US2566457A - Manufacture of viscose products - Google Patents

Manufacture of viscose products Download PDF

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US2566457A
US2566457A US202150A US20215050A US2566457A US 2566457 A US2566457 A US 2566457A US 202150 A US202150 A US 202150A US 20215050 A US20215050 A US 20215050A US 2566457 A US2566457 A US 2566457A
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threads
bath
xanthate
steam
less
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US202150A
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Levison Robert
Blomberg Barend Jan
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Akzona Inc
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American Enka Corp
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    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F11/00Chemical after-treatment of artificial filaments or the like during manufacture
    • D01F11/02Chemical after-treatment of artificial filaments or the like during manufacture of cellulose, cellulose derivatives, or proteins

Definitions

  • This invention relates to a continuous process for the manufacture of viscose products, and more particularly to a process for the continuous aftertreatment of freshly formed viscose threads traveling at high speeds in a substantially linear direction through successive treating baths, wherein the decomposition of cellulose xanthate is carried out in a more economical manner.
  • the freshly spun threads are drawn from an acid coagulating bath, passed through various liquid treatme stages, and then either dried and collected or collected wet.
  • a thread that has been freshly spun in a normal spinbath is exposed to a decomposing bath at a temperature in the range of 60 to 95. 0., containing both H2804 and Na2SO4 in about the same molecular ratio as they exist in the spinning bath (1. e., the molecular ratio of H2SO4 to neutral NazSOr less than 1).
  • the xanthate ratio is reduced to 0.02.
  • the xanthate ratio i. e., the ratio of the number of residual xanthate groups to the total number of cellulose groups (CeHioOs) is determined by any of the well known chemical methods. One suitable determinative method is described in Leroy H. Smith, Synthetic Fiber Developments in Germany 1946, pages 201-204.
  • the above values of xanthate ratio occur when the time of thread travel through each bath is 3 or 4 seconds, and the bath lengths are3 to 5 meters for thread speeds of 60 to 100 meters per minute. Furthermore, the baths, especially the second, are at high temperatures and are ex posed to the atmosphere, and accordingly there is a high rate of heat loss from the surface of the baths which incurs the disadvantage of high rate of steam consumption.
  • the first treatment of the freshly spun threads is similar to that described in the above mentioned application Serial No. 81,844 and comprises passing the threads through a decomposing bath containing both H2SO4 and NazSO-r in approximately the same molecular ratio that they are contained in the spinning bath, i. e., with the molecular ratio of neutral Na2SO4 to H2SO4 greater than 1:1.
  • the acid concentrations in this first decomposing bath lie between 0.5% and 6.0%, while the corresponding Na2SO4 concentrations lie between 1.0% and 10%.
  • This bath is kept at a temperature between 60 and 95 C., which is the xanthate ratio to a value of 0.10, as contrasted to the .value'lofi 0.02 required in the earlier process. This permits the use of a treating bath which is markedly shorter in length. The so-.
  • the salt-free threads are next 1passe'cl very brieflythrough a so-called loading bath, containing substantially pure dilute acid, which is at a temperature between room temperature and about 60 C.
  • the distance ofxtravel through this loading bath can be as short as 50 cm., even whenthread speeds of 100 meters per minute and higher are employed, thus givin a treatment time of less than one second.
  • the concentration of the acid is determined by the total thread denier, the thread filament denier, and the retentionof acid per unit length of. thread. For example, if 100 denier threads of 40 filaments are being treated,
  • sodiumisulfate may be present in this loading bath, but only if its molecular concentration is less than that of the acid. It is a prerequisite that the NazSO4 molecularconcentration be less than that of the acid in order for the process to be commercially satisfactory.
  • the loaded threads are then withdrawn from this loading bath and conducted through a tunnel or chamber where they are subjected to the action of saturated steam for the time necessary to.reduce the xanthate ratio to 0.003 or lower.
  • a time of three seconds for normal textile threads, and slightly longer forthe heavier threads (1100 denier and higher) is generally sufiicient.
  • this necessitates a steam chamber of 3 to 5 meters in length as a minimum, and at most 4 to fi m'eters in length.
  • the threads can be washed with water only, which gives threads containing 0.04% sulfur; after which normal bleaching and finishin operations can be carried out.v
  • the temperature of the water should be over 40 C.
  • this percentage of sulfur is not troublesome in the final product.
  • a desulfuring treatment with any of the well known desulfuring solutions i. e., sodium sulfide
  • the thread can be collected wet in package form, or else dried as a running thread by any suitable means.
