US1826608A - Treatment of cellulose acetate or products made therewith - Google Patents
Treatment of cellulose acetate or products made therewith Download PDFInfo
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- US1826608A US1826608A US131104A US13110426A US1826608A US 1826608 A US1826608 A US 1826608A US 131104 A US131104 A US 131104A US 13110426 A US13110426 A US 13110426A US 1826608 A US1826608 A US 1826608A
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- Prior art keywords
- cellulose acetate
- fabrics
- action
- effects
- steam
- 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.)
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Classifications
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06M—TREATMENT, NOT PROVIDED FOR ELSEWHERE IN CLASS D06, OF FIBRES, THREADS, YARNS, FABRICS, FEATHERS OR FIBROUS GOODS MADE FROM SUCH MATERIALS
- D06M15/00—Treating fibres, threads, yarns, fabrics, or fibrous goods made from such materials, with macromolecular compounds; Such treatment combined with mechanical treatment
- D06M15/01—Treating fibres, threads, yarns, fabrics, or fibrous goods made from such materials, with macromolecular compounds; Such treatment combined with mechanical treatment with natural macromolecular compounds or derivatives thereof
- D06M15/17—Natural resins, resinous alcohols, resinous acids, or derivatives thereof
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S8/00—Bleaching and dyeing; fluid treatment and chemical modification of textiles and fibers
- Y10S8/92—Synthetic fiber dyeing
- Y10S8/921—Cellulose ester or ether
Definitions
- I utilize this property to produce locally, on fabrics made with or containing such threads or yarns, partial or entire loss of lustre in such form that the difference in lustre between the various portions of the fabrics constitutes a pattern or novel efiiect.
- Such patterns or effects may in some cases closely approach to the optical effect secured by production of patterns by weaving.
- I produce the aforesaid patterns or novel effects on, woven, knitted or other textile fabrics made from or containing cellulose acetate threads or yarns by the local application to said fabrics by any suitable means of one or more substances which modify, that is to say, accentuate, diminish, or prevent the delustring action of hot aqueous. media or moiststeam, and by subsequently subjecting the fabrics to the action of hot or boiling aqueous media or moist steam.
- the said local application may be performed by any suitable means such for instance as printing, steneilling and the like, and may be applied to form any suitable or desired pattern for instance a figured design or pattern, or a ground or blotch which leaves a figured design or pattern in relief.
- I may use any substances which accentuate, diminish or prevent the delustring action of hot or boilmg aqueous media or moist steam.
- I may use substances which mechanically resist the aforesaid delustring action, such for instance as waxes, resins, gums, pigments, or other substances capable of mechanically resisting the de-lustring action, for instance inorganic salts which are inert towards cellulose acetate.
- substances which mechanically resist the aforesaid delustring action such for instance as waxes, resins, gums, pigments, or other substances capable of mechanically resisting the de-lustring action, for instance inorganic salts which are inert towards cellulose acetate.
- inorganic salts which are inert towards cellulose acetate.
- substances which are solvents for cellulose acetate or which are soluble therein; such substances comprise very many varied classes of bodies, the following being given by way of illustration only; aromatic amines and substituted amines such as aniline, ehloroanilines, alkylanilines, toluidines, anisidines and the like; hydroxy bodies of the aromatic series, for instance phenol, cresols, resorcine, catechole, naphthols, chlorphenols, chlor naphthols and the like;.
- arylhalides and alkylhalides for instance chlorbenzene, chlornaphthalenes, tetrachlorethane, trichlorethylene, and the like; hydroxy bodies of the aliphatic series, for instance an gylcerine, alcohols, or chlorinated derivatives such as epichlorhydrin; esters, for instance aceto acetic ester; aldehydes for instance benialdehyde; ketones for instance acetone; cyclic bases, for instance pyridine or quinoline; hydrogenated hydrocarbons and hydrogenated phenols for example hexa-hydrophenol, hexahydrobenzene, tetrahydronaphthalenc and the like.
