[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JPS6170083A - Manufacture of artificial leather dyeable in deep color - Google Patents

Manufacture of artificial leather dyeable in deep color

Info

Publication number
JPS6170083A
JPS6170083A JP18969384A JP18969384A JPS6170083A JP S6170083 A JPS6170083 A JP S6170083A JP 18969384 A JP18969384 A JP 18969384A JP 18969384 A JP18969384 A JP 18969384A JP S6170083 A JPS6170083 A JP S6170083A
Authority
JP
Japan
Prior art keywords
dyeable
binder
artificial leather
fiber
water
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP18969384A
Other languages
Japanese (ja)
Other versions
JPH0350031B2 (en
Inventor
Hiromichi Iijima
弘通 飯島
Masayuki Hatada
畑田 昌幸
Kazuyoshi Okamoto
岡本 三宜
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Toray Industries Inc
Original Assignee
Toray Industries Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Toray Industries Inc filed Critical Toray Industries Inc
Priority to JP18969384A priority Critical patent/JPS6170083A/en
Publication of JPS6170083A publication Critical patent/JPS6170083A/en
Publication of JPH0350031B2 publication Critical patent/JPH0350031B2/ja
Granted legal-status Critical Current

Links

Landscapes

  • Synthetic Leather, Interior Materials Or Flexible Sheet Materials (AREA)

Abstract

PURPOSE:To obtain an artificial leather dyeable in deep color, by impregnating a binder in a nonwoven cloth, etc. made of a cation-dyeable fiber, and carrying out the wet coagulation of the binder, wherein the coagulation liquid or the binder solution is added with a metal sequestering agent. CONSTITUTION:A nonwoven cloth, or woven or knit fabric composed of a cation-dyeable fiber splittable into ultrafine fibers is impregnated with a solution prepaed by dissolving a binder in a solvent (e.g. dimethylformamide) having affinity to water, and is subjected to wet coagulation. In the above process, a metal sequestering agent (e.g. condensed phosphate) is added to said coagulation liquid or binder solution at a concentration of 0.05-5g/l, and coagulated. The decrease in the dyeing sites of the fiber (caused by the metallic ion in water) can be prevented, the dye adsorptivity of the fiber can be fully demonstrated, and an artificial leather dyeable in deep color can be produced.

Description

【発明の詳細な説明】 [産業上の利用分野] 本発明は濃染色可能な人工皮革の製造法に関するもので
ある。
DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a method for producing deep dyeable artificial leather.

[従来の技術] 従来、濃色効果を付与する技術としては、繊維表面に数
ミクロンオーダーのミクロボイドを発生させて、特定波
長の光を吸収させる方法、あるいは繊維表面に屈折率の
異なる特殊ポリマーをコーティングさせる方法等が知ら
れている。
[Conventional technology] Conventional techniques for imparting dark color effects include creating microvoids on the fiber surface of the order of several microns to absorb light of a specific wavelength, or applying special polymers with different refractive indexes to the fiber surface. Coating methods are known.

しかしながら、繊維表面を改質する方法は、そのポリマ
ーがもっている繊維強度を十分に発揮することができず
、製品強度低下をきたし、繊維表面に特殊ポリマーをコ
ーティングする方法は、風合、タッチを重要とする人工
皮革においては、濃色効果を十分発揮させるまで付与す
ることは困難であり、また、共重合ポリマーを用いて、
発色性を向上させる方法は、繊維強度低下をきたし、実
用に耐えうるちのではなかった。、すなわち、発色性を
いかそうとした場合、人工皮革に要求される他の特性を
犠牲にせざるを得なかった。
However, the method of modifying the fiber surface cannot fully utilize the fiber strength of the polymer, resulting in a decrease in product strength, while the method of coating the fiber surface with a special polymer improves texture and touch. For artificial leather, which is important, it is difficult to impart a deep color effect until it is fully exhibited, and using copolymerized polymers,
The method of improving color development resulted in a decrease in fiber strength and was not practical. In other words, in order to take advantage of color development, other properties required of artificial leather had to be sacrificed.

