US2081171A - Manufacture of artificial materials - Google Patents

Manufacture of artificial materials Download PDF

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US2081171A
US2081171A US717072A US71707234A US2081171A US 2081171 A US2081171 A US 2081171A US 717072 A US717072 A US 717072A US 71707234 A US71707234 A US 71707234A US 2081171 A US2081171 A US 2081171A
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spinning
materials
stretch
bath
cellulose
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US717072A
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Dreyfus Henry
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Henry Dreyfuss Associates LLC
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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
    • D01F2/00Monocomponent artificial filaments or the like of cellulose or cellulose derivatives; Manufacture thereof
    • D01F2/24Monocomponent artificial filaments or the like of cellulose or cellulose derivatives; Manufacture thereof from cellulose derivatives
    • D01F2/28Monocomponent artificial filaments or the like of cellulose or cellulose derivatives; Manufacture thereof from cellulose derivatives from organic cellulose esters or ethers, e.g. cellulose acetate

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  • the spinning conditions are such that the maximum recovery of the solvent consistent with obtaining a product having the desired physical characteristics is effected.
  • - threads, ribbons and like materials are formed by extruding a solution of a film forming base in a volatile solvent into an evaporative atmosphere and are continuously passed, while they still retain substantial quantities of a stretch-assisting agent containedin said solution, into a bath of stretch-assisting agent and stretched.
  • volatile solvent includes solvent mixtures, which need not include any true solvent for the base provided the mixture is a solvent therefor, and which need not be volatile as a whole at the temperature of the evaporative atmosphere provided sufiicient evaporation takes place at that temperature to form the materials from the solution.
  • the stretch-assisting agent ' is preferably a major constituent of the spinning solution and may with advantage constitute the whole of the volatile solvent thereof.
  • the proportion of the stretch-assisting agent retained in the materials when they are passed into the bath is preferably at least 20% on their Weight and. may with advantage be more e. g. or up to or 50%. The proportion may indeed be as great as is consistent with operating the process without breakage of the materials.
  • the process of the invention greatly facilitates the attainment of equilibrium between the solvent and the material to be stretched. This is of considerable importance in ensuring uniformity of the product and in enabling stretchingto be rapidly effected even when the degree of stretch is considerable, without loss of uniformity.
  • the invention is generally applicable in the manufacture of filaments, threads, yarns, fibres,
  • the invention is de- The inventionis not limited to the employment of any particular form of dry spinning apparatus; the apparatus may be of any form capable of being worked so as to deliver to the stretching apparatus products of the desired sort.
  • the spinning apparatus may for example be of the type described in U. S. Patent No. 1,602,125
  • path may be considerably reduced without sac rifice of speed so as to retain in the products th desired proportion of volatile solvent.
  • Reducing the length of travel of the materials through the spinning zone is however merely one expedient which may be used in the spinning operation of the invention to limit evaporation and so bring about the retention in the products of the desired amount of the stretch-assisting agent,
  • the means may for example comprise limiting evaporation by reducing the fiow of evaporative medium through the spinning zone. Reduction of the fiow of evaporative medium below a certain value may result in the production of products of fiat crosssection. Though in normal spinning these are to be avoided, in the present invention their prcduction in the spinning operation is not objectionable, since the subsequent treatment is capable of removing such defects.
  • An alternative or additional means of limiting the amount of evaporation effected consists in reducing the temperature of the spinning zone. The possibility of spinning at lower temperatures are miscible.
  • solvents for the basic material single liquids or mixtures of two or more liquids may be used in the dope.
  • suitable solvents for cellulose-acetate mention maybe made of acetone, methyl ethyl ketone, methylene ethylene ether and dicxane.
  • the stretch-assisting agent applied in the bath is'pre'ferably of the same nature as that remaining in the products from the spinning operation.
  • the two may however be different, provided they The two stretch-assisting agents may" be such that 'the mixture has greater stretch assisting properties than either of the constituents alone. Where the two stretch-assistingagents are different, it is of advantage, with'a view to their recovery, that they should be readily separable.
  • stretch-assisting agents for cellulose acetate the following maybe mentioned: acetone, diacetone alcohol; the estersj ethers and ethervesters of 'olefine'glycols and of poly-olefine glycolsyfor example the di-inethyl ether of ethylene glycol, and the mono methylene ether of diethylene glycol, methylene ethylene ether and dioxane, glycol mono-acetate, methyl glycol monoacetate, ethyl lactate, diethyl tartrate and monoand di-acetins.
  • the composition of the stretch-assisting medium should not be such that under the conditions of the treatment it dissolves the material to any appreciable extent.
  • rollers rotating at speeds intermediate between those of the rollers I4 and I! may with advantage be interposed so as to effect the stretch in stages.
  • the filaments may be brought together prior to entering the stretching bath, so as to form a single filament of large denier. Preferably, however, the individual filaments are kept separate until after entering the stretching bath.
  • Stretching may be efiected in two or more stages, and between stages the tension maybe relaxed and the products allowed to shrink in the presence of the stretch-assisting agent.
  • This intermediate shrinking step is important in that the tensile'strength of the products appears to be enhanced more by the application of a given stretch in two or more stages with rest-inter- I vals between than by the application of the same stretch in one stage.
  • the invention is not limited to imparting any
  • the following example illustrates the inven-- tion Ezvample A 25% solution of cellulose acetate in dioxane is extruded into an evaporating atmosphere maintained at an average temperature of C. and drawn through said atmosphere at such a rate that the filaments formed as they emerge from the spinning zone contain 25-35% on their weight of dioxane.
  • the filaments pass from the spinning zone, through a short air path in which very little further evaporaion occurs, under a roller partially immersedin a bath containing 40-45% aqueous dioxane, and in succession round two further rollers also partially immersed in the bath, after which they leave the bath, pass through a short washing bath, and are collected.
  • the second roller in the stretching bath rotates at 1.5 times the speed of the first and the third when at twice the speed of the second.
  • the filaments may be brought together to form a single thread before entering the stretching bath but are preferably kept apart, in whichcase they may be twisted simultaneously with winding, by means, for instance, of a centrifugal spinning box.
  • a centrifugal spinning box When'this form of collecting device is used it is unnecessary to dry the filaments before collecting them since the most convenient way of assisting their passage through the funnel guide of the spinning box is by means of a slow stream of Water or other liquid.
  • the most important application of the invention is in connection with materials comprising cellulose acetate.
  • Other organic derivatives of cellulose may however be employed, for example other organic esters, including cellulose formate, propionate and butyrate, cellulose ethers, including methyl, ethyl and benzyl cellulose, and mixed ether-esters of cellulose, for instance oxy-ethyl cellulose acetate.
  • the basis of the material may moreover be an inorganic ester of cellulose, for example one of the various cellulose nitrates, of composition intermediate between the trinitrate and the dinitrate.
  • the invention is not limited to the use of materials comprising derivatives of cellulose having any particular degree of etherification or esterification. In the case of cellulose acetate, however, I prefer to use esters having an acetyl content calculated as acetic acid of between 50 and 60%.
  • derivatives of cellulose having a relatively high viscosity are to be preferred, particularly since the use of such materials allows of the production of products of still greater tensile strength than those obtainable using a basic material of lower viscosity.
  • the basic material comprises cellulose acetate
  • cellulose acetates of viscosity of 10 or even less are not excluded, it is preferable to employ an acetate of viscosity at least 30, and still more advantageous when the viscosity is between 50 and 100 or even between 100 and 200, measured by comparing the viscosity of a 6% solution of the cellulose acetate in acetone at C. with that of glycerine at the same temperature, taken as a standard of 100.
  • Process for the manufacture of artificial filaments, threads, ribbons and like materials which comprises, as a continuous operation, forming the materials by extruding a solution of a filament-forming base in a volatile solvent into an evaporative atmosphere, passing them, while they still retain 25-50% on their weight of a volatile stretch-assisting agent contained in said solution, into a bath containing the same stretchassisting agent and stretching them during their passage through said bath.
  • Process for the manufacture of artificial filaments, threads, ribbons and like materials which comprises, as a continuous operation, forming the materials by extruding a solution of an organic derivative of cellulose in a volatile solvent into an evaporative atmosphere, passing them, while they still retain 25-50% on their weight of a volatile stretch-assisting agent contained in said solution, into a bath containing the same stretch-assisting agent and stretching them during their passage through said bath.
  • Process for the manufacture of artificial filaments, threads, ribbons and like materials which comprises, as a continuous operation, forming the materials by extruding a solution of cellulose acetate in a volatile solvent comprising acetone into an evaporative atmosphere, passing them while they still retain 25-50% on their weight of acetone into a bath containing acetone and stretching them during their passage through said bath.