- solvents or solutes of cellulose acetate tend to conserve the lustre in the portions of the cellulose acetate where they are applied, whilst others accelerate the delustring action of the aqueous media or moist steam.
- the behaviour of the solvents or solutes is however influenced by the conditions under which the aqueous media or moist steam are applied.
- the solvents or solutes generally cause a retarding of the delustring action at with very moist steam or wit hot aqueous treatments (as distinct from steaming) the solvents. or solutes generally cause an acceleration of the delustring action at the portions where they are applied.
- the following substances show aprotective action on steaming, the operation being done by admitting steam at about 17 lbs. per square inch into a chamber, allowing free exit of the steam so that no pressure is allowed to accumulate, the tem rature registering about 90-100 C.: Ani ine, arachloraniline, dimethylaniline, paratoluldine, paraa'nisidine, phenol, resorcine 10%, parachlorphenol, alphachlornaphthalene, tetrachlorethane, al-
- cellulose acetate may when soluble in water he applied in formof aqueous solutions or pastes; or when insoluble or insufiiciently soluble in water they may be applied in solution in solvents which are nonsolventsfo-r cellulose acetate, such for example as benzene or xylene, or dispersed in aqueous media. by any of the methods'known in the colloid arts.
- the steaming or hot aqueous treatments may be given in any suitable manner or with any suitable machines; for instance the steaming -may be effected with the continuous steamer, the ager or the cottage steamer such as ordinarily employed in textile printing, and the hot aqueous treatments may be effected with the dipping frame, the.jigger the wi'nch pr. reel or other m achine such as ordinarily, employed in the dyeing arts.
- the patterns or effects have the advantage of being produceable without deleteriously affecting the quality of the goods.
- the patterns or effects are moreover capable of resisting ordinary usage, such as light,
- the process of the present invention may be applied to undyed or dyed goods, and if desired, undyed goods may be dyed subsequently to treatment by the process of the present invention.
- suitable dyestufis may be chosen according to properties and incorporated with the printing pastes so that besides dilferential lustre effects there are also differential colour efi'ects thus adding to the variety of results achievable. 7
- mixed goods containing cellulose acetate may render further effects possible since most other textile fibres do not tend in any considerable degree to lose lustre by the delustring methods herein described.
- the cellulose acetate component only will respond to the processes described so that by using such combinations of fibres, for example, a warp of cotton and a weft of cellulose acetate in'a woven fabric, very delicate and novel effects are possible; this may be furtherenhanced by taking advantage of the varied colour possibilities well known in'the dyeing arts for cellulose acetate with other, textile materials.
- Example I I I The following printing paste is made up Parts Phenol 5 Turkey red oil (50%) r 3 Gum: tragon (6% solution) 45 Water 47 The paste is warmed and stirred until as homogeneous as possible and printed by any suitable means on to a woven or knitted fabric made ofcellulose acetate yarn. The print is then dried and steamed hour with saturated steam at 200 F. The printed portions of the fabric lose their lustre more slowly and therefore become delustred to a lesser extent than the unprinted. portions.
- Example V A printing paste precisely similar to that in Example III is printed by any suitable means to woven or knitted fabric made from cellulose acetate yarn. The print is dried and steamed A; hour with saturated steam at 208 F. The printed portions lose their lustre very rapidly and become delustred to a greater extent than the unprinted portions and to a greater extent than do the printed portionsin Example III.
- Example V A fabric composed of cellulose acetate yarns is printed in a suitable manner with molten resin or colophony in the desired pattern or effect.
- the print is cooled to allow the resin to solidify and is then treated in Water at 90-95 C.
- the print is then rinsed and the resin removed, preferably by treatment in a suitable solvent such as xylene.
- the printed portions are reserved against the hot aqueous treatment which causes the unprinted portions to suffer progressive loss of lustre resulting in the desired differential lust-re effect.
- substances which are mutually soluble with cellulose acetate as used hereinafter in the claims is to be understood to include both solvents for cellulose acetate and solutes, that is to say, substances which dissolve in cellulose acetate.