一方、本発明者らは、これらの要求に対して、既に特公
昭57−42981%において、共重合ポリエステルを
用い、極細I!雑の繊維強度低下を防ぎ、発色性、風合
、タッチ良好な人工皮革の製造方法を提供した。ただし
、この人工皮革は、本来、ポリマーがもっている発色性
を十分にいかしきれず、必ずしも満足できる人工皮革で
はなかった。
On the other hand, in response to these demands, the present inventors have already developed ultra-fine I! The present invention provides a method for producing artificial leather that prevents a decrease in fiber strength and has good color development, texture, and touch. However, this artificial leather was not necessarily a satisfactory artificial leather because it was not able to take full advantage of the color development properties of the polymer.

[発明が解決しようとする問題点] 本発明者らは上記欠点のないa染色可能な人工比較の製
造方法について鋭意検討し、本発明を見い出した。
[Problems to be Solved by the Invention] The present inventors have conducted intensive studies on a method for producing an artificial comparison that can be dyed with A without the above-mentioned drawbacks, and have discovered the present invention.

[問題点を解決するための手段1 すなわら本発明は、カチオン可染型繊維を用いた不織布
、織編物に水に親和性を有する溶媒に溶解したバインダ
ーを含浸し、湿式凝固するにあたり、!凝固液、あるい
は、バインダー溶液中に金属イオン封鎖剤を添加した後
、凝固せしめることを特徴とする人工皮革の製造方法に
関するものである。
[Means for Solving the Problems 1] In other words, the present invention impregnates a nonwoven fabric, a woven or knitted fabric using cationic dyeable fibers with a binder dissolved in a solvent having an affinity for water, and wet-coagulates the nonwoven fabric or woven fabric using cationic dyeable fibers. ! The present invention relates to a method for producing artificial leather, which comprises adding a sequestering agent to a coagulating solution or a binder solution and then coagulating it.

本発明の不織布、織編物は、カチオン染料可染型ポリマ
ーを用いた繊維を基材とし、ジメチルフォルムアミド(
以下DMFと略記する)等の水に親和性を有する溶媒に
溶解したバインダーを含浸し、湿式凝固するにあたり、
溶媒による繊維の湿潤により、凝固液中の金属イオンが
繊維の保有している染着座席を減少させるのを防止し、
染料吸着率を有効にいかし、濃色な人工皮革を提供する
ものである。
The nonwoven fabrics and woven and knitted fabrics of the present invention are based on fibers using a cationic dye-dyeable polymer, and are made of dimethylformamide (
When impregnating a binder dissolved in a water-friendly solvent such as DMF (hereinafter abbreviated as DMF) and wet-coagulating it,
By wetting the fibers with the solvent, metal ions in the coagulation solution are prevented from reducing the dyeing capacity of the fibers,
This method effectively utilizes the dye adsorption rate to provide dark-colored artificial leather.

本発明の基材を構成する繊維としては、カチオン染料可
染型ポリエステル、カチオン染料可染型ポリアミドを用
いることが必要である。すなわら、カチオン染料可染型
でない、分散染料可染型、あるいは酸性染料可染型ポリ
マーにおいては、DMF等により膨潤するものの凝固液
中の金属イオンの影響がおよばないためである。
As the fiber constituting the base material of the present invention, it is necessary to use cationic dye-dyeable polyester or cationic dye-dyable polyamide. This is because polymers that are not dyeable with cationic dyes, are dyeable with disperse dyes, or are dyeable with acidic dyes are swollen by DMF, etc., but are not affected by metal ions in the coagulating liquid.