  • This process is especially suitable for, the treatment'of a moving sheet, or warp of a plurality of closely spaced parallel threads, which can be passed in succession through the various treatin baths and then through slit-shaped steam chamber, the. dimensions of which are adapted to the outer dimensions of the sheet of threads. ,In this manner, the individual threads of the moving sheet receive a very even and uniform heating eifect in the steam chamber.
  • the saving of steam Since the first decomposing bath is shorter than normal, less steam is required. Furthermore, the second loading bath may be kept at room temperature and may 4 be as short as 50 cm., which contrasts with the long second decomposing bath at an elevated temperature of earlier processes and represents a substantial steam saving. Further, since most of the sulfur can be removed from the thread by water, a shorter desulfuring bathrcan be used. Since the desulfuring bath is heated by steam, this results in a still further steam economy.
  • a further advantage of this invention is the improvement obtained in the desulfurln and bleaching resulting from the eilective decomposition ofthe cellulose xanthate.
  • Example With the aid of a spinning machine, for'example such as described in U. S. application Serial No.”182,534, filed August 31, 1950, and assigned to the same assignee as this application, 60 threads of 100 denier and 40 single filaments per thread were spun in a normal coagulating bath. Thereupon these threads were drawn oil as a sheet of threads, with a mutual thread distance of, '7 mm. The sheet of threads, withdrawn at a speed of 60 meters per minute, was guided through a decomposing bath at C., which contained 4% H2804 and in which the ratio between acid and salts were equal to that of the spinning bath.
  • the sheet of threads was stretched in this bath about 50% by means of a draw-off roller, which had a peripheral speed of about '90 meters per minute.
  • the stretched sheet of threads was guided through a water bath of 20 C. with a speed of about meters per minute and thereupon through a substantially pure 1% H2504 solution at 25 C.
  • the sheet of threads which had been thereby partially decomposed, washed and reloaded with pure acid, was guided through aslit-shaped tunnel 5 meters in length and during the passage through the tunnel, the sheet was exposed to the action of saturated steam. The'sheet was then washed with water. At this point the sulfur content of the thread amounted to 0.04%. The product was finally bleached and finished.
  • the sheet of threads wastreated to remove a portion of the water, for example, by
  • a treatment in a normal desulfuring bath was carried out before bleaching.
  • the product was squeezed out, for example, by means of squeezing rollers. After this it was dried and finally the individual threads of the sheet were wound in the twisted state.
  • the invention is not limited to normal rayon such as 2.5 and 5 filament denier, but is also applicable to'the preparation of thicker products made from viscose such as horsehair, ribbons, and films, and when the expression fthreads is used in the claims it is intended to cover these othersaid productsj Obv1ously,-various modifications may be made without departing from the spirit and scope of the invention.
  • a process for the continuous manufacture of viscose threads which comprises extruding a multiplicity of threads through spinnerets into a coagulating bath containing sulphuric acid and salts thereof, passing the threads in a parallel relationship linearly through a second bath of such length that the speed at which the thread passes through the bath limits the time of passage to less than one second, thereby lowering the xanthate ratio to about 0.10, which is insuilicient to permit subsequent complete desulphurization, said second bath being maintained at a temperature of about 80 C.
  • a process for the continuous manufacture of viscose threads which comprises extruding a multiplicity of threads through spinnerets into a coagulating bath containing sulphuric acid and salts thereof, passing the threads in a parallel relationship linearly through a second bath of such length that the speed at which the thread passes through the bath limits the time of passage to less than one second, thereby lowering the xanthate ratio to about 0.10, which is insufficient to permit subsequent complete desulphurization, said second bath being maintained at a temperature in the range of C.-95 (3., and containing a lower concentration of acid and salt than that of the first bath, washing the threads free of salts, treating the threads for less than one second with a dilute sulphuric acid solution maintained between room temperature and 60 C., decomposing the remaining xanthate in the threads to a xanthate ratio below 0.003 by exposing them to the action of steam, again washing the threads and effecting substantially complete desulphurization.
  • a process for the continuous manufacture of viscose threads which comprises extruding a multiplicity of threads through spinnerets into a coagulating bath containing sulphuric acid and salts thereof, passing the threads in a parallel relationship linearly through a second bath of such length that the speed at which the thread passes through the bath limits the time of passage to less than one second, thereby lowering the xanthate ratio to about 0.10, which is insufficient to permit subsequent complete desulphurization, said second bath being maintained at a temperature of about C.

