, and completely removes odorous pollutants (including harmful organic chlorine compounds) inside the fiber. It can also be removed.
[0014]
The processing of the present invention will be described in detail as follows.
In the pretreatment of the present invention, a penetrant, usually a deaerating penetrant, is added to wool and water, and air in the wool fibers is completely extracted. This is a necessary step so that each solvent and wool react uniformly during the subsequent main treatment.
[0015]
In the subsequent treatment, first, (A) a large amount of the first acidic solvent is introduced, but at this point, bubbles start to be generated and adhere to the wool. However, wool is resistant to acid, and in this treatment state, the whole wool is softly modified and its whiteness is increased.
[0016]
Next, (B) a small amount of hypochlorite solvent is introduced at an appropriate interval, and this small amount of solvent has a relatively weak reaction with the protein composition part of the wool, It penetrates and swells from the CMC part of the scale groove, and penetrates into the inner cortex (cortex).
However, the generation of bubbles is slightly increased immediately after the addition of the solvent, and there may be signs of the generation of chlorine gas. It is preferable to add the next solvent without much interval.
[0017]
(C) It is particularly preferable to quickly add a large amount of pyrophosphate solvent as described in (b) above. This solvent has a very gentle reaction to wool, and has a function of softly penetrating deep into the bottom of each scale layer and cortex. At the same time, the alkaline solvent is charged with an acidic solvent (including the next charged acidic solvent). ) Strongly neutralizes and decomposes, and completely suppresses the generation of chlorine gas.
Originally, if a chlorine-based solvent is added to an acidic solvent, harmful chlorine gas is generated, so it is a treatment method that is not generally used. Since it is prevented from occurring, it is completely safe and harmless.
[0018]
The mixed solvent intensifies the mutual reaction at once, further energizing the bubble generation, proceeding with neutralization and decomposition, and the newly generated mixed aqueous solution is composed of the CMC site (scale opening / closing tissue) and the tip of the scale. Act on the part. The newly generated aqueous solution thereafter slowly permeates, deposits, and adheres within the cortex, and at the same time increases the whiteness, flexibility, and bulkiness of the wool, thereby enhancing various functions (performance).
[0019]
In other words, all the solvents used in the present invention gently change each component of the wool, and have a function of accurately changing without damaging the protein tissue, and while neutralizing and decomposing other solvents, A treatment solution is produced, and the treatment solution is modified into a wool structure having a more powerful function and performance. Furthermore, the pre-treatment of wool with water and a penetrant is an immersion treatment method of a minimum time of about 5 minutes at room temperature, and the subsequent main treatment is sequentially good at a tempo, and the continuous introduction of each solvent can be completed in about 10 minutes in total. As a whole, the processing time is extremely short, and there is a great advantage of the so-called haste processing method. Further, the temperature in the processing machine is kept at a normal temperature or a low temperature range, and is extremely safe.
[0020]
Generally, when wool is soaked in water, it swells wetly, the scale tip rises, and the scale has structural features that randomly felt the fiber population in the direction of its roots by vibration and friction. Even if the finished wool is vibrated and rubbed in water, the wool fibers are only softly entangled in a fine bundle, and they do not shrink and felt like a ball in the conventional way.
[0021]
In addition, each product obtained from the treated wool according to the present invention, such as cotton, yarn, fabric, etc., is a fiber in soft washing by a washing machine at home (net putting, wool detergent, low temperature, washing with a weak water flow or dry washing). It does not shrink and does not stiff without causing a felting phenomenon between groups, and the bulkiness and fluffiness are not changed much. Further, the treated wool of the present invention improves sharpness, flexibility, gloss, whiteness (whiteness increases with time and does not turn yellow), light fastness, and other effects.
[0022]
The cortex of the wool is strongly dyed and fixed to all dyes (cationic dyes, acid dyes, reactive dyes, natural plant dyes) and various substances, for example, acquired for less than 5th grade for 40 hours (Japan) Light fastness (with a test certificate from the Foundation for Hair Products Inspection) can be obtained, and, like conventional cotton, it is possible to produce colorful and solid color dyeing and print printing.
[0023]
In addition, the wool of the present invention has whiteness and transparency that shines pale in black light, and has characteristics that are not found in conventional wool.
[0024]
When dyed wool treated by the conventional method is treated by the treatment method of the present invention, odorous harmful pollutants remaining in the cortex (for example, hydrogen sulfide, acetic acid, formaldehyde, ammonia, nitrogen dioxide, potassium dichromate, etc.) In particular, it is possible to easily remove excess substances that are not ion-bonded and in a free state, and as a result, they completely correspond to the ECO-WOOL product, resulting in a safe and clean modified wool product.
[0025]
According to the treatment of the present invention, the total weight (specific gravity) of the wool is further reduced, the air holding amount is increased, and the air permeability and heat retention are further improved, so that a wool product that is light, cool in summer and warm in winter can be obtained.