- Process for the production of effects on fabrics comprising cellulose acetate comprising locally applymg to the fabrics preparations comprising dyestuffs for cellulose acetate and solvents for cellulose acetate and thereafter subjecting the fabrics to the action of delustering agents.
- Process for the production of effects on fabrics comprising cellulose acetate comprising locally applying to the fabrics preparations comprising dyestuffs for cellulose acetate and solvents for cellulose acetate and thereafter subjecting the fabrics to the action of moist steam.
- Process for the production of efi'ects on fabrics comprising cellulose acetate comprising locally applying to the fabrics ester solvents for cellulose acetate and thereafter subjecting the fabrics to the action of deluster- 40 ing agents.
- Process for the production of efiects on fabrics comprising cellulose acetate comprising locally applying to the fabrics ester solvents for cellulose acetate, and thereafter subjecting the fabrics to the action of moist steam.
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- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Treatments For Attaching Organic Compounds To Fibrous Goods (AREA)
- Chemical Or Physical Treatment Of Fibers (AREA)
Description
Patented Oct. 6, 1931 UNITED STATES PATENT OFFICE- GEORGE HOLLAND ELLIS, OF SPONDON, NEAR DERBY, ENGLAND, ASSIGNOR TO CELANESE CORPORATION OF AMERICA, A CORPORATION OF DELAWARE TREATMENT OF CELLULOSE ACETATE OR PRODUCTS MADE THEREWITH No Drawing. Application filed August 23, 1926, Serial No. 131,104, and in Great Britain October 29, 1925.
It is known that when cellulose acetate artificial silk and particularly dry spun cellulose acetate artificial silk made from cellulose acetate solutions of relatively low concentrations, is subjected to the action of hot aque- 1 ous media, such for instance as hot or boiling water or soap solutions or solution-s of acids or acid salts or other aqueous solutions, or of moist steam, but particularly of water, soap solutions or solutions of acids or acid salts between about 90 C. and the boiling point, or of moist steam, the cellulose acetate artificial silk can lose its natural high lustre to a greater or less extent and become converted to a moreor less .delustred condition. In the present invention I utilize this property to produce locally, on fabrics made with or containing such threads or yarns, partial or entire loss of lustre in such form that the difference in lustre between the various portions of the fabrics constitutes a pattern or novel efiiect. Such patterns or effects may in some cases closely approach to the optical effect secured by production of patterns by weaving. 96 According to the present invention I produce the aforesaid patterns or novel effects on, woven, knitted or other textile fabrics made from or containing cellulose acetate threads or yarns by the local application to said fabrics by any suitable means of one or more substances which modify, that is to say, accentuate, diminish, or prevent the delustring action of hot aqueous. media or moiststeam, and by subsequently subjecting the fabrics to the action of hot or boiling aqueous media or moist steam.
The said local application may be performed by any suitable means such for instance as printing, steneilling and the like, and may be applied to form any suitable or desired pattern for instance a figured design or pattern, or a ground or blotch which leaves a figured design or pattern in relief.
In performing the invention I may use any substances which accentuate, diminish or prevent the delustring action of hot or boilmg aqueous media or moist steam.
Thus for instance I may use substances which mechanically resist the aforesaid delustring action, such for instance as waxes, resins, gums, pigments, or other substances capable of mechanically resisting the de-lustring action, for instance inorganic salts which are inert towards cellulose acetate. In employing such substances it will be understood that if the pattern is to remain definite ,the substance will be of an insoluble nature, particularly where delustring is to be achie ed by use of liquors. I
Further I may employ for the purpose of the invention substances which are solvents for cellulose acetate or which are soluble therein; such substances comprise very many varied classes of bodies, the following being given by way of illustration only; aromatic amines and substituted amines such as aniline, ehloroanilines, alkylanilines, toluidines, anisidines and the like; hydroxy bodies of the aromatic series, for instance phenol, cresols, resorcine, catechole, naphthols, chlorphenols, chlor naphthols and the like;. arylhalides and alkylhalides, for instance chlorbenzene, chlornaphthalenes, tetrachlorethane, trichlorethylene, and the like; hydroxy bodies of the aliphatic series, for instance an gylcerine, alcohols, or chlorinated derivatives such as epichlorhydrin; esters, for instance aceto acetic ester; aldehydes for instance benialdehyde; ketones for instance acetone; cyclic bases, for instance pyridine or quinoline; hydrogenated hydrocarbons and hydrogenated phenols for example hexa-hydrophenol, hexahydrobenzene, tetrahydronaphthalenc and the like.