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Spinning Methods And Devices For Manufacturing Artificial Fibers (AREA)

Description

Patented Sept. 4, 1951 UNITED STATES PATENT OFFICE 2,566,457 MANUFACTURE OF VISCOSE PRoDUo'r's Robert Levison, Ede, and Barend Jan Blomherg,
Yelp, Netherlands, assignors to American Enka Corporation, Erika, N. e.,a earlier-anon or Delawere No Drawing. Application December 21, 1950, Se-
rial No. 202,150. In'the Netherlands January 4 Claims.
This invention relates to a continuous process for the manufacture of viscose products, and more particularly to a process for the continuous aftertreatment of freshly formed viscose threads traveling at high speeds in a substantially linear direction through successive treating baths, wherein the decomposition of cellulose xanthate is carried out in a more economical manner.
In the continuous manufacture of viscose products such as threads, fibers, films, and the like, designated generically as threads, the freshly spun threads are drawn from an acid coagulating bath, passed through various liquid treatme stages, and then either dried and collected or collected wet.
One method of passing the threads through the various liquid treating zones is that of the so-called sheet" method, as described in U. S. Patent No. 2,334,325, assigned to the same assignee as this present application, in which a I properly. This Xanthate decomposition is ordinarily a slow process, but it has been found possible to reduce the reaction time considerably through the use of special treating baths as described in detail in U. S. application Serial No. 81,844, filed March 16, 1949, assigned to the same assignee as this application.
In the process according to this application, a thread that has been freshly spun in a normal spinbath is exposed to a decomposing bath at a temperature in the range of 60 to 95. 0., containing both H2804 and Na2SO4 in about the same molecular ratio as they exist in the spinning bath (1. e., the molecular ratio of H2SO4 to neutral NazSOr less than 1). In this bath the xanthate ratio is reduced to 0.02. (The xanthate ratio, i. e., the ratio of the number of residual xanthate groups to the total number of cellulose groups (CeHioOs) is determined by any of the well known chemical methods. One suitable determinative method is described in Leroy H. Smith, Synthetic Fiber Developments in Germany 1946, pages 201-204.)
After washing to remove the salts from the ried out in a dilute H2504 bath which contains uaasol substsnuauy belowthe bisulfate rand i. e., for every moi of H2804, less than 1 mm or sodium sulfate is used. At the end of this second treatment, the Xahthate ratio is reduced to less than 0.003, and rerer'ably under 0.002. After these two treatments, desulfuring can take place very satisfactorily with the result that there is not enough residual sulfur in the finished thread to give rise to any undesirable yellow discolorations, which would be detrimental in the finished product.
The above values of xanthate ratio occur when the time of thread travel through each bath is 3 or 4 seconds, and the bath lengths are3 to 5 meters for thread speeds of 60 to 100 meters per minute. Furthermore, the baths, especially the second, are at high temperatures and are ex posed to the atmosphere, and accordingly there is a high rate of heat loss from the surface of the baths which incurs the disadvantage of high rate of steam consumption.
It is therefore an object of this invention to reduce this high steam consumption by providing an improved process for the continuous manufacture of viscose threads by passing a sheet of parallel threads at high speed in a substantially straight direction through a succession of treating baths whereby the decomposition of the cellulose xanthate is accomplished in a more economical manner than heretofore has been possible.
It is contemplated, according to this invention to first decompose the freshly spun threads to a. xanthate ratio of 0.10, second, to load the threads with substantially pure dilute l-izSSOr, and third to subject the loaded threads to the action of, steam until the xantha'te ratio is below 0.003.
Other advantages and objects of this invention will become apparent from the following description.
In this present process, the first treatment of the freshly spun threads is similar to that described in the above mentioned application Serial No. 81,844 and comprises passing the threads through a decomposing bath containing both H2SO4 and NazSO-r in approximately the same molecular ratio that they are contained in the spinning bath, i. e., with the molecular ratio of neutral Na2SO4 to H2SO4 greater than 1:1. The acid concentrations in this first decomposing bath lie between 0.5% and 6.0%, while the corresponding Na2SO4 concentrations lie between 1.0% and 10%. This bath is kept at a temperature between 60 and 95 C., which is the xanthate ratio to a value of 0.10, as contrasted to the .value'lofi 0.02 required in the earlier process. This permits the use of a treating bath which is markedly shorter in length. The so-.
dium sulfate entrained on the threads is then washed out by means of a salt-free-solution and this step is parallel to that of the earlier process.