[0026]
Although the wool of the present invention is not completely elucidated as its structure at present, it is presumed that it is as follows. That, scaly scale section CMC sites opened (membrane錯合bodies, b of FIG. 1), standing, up the scale tip outwardly and fixed remains open, and hollowing a part of the cell membrane Since the original scale closing and lodging mechanism disappears, the structure remains open and upright.
[0027]
According to the process of the present invention, in the scale structure, one of the exo layer (C in FIG. 3), the end layer (d in FIG. 3), the end layer (d in FIG. 3), and the CMC part (b in FIG. 3) contracted in the root direction. Since the part is appropriately softened, dissolved or hollowed out, the felting combined action due to its continuous action does not work, and the directional friction effect (DEF) between the scale fibers, that is, the difference in surface friction coefficient is reduced or eliminated, It is presumed that a mechanism for a non-shrinkable non-shrinkable wool structure will be completed.
[0028]
Since the treatment of the present invention softens, dissolves or cavitates a part of the intercellular adhesive (G in FIG. 2) in the cortex (cortex), it easily penetrates various conventionally difficult substances. Thus, it is considered that it has a structure in which amino acids are bonded and dye-fixed, and high dyeing light fastness is obtained.
[0029]
Water vapor (gas) enters from the outermost skin part of the scale with pores (epi / cuticle layer), becomes water droplets, moves to each layer, and this is the CMC part (the film-like substance in the scale structure that joins the cortex) , Exo-layer, end-layer, sub-layer (almost all cuticle cell membranes), etc., penetrate through the fine cell-membrane complex and penetrate into the cortex (and vice versa). Since the part is softened, dissolved, or hollowed out to form a complex porous structure, performance superior to that of conventional wool can be obtained.
[0030]
FIG. 1 is an explanatory diagram schematically showing the structure of wool in an enlarged manner, and is composed of the structures (a) to (d).
[0031]
Fig. 2 is a cross-sectional view of the wool structure. (I) to (d) mean the same as Fig. 1, (e) sub-cuticle layer, (f) fibril, and (g) intercellular adhesion. The agent, (h) is the cortical part to the cortex part.
[0032]
FIG. 3 is a schematic cross-sectional view of a scale structure, and (a) to (e) indicate the same as FIG. 1 and FIG. However, in FIG. 1, (S) is a layer with high supercrystallinity in the epicuticle layer, and (h) is a layer with high crystallinity in the end-cuticle layer.
[0033]
The wool of the present invention is a wool having the property that the entanglement between the single fibers of the wool wool is very strong, but the entanglement between two or more fibers is weak as the number increases.
[0034]
The present invention can be applied to the raw wool of woolen wool and the top of woolen wool, and a broken-cut product of the top can also be applied. The application products of the present invention are as follows.
[0035]
(A) Ball (grain) cotton and non-woven fabric cotton are manufactured by trimming the processed wool raw wool and special processing.
(B) The cotton can be molded into various shapes, or non-woven processed with a card, needle punching machine, etc. to produce solids, non-woven fabrics, resin cotton, solid cotton, etc., carpet linings, futons -Filling blankets, pads, pillows, cushions, clothing interlinings, shoulder pads, insoles of shoes, ventilation fan filters, and insect repellents as deodorants, antibacterials, and deodorants.
[0036]
(C) Processed wool yarns, fabrics, and finished products are available in ultra-fine to very thick micron wool, 1st to 48th woolen woolly wool, or single yarn or two or more twisted yarns Carpets, mats, futons, blankets, sheets, cushions, covers, curtains, cushions, chair upholstery, table ties, ties, mufflers, including 100% genuine wool blended with other fibers, woven and knitted products・ Scarves, shawls, handkerchiefs, towels, walls, ceilings, flooring (cross), satellite masks, organizing napkins, shirts, pants, tights, bras, diaper covers, underwear, nightclothes, men's and women's clothing (up and down) Coats, jackets, kimonos, aprons, socks, hats, ties, belts, handbags, sweaters, stomachbands, mufflers, stuffed toys, cloth toys, etc. Moreover, carpeting is Uiruton made, tufts made, Keiami Mayer made of cut pile, loop pile, plain weave, etc., the wool by made entirely pile includes steel parts piles, blankets such weaving, seals, Taft (woolen , Woolly weft, warp yarn # 2 to 48th wool single yarn, twisted yarn), knitted bore, Meyer (wooled woolen pile yarn # 8 to 60th wool single yarn, twisted yarn).
[0037]
【Example】
[Experiment 1]
In Experimental Example 1, the generation of negative ions was measured for the wool treated by the method of the present invention and the untreated wool.
<Test material>
No. 1 New Zealand wool raw wool 2
Process of the present invention The above-mentioned raw hair processed product is processed using 35% hydrogen peroxide water in an amount of 20% by weight of wool, immersed for 90 minutes, and after 5 minutes, sodium hypozinc acid solution is added to 5% of wool. %Added. Next, 5% by weight of sodium pyrophosphate is added to the wool to process it, washed with water and boiled for 5 minutes.
[0038]
<Measurement method>
Measuring device: Air counter FIC-2000 (manufactured by Fiesa)
Outline of the device: An ion measuring device is installed on the side of the box partitioned by an acrylic plate (30 x 20 x 22 cm, inside is covered with aluminum foil). The upper half is open and the sample can be removed.
Method: Measurement time (60 seconds), humidity 33%, temperature 24 ° C, put a sample in your hand into a measuring instrument and measure it while vibrating.
[0039]
<Measurement results>
[0040]
[Table 1]