風合およびタッチの優れた人工皮革を得るには、0.9
d以下の細繊維を用いるのが好ましいが、その製造手段
については、格別の限定はない。一般に細繊維の強度補
強の点、および、II II Iを直接製造することは
必ずしも容易ではないので、海鳥型等の多成分系芯鞘複
合繊維や混合紡糸tltlt1をまず製造し、主として
不織布、織編物にした後にこれに極細化処理を施すのが
通常である。
To obtain artificial leather with excellent texture and touch, 0.9
Although it is preferable to use fine fibers with a diameter of d or less, there are no particular limitations on the means for producing them. In general, in terms of reinforcing the strength of fine fibers, and since it is not necessarily easy to directly manufacture II III I, we first manufacture multi-component core-sheath composite fibers such as seabird type and mixed spun TLTLT1, and then mainly use non-woven fabrics and woven fabrics. After knitting, it is usually subjected to ultra-fine treatment.

芯鞘型島成分の組合せの好適例としては、5−ナトリウ
ムスルホイソフタレート共重合ポリエステルとポリエチ
レンテレタレート、あるいはポリブチレンテレフタレー
ト、あるいはナイロン6゜66の組合せ、更にソジュウ
ムスルホベンゾイツクアシド共重合ナイロンとポリエチ
レンテレフタレート、あるいはポリブチレンテレフタレ
ート、あるいはナイロン6.66の組合せが細繊維を使
用した製品の強度向上には好ましいが、目的、用途に応
じ、5−ナトリウムスルホインフタレート共重合ポリエ
ステル単独、あるいはソジュウムスルホベンゾイックア
シド共m合ナイロン単独を用いてもよい。
Preferred examples of combinations of core-sheath type island components include combinations of 5-sodium sulfoisophthalate copolymerized polyester and polyethylene terethalate, or polybutylene terephthalate, or nylon 6°66, and sodium sulfobenzoic acid copolymerized nylon. A combination of polyester and polyethylene terephthalate, polybutylene terephthalate, or nylon 6.66 is preferable for improving the strength of products using fine fibers, but depending on the purpose and use, 5-sodium sulfoinphthalate copolyester alone or Um-sulfobenzoic acid copolymerized nylon alone may be used.

、 一方、海成分の好適例としては、ポリスチレン、ポ
リエチレン等があり、島成分ポリマーと溶媒を異にし、
かつ、紡糸、製糸性可能なポリマーであれば特に限定す
るものではない。
, On the other hand, suitable examples of the sea component include polystyrene, polyethylene, etc., and the island component polymer and solvent are different,
Moreover, the polymer is not particularly limited as long as it is a polymer that can be spun and made into yarn.

不織布、織編物の作成は公知の手段を用い、特に限定は
しない。
Nonwoven fabrics and woven and knitted fabrics can be produced using known means, and are not particularly limited.

不織布、織編物の収縮、あるいはのり付は処理は、製品
の風合、表面品位、タッチ、ドレープ性等の点から、バ
インダー溶液を含浸する以前に行なうのが好ましいが、
本発明においては必ずしも必要ではない。狙う製品の目
的、用途に応じて処理すればよい。
From the viewpoint of the texture, surface quality, touch, drapability, etc. of the product, it is preferable to shrink or glue the nonwoven fabric or woven fabric before impregnating it with the binder solution.
This is not necessarily necessary in the present invention. Processing can be done depending on the purpose and use of the target product.

極細化処理は使用する尚成分ポリマーを溶解し、島成分
ポリマーを溶解しないものであればよい。
The ultra-fine treatment may be any treatment as long as it dissolves the component polymer used but does not dissolve the island component polymer.

また、この極細化処理はバインダー溶液を含浸する前、
あるいは含浸、凝固後に施してもよい。
In addition, this ultra-fine treatment is performed before impregnating with the binder solution.
Alternatively, it may be applied after impregnation and solidification.