The salt-free threads are next 1passe'cl very brieflythrough a so-called loading bath, containing substantially pure dilute acid, which is at a temperature between room temperature and about 60 C. The distance ofxtravel through this loading bath can be as short as 50 cm., even whenthread speeds of 100 meters per minute and higher are employed, thus givin a treatment time of less than one second. The concentration of the acid is determined by the total thread denier, the thread filament denier, and the retentionof acid per unit length of. thread. For example, if 100 denier threads of 40 filaments are being treated,
a 1% solution issufficient. sodiumisulfate may be present in this loading bath, but only if its molecular concentration is less than that of the acid. It is a prerequisite that the NazSO4 molecularconcentration be less than that of the acid in order for the process to be commercially satisfactory. d v
The loaded threads are then withdrawn from this loading bath and conducted through a tunnel or chamber where they are subjected to the action of saturated steam for the time necessary to.reduce the xanthate ratio to 0.003 or lower. A time of three seconds for normal textile threads, and slightly longer forthe heavier threads (1100 denier and higher) is generally sufiicient. At thread speeds of 60 to 100 meters per minute, this necessitates a steam chamber of 3 to 5 meters in length as a minimum, and at most 4 to fi m'eters in length. v Following the steam treatment, the threads can be washed with water only, which gives threads containing 0.04% sulfur; after which normal bleaching and finishin operations can be carried out.v For this operation, the temperature of the water should be over 40 C. For many purposesthis percentage of sulfur is not troublesome in the final product. For lower values of sulfur, a desulfuring treatment with any of the well known desulfuring solutions (i. e., sodium sulfide) can be given prior to the bleaching and finishing, in which caseit is possible tofuse a shorter bath travel through thedesulfurant after the various liquid treatments, the thread can be collected wet in package form, or else dried as a running thread by any suitable means.
This process is especially suitable for, the treatment'of a moving sheet, or warp of a plurality of closely spaced parallel threads, which can be passed in succession through the various treatin baths and then through slit-shaped steam chamber, the. dimensions of which are adapted to the outer dimensions of the sheet of threads. ,In this manner, the individual threads of the moving sheet receive a very even and uniform heating eifect in the steam chamber.
It can be seen that one of the most important advantages in the process of this invention resides in. the saving of steam. Since the first decomposing bath is shorter than normal, less steam is required. Furthermore, the second loading bath may be kept at room temperature and may 4 be as short as 50 cm., which contrasts with the long second decomposing bath at an elevated temperature of earlier processes and represents a substantial steam saving. Further, since most of the sulfur can be removed from the thread by water, a shorter desulfuring bathrcan be used. Since the desulfuring bath is heated by steam, this results in a still further steam economy. offsetting this steam economy isthe steamrequired in the steaming chamber, but when this chamber is properly designed so that a plurality of threads can enter and leave through narrow slits, an overall steam saving, as compared to the former method, is obtained which amounts to 30% to 60%.
A further advantage of this invention is the improvement obtained in the desulfurln and bleaching resulting from the eilective decomposition ofthe cellulose xanthate.
One embodiment of the process of this invention can be illustrated by the following example:
Example With the aid of a spinning machine, for'example such as described in U. S. application Serial No."182,534, filed August 31, 1950, and assigned to the same assignee as this application, 60 threads of 100 denier and 40 single filaments per thread were spun in a normal coagulating bath. Thereupon these threads were drawn oil as a sheet of threads, with a mutual thread distance of, '7 mm. The sheet of threads, withdrawn at a speed of 60 meters per minute, was guided through a decomposing bath at C., which contained 4% H2804 and in which the ratio between acid and salts were equal to that of the spinning bath. The sheet of threads was stretched in this bath about 50% by means of a draw-off roller, which had a peripheral speed of about '90 meters per minute. The stretched sheet of threads was guided through a water bath of 20 C. with a speed of about meters per minute and thereupon through a substantially pure 1% H2504 solution at 25 C.
The sheet of threads, which had been thereby partially decomposed, washed and reloaded with pure acid, was guided through aslit-shaped tunnel 5 meters in length and during the passage through the tunnel, the sheet was exposed to the action of saturated steam. The'sheet was then washed with water. At this point the sulfur content of the thread amounted to 0.04%. The product was finally bleached and finished. As an alternative, the sheet of threads wastreated to remove a portion of the water, for example, by