Many of such solvents or solutes of cellulose acetate tend to conserve the lustre in the portions of the cellulose acetate where they are applied, whilst others accelerate the delustring action of the aqueous media or moist steam. The behaviour of the solvents or solutes is however influenced by the conditions under which the aqueous media or moist steam are applied. Thus with only slightly moist steam the solvents or solutes generally cause a retarding of the delustring action at with very moist steam or wit hot aqueous treatments (as distinct from steaming) the solvents. or solutes generally cause an acceleration of the delustring action at the portions where they are applied. For instance the following substances show aprotective action on steaming, the operation being done by admitting steam at about 17 lbs. per square inch into a chamber, allowing free exit of the steam so that no pressure is allowed to accumulate, the tem rature registering about 90-100 C.: Ani ine, arachloraniline, dimethylaniline, paratoluldine, paraa'nisidine, phenol, resorcine 10%, parachlorphenol, alphachlornaphthalene, tetrachlorethane, al-
' cohol, glycerol, acetoacetic ester, acetone, py-
ridine, hexaline, nitrobenzene, whereas the following substances cause acceleration of the delustring action of steaming at 60 C. i. e steaming under conditions approximateing a warm damp atmosphere: Betanaphthol, parachlorphenol, alphachlornaphthalene, glycerol, benzaledehyde, pyridine. In employing such solvents. or solules of cellulose acetate they may when soluble in water he applied in formof aqueous solutions or pastes; or when insoluble or insufiiciently soluble in water they may be applied in solution in solvents which are nonsolventsfo-r cellulose acetate, such for example as benzene or xylene, or dispersed in aqueous media. by any of the methods'known in the colloid arts.
After the local a plication of the substance or substances employed as hereinbefore explained for locally reventing, diminishin or accentuating the delustring action on fa rics I subject the goods to the delustring action of any suitable hot or boiling aqueous media or moist steam. For instance I may employ water or soap solutions or solutions of acids or acid salts at about 90 C. to the boiling point or moist steam. When however, the substance applied locally is a solvent for cellulose acetate or is soluble therein and also when the substance applied locally is soluble in water, .I preferably use humid steam for delustrin especially when it is desired to preserve t e clarity of the pattern.
With humid steam it is found in practice that the effect is greatly influenced by the humidity of the steam, the loss in lustre being generally proportional to the degree of humidity of the steam and length of treatment.
The steaming or hot aqueous treatments may be given in any suitable manner or with any suitable machines; for instance the steaming -may be effected with the continuous steamer, the ager or the cottage steamer such as ordinarily employed in textile printing, and the hot aqueous treatments may be effected with the dipping frame, the.jigger the wi'nch pr. reel or other m achine such as ordinarily, employed in the dyeing arts.
effects have the advantage of being produceable without deleteriously affecting the quality of the goods. The patterns or effects are moreover capable of resisting ordinary usage, such as light,
The process of the present invention may be applied to undyed or dyed goods, and if desired, undyed goods may be dyed subsequently to treatment by the process of the present invention.