本発明における水に親和性を有する溶媒としては、既に
挙げたDMFの他、ジメチルアセトアミド、ジエチルホ
ルムアミド、ジメチルスルホキシド、ヘキサメチルホス
ホルアミドなどが用いられる。
In addition to the above-mentioned DMF, dimethylacetamide, diethylformamide, dimethylsulfoxide, hexamethylphosphoramide, and the like are used as the solvent having an affinity for water in the present invention.

本発明の凝固方法は金属イオン封鎖剤を溶解した凝固水
中にバインダー溶液を含浸した基材を侵潰し、凝固する
方法、あるいはバインダーの溶媒中に金属イオン封鎖剤
を添加したバインダー溶液を基材に含浸し、次いで凝固
水中に浸漬し、凝固する方法である。
The coagulation method of the present invention is a method in which a base material impregnated with a binder solution in coagulating water in which a sequestering agent is dissolved is crushed and solidified, or a binder solution in which a sequestering agent is added to a binder solvent is used as a base material. This method involves impregnation, then immersion in coagulation water, and coagulation.

凝固水は一般に工業用水が用いられる。この水中には、
カルシウムイオン、マグネシウムイオン。
Industrial water is generally used as coagulation water. In this water,
Calcium ion, magnesium ion.

亜鉛イオン、鉄イオン等の金属イオンが含まれている。Contains metal ions such as zinc ions and iron ions.

これらの金属イオンはバインダー溶液含浸により繊維表
面が高濃度の溶媒にさらされて膨潤した時に、繊維中の
染着座席を減少させやすく、染色工程において、金属イ
オン封鎖剤をいくら添加しても発色性の低い、濃淡色差
のめだつ製品に仕上ってくる。すなわち、従来の染色工
程において添加する公知の技術では解決しえないもので
あった。溶液タイプのバインダーをシートに含浸し、1
式凝固する人工皮革製造においては、本発明の凝固時点
に添加するのが発色性を向上させる重要な技術である。
These metal ions tend to reduce the dyeing capacity in the fiber when the fiber surface is exposed to a high concentration of solvent and swells due to binder solution impregnation, and no matter how much metal ion sequestering agent is added during the dyeing process, color will not develop. The result is a product with low contrast and a striking color difference. In other words, this problem could not be solved using the known technique of adding in the conventional dyeing process. Impregnate the sheet with a solution type binder, 1
In the production of artificial leather by formula coagulation, adding it at the coagulation stage of the present invention is an important technique for improving color development.

本発明に用いる金属イオン封鎖剤は、水溶液中で金属イ
オンと結合して可溶性錯塩を形成し、金属イオンが他の
試薬によって沈澱を起こさなくする作用を示す化合物な
らいかなるものでも良く、例えば、縮合リン酸塩、エチ
レンジアミン四酢酸、ニトリロトリ酢酸、ジヒドロキシ
エチルグリシン、グルコン酸、クエン酸、酒石酸等が挙
げられる。
The sequestering agent used in the present invention may be any compound that binds with metal ions in an aqueous solution to form a soluble complex salt and prevents metal ions from being precipitated by other reagents, such as condensation. Examples include phosphate, ethylenediaminetetraacetic acid, nitrilotriacetic acid, dihydroxyethylglycine, gluconic acid, citric acid, tartaric acid, and the like.

より具体的には、一般に市販されている[フレワット(
帝国化手製〉」、「テトロン(開成化学製)」、「チェ
リオン(山田製)」、「ソルビン(鴨川化学製)」等が
用いられる。
More specifically, the commonly commercially available [Frewat (
Teikoku Handmade>, Tetron (Kaisei Kagaku), Cheerion (Yamada), Solbin (Kamogawa Kagaku), etc. are used.