.means of an expressing operation between squeezing'rollers, and then dried. Finally, the individual threads of the sheet were collected by winding.
To give a final product with lower sulfur content, a treatment in a normal desulfuring bath was carried out before bleaching. As a variation, the product was squeezed out, for example, by means of squeezing rollers. After this it was dried and finally the individual threads of the sheet were wound in the twisted state.
The invention is not limited to normal rayon such as 2.5 and 5 filament denier, but is also applicable to'the preparation of thicker products made from viscose such as horsehair, ribbons, and films, and when the expression fthreads is used in the claims it is intended to cover these othersaid productsj Obv1ously,-various modifications may be made without departing from the spirit and scope of the invention.
What is claimed is:
1. A process for the continuous manufacture of viscose threads which comprises extruding a multiplicity of threads through spinnerets into a coagulating bath containing sulphuric acid and salts thereof, passing the threads in a parallel relationship linearly through a second bath of such length that the speed at which the thread passes through the bath limits the time of pas= sage to less than one second, thereby lowering the xanthate ratio to about 0.10, which is in sufficient to permit subsequent complete desul-= phurization, said second bath being maintained at a temperature in the range of 60 C.-95 C. and containing a lower concentration of acid and salt than that of the first bath, washing the threads free of salts, treating the threads for less than one second with a dilute sulphuric acid solution maintained between room temperature and 60 0., decomposing the remaining xanthate in the threads to a xanthate ratio below 0.003 by exposing them to the action of steam, and finally removing all of the sulphur except about 0.04% by washing the threads in water above 40 C.
2. A process for the continuous manufacture of viscose threads which comprises extruding a multiplicity of threads through spinnerets into a coagulating bath containing sulphuric acid and salts thereof, passing the threads in a parallel relationship linearly through a second bath of such length that the speed at which the thread passes through the bath limits the time of passage to less than one second, thereby lowering the xanthate ratio to about 0.10, which is insuilicient to permit subsequent complete desulphurization, said second bath being maintained at a temperature of about 80 C. and containing 4% sulphuric acid, washing the threads free of salts, treating the threads for less than one second with a 1% sulphuric acid solution maintained at about 25 0., decomposing the remaining xanthate in the threads to a xanthate ratio below 0.003 by exposing them to the action of saturated steam, and finally removing all of the sulphur except about 0.04% by washing the threads in water above 40 C.
3. A process for the continuous manufacture of viscose threads which comprises extruding a multiplicity of threads through spinnerets into a coagulating bath containing sulphuric acid and salts thereof, passing the threads in a parallel relationship linearly through a second bath of such length that the speed at which the thread passes through the bath limits the time of passage to less than one second, thereby lowering the xanthate ratio to about 0.10, which is insufficient to permit subsequent complete desulphurization, said second bath being maintained at a temperature in the range of C.-95 (3., and containing a lower concentration of acid and salt than that of the first bath, washing the threads free of salts, treating the threads for less than one second with a dilute sulphuric acid solution maintained between room temperature and 60 C., decomposing the remaining xanthate in the threads to a xanthate ratio below 0.003 by exposing them to the action of steam, again washing the threads and effecting substantially complete desulphurization.
4. A process for the continuous manufacture of viscose threads which comprises extruding a multiplicity of threads through spinnerets into a coagulating bath containing sulphuric acid and salts thereof, passing the threads in a parallel relationship linearly through a second bath of such length that the speed at which the thread passes through the bath limits the time of passage to less than one second, thereby lowering the xanthate ratio to about 0.10, which is insufficient to permit subsequent complete desulphurization, said second bath being maintained at a temperature of about C. and containing 4% sulphuric acid, washing the threads free of salts, treating the threads for less than one second with a 1 sulphuric acid solution maintained at about 25 C., decomposing the remaining xanthate in the threads to a xanthate ratio below 0.003 by exposing them to the action of saturated steam, again washing the threads and effecting substantially complete desulphurization.
ROBERT LEVISON. BAREND JAN BLOMBERG.
No references cited.