When the goods are dyed subsequently the effects may, if desired be further enhanced by suitable choice of dyestuffs. Thus, delustred celluloseacetate artificial silk shows considerably altered aflinity towards or rate of dyeing with many water soluble dyestufi's e. g. Capri blue, whereas delustring does not-materially affect the rate of dyeing when employing dyeing methods such as described in British Patents Nos. 219,349, 224,925,
242,393 and 242,711 or in U. S. Patents contrasting colour or tone efiects as between the portions of the fabric showing varied lustre effects. 9
Furthermore 7 suitable dyestufis may be chosen according to properties and incorporated with the printing pastes so that besides dilferential lustre effects there are also differential colour efi'ects thus adding to the variety of results achievable. 7
Again mixed goods containing cellulose acetate may render further effects possible since most other textile fibres do not tend in any considerable degree to lose lustre by the delustring methods herein described. In such mixed goods the cellulose acetate component only will respond to the processes described so that by using such combinations of fibres, for example, a warp of cotton and a weft of cellulose acetate in'a woven fabric, very delicate and novel effects are possible; this may be furtherenhanced by taking advantage of the varied colour possibilities well known in'the dyeing arts for cellulose acetate with other, textile materials.
The following examples serve to illustrate how the present invention may be performed,
the effects of 1 aundering etc.
, a suitable being understood that they are in no way Gum tragon (6% solution) 54 The whole. paste is heated until as homogeneous as possible. The paste is printed in attern by any customary means of application to a woven fabric composed of cellulose acetate yarns. The print is dried, steamed l/ hour insaturatd steam at 212 F., rinsed, soaped and finished as desired. The printed portions lose lustre more rapidly than the unprinted and novel differential effects result.
E xampZe I The following paste is made P 'ts Aceto acetic ester dissolved in Turkey red oil 50% 5 and added to Gum tragon (6% solution) Water The portions printed lose lustre less rapidly than the unprinted with resultant differential effects.
Example I I I The following printing paste is made up Parts Phenol 5 Turkey red oil (50%) r 3 Gum: tragon (6% solution) 45 Water 47 The paste is warmed and stirred until as homogeneous as possible and printed by any suitable means on to a woven or knitted fabric made ofcellulose acetate yarn. The print is then dried and steamed hour with saturated steam at 200 F. The printed portions of the fabric lose their lustre more slowly and therefore become delustred to a lesser extent than the unprinted. portions. Example V A printing paste precisely similar to that in Example III is printed by any suitable means to woven or knitted fabric made from cellulose acetate yarn. The print is dried and steamed A; hour with saturated steam at 208 F. The printed portions lose their lustre very rapidly and become delustred to a greater extent than the unprinted portions and to a greater extent than do the printed portionsin Example III.
Example V A fabric composed of cellulose acetate yarns is printed in a suitable manner with molten resin or colophony in the desired pattern or effect. The print is cooled to allow the resin to solidify and is then treated in Water at 90-95 C. The print is then rinsed and the resin removed, preferably by treatment in a suitable solvent such as xylene. The printed portions are reserved against the hot aqueous treatment which causes the unprinted portions to suffer progressive loss of lustre resulting in the desired differential lust-re effect.
The term substances which are mutually soluble with cellulose acetate as used hereinafter in the claims is to be understood to include both solvents for cellulose acetate and solutes, that is to say, substances which dissolve in cellulose acetate.
What I claim and desire to secure by Letters Patent is 1. Process for the production of effects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics substances which are mutually soluble with cellulose acetate and thereafter subjecting the fabrics to the action of delustring agents.
2. Process for the production of effects on fabrics comprising cellulose ace ate, comprising locally applying to the fabrics substances which are mutually soluble with cellulose acetate and thereafter subjecting the fabrics to the action of moist steam.
3. Process for the production of effects on fabrics comprising cellulose acetate, compris-v ing locally applying to the fabrics dispersions of substances which are mutually soluble with cellulose acetate and thereafter sub jecting the fabrics to the action of moist steam. 100
4. Process for the production of effects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics prepara- I agents. 1
5. Process for the production of effects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics preparations comprising dyestuffs, for cellulose acetate and substances which are mutually soluble with cellulose acetate and thereafter suband thereafter subjecting the fabrics to the jecting the fabrics to the action of moist actlon of molst steam.
steam. In testimony whereof I have hereunto sub- 6. Process for the production of effects on s ribed my name. 5 fabrics comprising cellulose acetate, compris- GEORGE HOLLAND ELLIS,
ing locally applymg to the fabrics solvents for cellulose acetate and thereafter subjecting the fabric to the action of delustering agents.