金属イオン封鎖剤の添加mは、凝固に使用する水中の金
属イオン濃度により異なるが、工業用浄水r アh ハ
、0.05a/Q〜5q/nalimすれば十分本発明
の効果が得られる。これ以上添加した場合においても本
発明効果が失なわれるものではないが、必要以上の添加
は基材中に目付ムラ、厚みムラ等があるとm度ムラを助
長したり、コスト的にもメリットがない。
The addition m of the metal ion sequestering agent varies depending on the metal ion concentration in the water used for coagulation, but the effect of the present invention can be sufficiently obtained if it is 0.05a/Q to 5q/nalim in industrial purified water. Even if more than this is added, the effects of the present invention will not be lost; however, adding more than necessary may promote unevenness in the base material if there is uneven basis weight or thickness, and may also be advantageous in terms of cost. There is no.

次に実施例を示すが、本発明の有効性はこれらによって
制限されたり、解釈が限定されるものではない。むしろ
、次の応用展間をもたらすものである。
Examples are shown next, but the effectiveness of the present invention is not limited or the interpretation thereof is limited by these. Rather, it brings about the next application exhibition.

[実施例] 実施例1 3成分系芯鞘型高分子相互配列体繊維を用いてフェルト
を作成した。その組成、物性は次の通りであった。
[Examples] Example 1 Felt was made using three-component core/sheath type polymer mutual array fibers. Its composition and physical properties were as follows.

島成分(芯成分):14.25重量部でポリエチレンテ
レフタレート 島成分(N成分):42.75ifI量部で5−ナトリ
ウムスルホイソフタμ −ト単位を8.Owt%/全 酸成分を含むポリエチレン テレフタレート 海成分     =43重量部でポリスチレンm維長及
び繊度 :約51aa+X3.8dケン縮数    :
約15山/2.54mmフェルト作成  二ニードルパ
ンチング法目付560Q/m’ このフェルトを沸水に入れ、収縮させてマングルで絞り
次いで乾燥した。
Island component (core component): 14.25 parts by weight of polyethylene terephthalate Island component (N component): 42.75 parts by weight of 8.5-sodium sulfoisophthalate units. Owt%/Polyethylene terephthalate sea component including total acid component = 43 parts by weight Polystyrene m Fiber length and fineness: Approximately 51aa+X3.8d Ken contraction number:
Approximately 15 threads/2.54 mm of felt was prepared. Two-needle punching method. Fabric weight: 560 Q/m' The felt was placed in boiling water, shrunk, squeezed with a mangle, and then dried.

次いで121ffi%の濃度のポリビニールアルコール
(部分ケン化量)を付与し、(約43重世%/島複合4
allffi>、t−リフロールエチレンで十分洗った
。次りで濃度14重量%ポリウレタンDMF液浴をa+
維型重量対し、51重量%付与し、金属イオン封鎖剤(
フレワットN・帝国化学)を0.50/fl溶解した水
溶液(浄水)中に浸漬し、凝固させた後、のり除去し、
湯洗浄し乾燥後、約1/2にスライスし、次いでパフィ
ングした。
Next, polyvinyl alcohol with a concentration of 121ffi% (partially saponified amount) was applied, and (approximately 43%/Island composite 4
allffi>, and thoroughly washed with t-reflor ethylene. Next, add a polyurethane DMF solution bath with a concentration of 14% by weight.
The metal ion sequestering agent (
After immersing in an aqueous solution (purified water) in which 0.50/fl of Flewatt N. Teikoku Kagaku was dissolved and coagulating, the glue was removed.
After washing with hot water and drying, it was sliced into about 1/2 and then puffed.

次いで、次の条件で染色した。Then, it was stained under the following conditions.