Claims (1)

1. A PROCESS FOR THE CONTINUOUS MANUFACTURE OF VISCOSE THREADS WHICH COMPRISES EXTRUDING A MULTIPLICITY OF THREADS THROUGH SPINNERETS INTO A COAGULATING BATH CONTAINING SULPHURIC ACID AND SALTS THEREOF, PASSING THE THREADS IN A PARALLEL RELATIONSHIP LINEARLY THROUGH A SECOND BATH OF SUCH LENGTH THAT THE SPEED AT WHICH THE THREAD PASSES THROUGH THE BATH LIMITS THE TIME OF PASSAGE TO LESS THAN ONE SECOND, THEREBY LOWERING THE XANTHATE RATIO TO ABOUT 0.108 WHICH IS INSUFFICIENT TO PERMIT SUBSEQUENT COMPLETE DESULPHURIAZATION, SAID SECOND BATH BEING MAINTAINED AT A TEMPERATURE IN THE RANGE OF 60* C.-95* C. AND CONTAINING A LOWER CONCENTRATION OF ACID AND SALT THAN THAT OF THE FIRST BATH, WASHING THE THREADS FREE OF SALTS, TREATING THE THREADS FOR LESS THAN ONE SECOND WITH A DILUTE SULPHURIC ACID SOLUTION MAINTAINED BETWEEN ROOM TEMPERATURE AND 60* C., DECOMPOSING THE REMAINING XANTHATE IN THE THREADS TO A XANTHATE RATIO BELOW 0.003 BY EXPOSING THEM TO THE ACTION OF STEAM, AND FINALLY REMOVING ALL OF THE SULPHURIC EXCEPT ABOUT 0.04% BY WASHING THE THREADS IN WATER BELOW ABOVE 40* C.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3006027A (en) * 1958-06-27 1961-10-31 Spinnfaster Ag Method and apparatus for spinning and stretching viscose rayon

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3006027A (en) * 1958-06-27 1961-10-31 Spinnfaster Ag Method and apparatus for spinning and stretching viscose rayon

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