7. Process for the production of effects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics solvents for cellulose acetate and thereafter subjecting the fabric to the action of moist steam.
8. Process for the production of effects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics dispersions of solvents for cellulose acetate and thereafter subjecting the fabric to the action of moist steam.
9. Process for the production of effects on fabrics comprising cellulose acetate, comprising locally applymg to the fabrics preparations comprising dyestuffs for cellulose acetate and solvents for cellulose acetate and thereafter subjecting the fabrics to the action of delustering agents.
10. Process for the production of effects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics preparations comprising dyestuffs for cellulose acetate and solvents for cellulose acetate and thereafter subjecting the fabrics to the action of moist steam.
11. Process for the production of efi'ects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics ester solvents for cellulose acetate and thereafter subjecting the fabrics to the action of deluster- 40 ing agents.
12. Process for the production of efiects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics ester solvents for cellulose acetate, and thereafter subjecting the fabrics to the action of moist steam.
13. Process for the production of effects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics dispersions of ester solvents for cellulose acetate and no action of delustering agents.
15. Process for the production of effects on fabrics comprising cellulose acetate, comprising locally applying to the fabrics preparations comprising dyestuffs for cellulose ace- :5 tate and ester solvents for cellulose acetate
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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GB1826608X | 1925-10-29 |
Publications (1)
Publication Number | Publication Date |
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US1826608A true US1826608A (en) | 1931-10-06 |
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Application Number | Title | Priority Date | Filing Date |
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US131104A Expired - Lifetime US1826608A (en) | 1925-10-29 | 1926-08-23 | Treatment of cellulose acetate or products made therewith |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2517751A (en) * | 1946-04-16 | 1950-08-08 | American Viscose Corp | Dyeing of cellulose acetate with acid dyes in an aqueous solution containing a mixture of swelling agents |
US2982597A (en) * | 1954-12-02 | 1961-05-02 | Celanese Corp | Textile treating |
US3128148A (en) * | 1957-02-06 | 1964-04-07 | Eastman Kodak Co | Boiling aqueous organic liquid enhancement of high acetyl cellulose acetate productsflow point and wrinkle recovery |
US3132919A (en) * | 1956-03-29 | 1964-05-12 | British Celanese | Increasing safe ironing temperatures of cellulsoe triacetate fibers with swelling agents boiling above 190deg. c. |
US3167385A (en) * | 1956-12-07 | 1965-01-26 | British Celanese | Method of improving the safe ironing temperature and crystallinity of cellulose triacetate textile fibres with specific organic media |
US3991236A (en) * | 1968-11-22 | 1976-11-09 | Vepa Ag | Method for coating a material length with a fluid coating substance |
-
1926
- 1926-08-23 US US131104A patent/US1826608A/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2517751A (en) * | 1946-04-16 | 1950-08-08 | American Viscose Corp | Dyeing of cellulose acetate with acid dyes in an aqueous solution containing a mixture of swelling agents |
US2982597A (en) * | 1954-12-02 | 1961-05-02 | Celanese Corp | Textile treating |
US3132919A (en) * | 1956-03-29 | 1964-05-12 | British Celanese | Increasing safe ironing temperatures of cellulsoe triacetate fibers with swelling agents boiling above 190deg. c. |
US3167385A (en) * | 1956-12-07 | 1965-01-26 | British Celanese | Method of improving the safe ironing temperature and crystallinity of cellulose triacetate textile fibres with specific organic media |
US3128148A (en) * | 1957-02-06 | 1964-04-07 | Eastman Kodak Co | Boiling aqueous organic liquid enhancement of high acetyl cellulose acetate productsflow point and wrinkle recovery |
US3991236A (en) * | 1968-11-22 | 1976-11-09 | Vepa Ag | Method for coating a material length with a fluid coating substance |
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