染浴:Astorozon  Gold  Yello
w  Ql(カチオン染料)   5.7%ovtfK
ayacryl  Red  GRL(カチオン染料)
   2.2%owfK ayacryl  31ue
  G RL(カチオン染料)   10.6%owf
酢酸         0.50/m 酢酸ソーダ      0.2g/α 浴比       1:50 染色温度・時間  80℃・20分 100℃・40分 染色後の洗浄 57:]−/L/  PSK    2.OQ/Q(開
成化学製 アニオン界面活性剤 洗浄剤)浴比    
 1:5゜ 処理温度・時間  60℃・20分 、湯洗・水洗 染め上り品は凝固液中に金属イオン封鎖剤を添加せず、
その他の条件を同一にして作った製品に比し、風合、タ
ッチは似たものであったが、濃色(黒色)で鮮明な非常
に浸れたものであった。
Dye bath: Astrozon Gold Yellow
w Ql (cationic dye) 5.7%ovtfK
ayacryl Red GRL (cationic dye)
2.2%owfK ayacryl 31ue
G RL (cationic dye) 10.6%owf
Acetic acid 0.50/m Sodium acetate 0.2 g/α Bath ratio 1:50 Dyeing temperature/time 80°C, 20 minutes 100°C, 40 minutes Washing after dyeing 57:]-/L/PSK 2. OQ/Q (Kaisei Chemical anionic surfactant cleaning agent) bath ratio
1:5゜Processing temperature and time: 60℃ for 20 minutes.No metal ion sequestering agent is added to the coagulation solution for hot-water-washed and water-dyed products.
Compared to products made under the same conditions, the texture and touch were similar, but the color was deep (black), clear, and very immersive.

実施例2 実施例1に示した同様なm帷を用い、トリクロールエチ
レンで脱海処理する工程までを実施例1と同条件で処理
した基材を用い、温度14fflffi%ポリウレタン
[)MF溶液中に0.5a/1 (対DMF)の金属イ
オン封鎖剤(フレワットN(帝国化学製))を添加した
ものを繊M重量に対し49虚量%付与し、次いで、水溶
液中(浄水)に浸漬し、凝固させた後、のり除去し、湯
洗浄し乾燥した。その倹約1/2にスライスし、パフィ
ングした。
Example 2 Using the same m-thread as shown in Example 1, using a base material treated under the same conditions as in Example 1 up to the process of de-sea treatment with trichlorethylene, in a polyurethane [) MF solution at a temperature of 14fflffi%. A metal ion sequestering agent (Frewat N (Teikoku Kagaku)) of 0.5a/1 (to DMF) was added to the fibers in an amount of 49% by imaginary amount based on the weight of the fiber M, and then immersed in an aqueous solution (purified water). After solidification, the glue was removed, washed with hot water, and dried. I sliced it into 1/2 and puffed it.

次いで、実施例1と同条件で染色した。この製品はDM
F中に金属イオン封鎖剤を添加せず、その他の条件を同
一にして作った製品に比し、濃色(黒色)で鮮明な非常
に優れたものであった。また、実施例1と同程度の発色
性を有するものであった。
Next, it was dyed under the same conditions as in Example 1. This product is DM
Compared to a product made without adding a sequestering agent to F and under the same other conditions, it was extremely superior in color (black) and clear. Moreover, it had the same level of color development as Example 1.

〔発明の効果] 本発明によれば、繊維強度を高く維持したまま、むらの
ない、m染色可能な人工皮革を(qることが可能となる
[Effects of the Invention] According to the present invention, it is possible to produce uniform artificial leather that can be dyed in m-colors while maintaining high fiber strength.

Claims (1)

【特許請求の範囲】[Claims] カチオン可染型繊維を用いた不織布、織編物に、水に親
和性を有する溶媒に溶解したバインダーを含浸し、湿式
凝固するにあたり、該凝固液、あるいはバインダー溶液
中に、金属イオン封鎖剤を添加した後、凝固せしめるこ
とを特徴とする濃染色可能な人工皮革の製造法。
A sequestering agent is added to the coagulating liquid or binder solution when impregnating a non-woven fabric or woven fabric using cationic dyeable fibers with a binder dissolved in a solvent that has an affinity for water and performing wet coagulation. A method for producing artificial leather capable of deep dyeing, which is characterized by the step of solidifying the dyed material.
JP18969384A 1984-09-12 1984-09-12 Manufacture of artificial leather dyeable in deep color Granted JPS6170083A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP18969384A JPS6170083A (en) 1984-09-12 1984-09-12 Manufacture of artificial leather dyeable in deep color