[0041]
[Experimental example 2]
Experimental example 2 measured the deodorizing characteristic of various wool.
<Sample material>
Wool-processed cotton Wool-processed yarn However, processing was carried out in the same manner as in Experimental Example 1. [0042]
<Investigation method>
About formaldehyde deodorization, the deodorization rate of formaldehyde was calculated | required based on the Mitsubishi Rayon test method.
・ Sample: 1g
・ Initial concentration: 35ppm
・ Gas volume: 500ml
・ Leaving time: 1 hour [0043]
<Survey results>
[0044]
[Table 2]

[0045]
According to the formaldehyde deodorization investigation results, both the processed cotton and the processed yarn exhibit a deodorization rate of 95% or more, and show an excellent deodorizing effect.
[0046]
[Experiment 3]
Experimental Example 3 shows the results of a pilling test for various wool.
<Test material>
Tendon made of wool TST6832
A knit version of the processed product of Experimental Example 1. [0047]
<Measurement method>
JIS L 1076 Method A ICI type method 5 hours <Measurement result>
[0048]
[Table 3]

[0049]
[Experimental Example 4]
In Experimental Example 4, the deodorizing property of ammonia gas was measured for various wool properties.
<Test material>
No. 1: Raw product No. 2: Wool cotton processed product No. 3: Washed after processing. 1-No. The material of No. 3 is as follows. 1: Same as the raw hair of Experimental Example 1 2: Same processed product as Experimental Example 1 3: The same processed product as in Experimental Example 1 was washed with hot water and then dry-washed using a neutral detergent (1% concentration) at 65 ° C. for 15 minutes.
<Measurement method>
Performed by Unitika Garmentec Co., Ltd. back method.
[0051]
<Measurement results>
[0052]
[Table 4]

[0053]
[Experimental Example 5]
Experimental Example 5 is a measurement of various wool based on JIS-L-0842, 0844, and 0849.
<Test material>
No. 1: Raw hair of Experimental Example 1, same as unprocessed No. 2: Same as the raw hair and unprocessed product of Experimental Example 1
<Measurement results>
[0055]
[Table 5]

[Table 6]

[0056]
[Experimental Example 6]
Experimental Example 6 is a measurement of the wash resistance dimensional change rate of a knitted fabric and a theta made using the knitted fabric.
[0057]
<Test material>
No. 1: Knitted fabric (semi-finished product)
No. 2: Sweater No. No. 1 is a Chinese cashmere cotton (imported product) subjected to the same processing as in Experimental Example 1. No. 2 above. 1 is used as a sweater.
[0058]
<Measurement results>
[0059]
[Table 7]

[Table 8]

[0060]
[Experimental Example 7]
About six types of wool, to measure the light fastness. In this example, the measurement was requested from a specialized laboratory.
<Test material>
(Ii) After processing by the same processing means as in Experimental Example 1, instant coffee W. F. Boiled for 20 minutes at 20% (Reference 1)
(B) After processing by the same processing means as in Experimental Example 1, O.D. W. F. Boiled for 20 minutes at 20% (reference material 2)
(Ha) After processing by the same processing means as in Experimental Example 1, green tea extract powder was added to O.D. W. F. Boiled for 20 minutes at 20% (reference material 3)
(Ii) After processing by the same processing means as in Experimental Example 1, W. F. Boiled for 20 minutes at 20% (reference material 4)
(E) After being processed by the same processing means as in Experimental Example 1, W. F. Boiled for 20 minutes at 20% (Reference 5)
(F) After being processed by the same processing means as in Experimental Example 1, washed at 60 ° C. for 15 minutes. However, the detergent is synthetic detergent “Texaton N” (OWF 15%) (Reference 6)
<Measurement method processing results>
As per attached test measurement certificate (reference materials 1-6)
[0039]
[Brief description of the drawings]
FIG. 1 is an explanatory view schematically showing an enlarged structure of wool. It consists of the structures (a) to (d).
FIG. 2 is a schematic cross-sectional view of a wool structure.
FIG. 3 is a schematic cross-sectional view of a scale structure.
FIG. 4 is an electron micrograph of an example of the wool of the present invention.
[Explanation of symbols]
B ... CMC site b ... epi / cuticle layer c ... exo / cuticle layer d ... end / cuticle layer e ... sub-cuticle layer f ... fibril ... cell-cell adhesive H ... cortex-cortex

Claims (2)

Into the same processing machine, after adding wool, water, and a penetrant, pre-treat by dipping at room temperature, then first acid solvent, then hypochlorite solution , then pyrophosphate solvent at room temperature or A method for producing wool with excellent physical properties, characterized by being sequentially charged at appropriate intervals in a low temperature range, then heated and immersed for a certain period of time. The method according to claim 1, wherein after the pyrophosphate solvent is added, it is immersed for a certain period of time, further washed, and then heated and boiled.

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