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP18969384A JPS6170083A (en) 1984-09-12 1984-09-12 Manufacture of artificial leather dyeable in deep color

Publications (2)

Publication Number Publication Date
JPS6170083A true JPS6170083A (en) 1986-04-10
JPH0350031B2 JPH0350031B2 (en) 1991-07-31

Family

ID=16245603

Family Applications (1)

Application Number Title Priority Date Filing Date
JP18969384A Granted JPS6170083A (en) 1984-09-12 1984-09-12 Manufacture of artificial leather dyeable in deep color

Country Status (1)

Country Link
JP (1) JPS6170083A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPWO2016147671A1 (en) * 2015-03-17 2017-12-28 株式会社クラレ Napped-toned artificial leather dyed with a cationic dye and method for producing the same
WO2019087795A1 (en) * 2017-11-01 2019-05-09 Dic株式会社 Method for producing coagulated article

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPWO2016147671A1 (en) * 2015-03-17 2017-12-28 株式会社クラレ Napped-toned artificial leather dyed with a cationic dye and method for producing the same
CN112538764A (en) * 2015-03-17 2021-03-23 株式会社可乐丽 Raised-hair artificial leather dyed with cationic dye and method for producing same
US10982382B2 (en) 2015-03-17 2021-04-20 Kuraray Co., Ltd. Napped artificial leather dyed with cationic dye, and method for manufacturing the same
WO2019087795A1 (en) * 2017-11-01 2019-05-09 Dic株式会社 Method for producing coagulated article

Also Published As

Publication number Publication date
JPH0350031B2 (en) 1991-07-31

Similar Documents

Publication Publication Date Title
CN108360187B (en) Dyeing method of polyester type superfine fiber synthetic leather
JPS6350462B2 (en)
ITMI20060096A1 (en) TEXTILE PRODUCT
JP5536002B2 (en) Fabric, thread or floc surface treatment method
JPH01225643A (en) Surface modification of solid synthetic polymer
JP3529089B2 (en) Processing method of refined cellulose fiber woven or knitted fabric
JPS6170083A (en) Manufacture of artificial leather dyeable in deep color
DE60107671T2 (en) METHOD FOR TREATING TEXTILES WHICH HIGH-NETWORKED ACRYLIC POLYMERS CONTAIN BEFORE STAINING; METHOD FOR STAINING TEXTILES; TEXTILE PRODUCT TREATED BEFORE STAINING; AS WELL AS TEXTILE PRODUCT
WO2002014596A1 (en) Coated, flexible fabric
KR100367926B1 (en) Preparation Method of Suede Synthetic Leather for Shoes
JPS6342981A (en) Production of pliable leathery sheetlike material
JP4093154B2 (en) Pile knitting manufacturing method
JP2934767B2 (en) Dyeing method of aromatic polyamide fiber
JPH07300772A (en) Method for processing silk fibroin
JP3269326B2 (en) Yellow-resistant polyamide fiber structure and method for producing the same
JPH02221471A (en) Dyeing of aromatic polyamide fiber
KR0151369B1 (en) Dyeing process for the superfine non woven fabric leatherette
JPS5836269A (en) Treatment for modifying polyester fiber
KR100331924B1 (en) Dyeing method of ultrafine fiber
JPH09195182A (en) Production of dyed polyamide fiber product having excellent soil resistance
KR100466049B1 (en) How to dye suede-woven non-woven artificial leather
JPH07305284A (en) Production of polyamide fiber structure having excellent wet dimensional stability
JPH0565627B2 (en)
JP4103564B2 (en) Cellulose fatty acid ester fiber with improved heat resistance and method for producing the same
JPH0314648A (en) High density fibrous structural article of polyamide and its production