Description

Ma 25,1937. HDREWQUS 2,081,171
- MANUFACTURE OF ARTIFICIAL MATERIALS Filed March 25, 1934 Henna brebfi sl Patented May 25, 1937 UNITED STATES PATENT OFFICE. Y
MANUFACTURE OF ARTIFICIAL MATERIALS Henry Dreyfus, London, England Application March 23,
1934, Serial No. 717,072
In Great Britain March 29, 1933 6 Claims.
as the spinning operation, followed by the step" of stretching the formed products.
In the dry spinning process as commercially practised, the length of travel of the filaments,
' temperature, air fiow and speed of spinning'are always such that the filaments emerging from the spinning zone retain atthe most a proportion of volatile solvent quite inadequate materially to facilitate stretching of the product. In fact, the spinning conditions are such that the maximum recovery of the solvent consistent with obtaining a product having the desired physical characteristics is effected.
According to the present invention, filaments,
- threads, ribbons and like materials are formed by extruding a solution of a film forming base in a volatile solvent into an evaporative atmosphere and are continuously passed, while they still retain substantial quantities of a stretch-assisting agent containedin said solution, into a bath of stretch-assisting agent and stretched. The term volatile solvent includes solvent mixtures, which need not include any true solvent for the base provided the mixture is a solvent therefor, and which need not be volatile as a whole at the temperature of the evaporative atmosphere provided sufiicient evaporation takes place at that temperature to form the materials from the solution. The stretch-assisting agent 'is preferably a major constituent of the spinning solution and may with advantage constitute the whole of the volatile solvent thereof. The proportion of the stretch-assisting agent retained in the materials when they are passed into the bath is preferably at least 20% on their Weight and. may with advantage be more e. g. or up to or 50%. The proportion may indeed be as great as is consistent with operating the process without breakage of the materials.
The process of the invention greatly facilitates the attainment of equilibrium between the solvent and the material to be stretched. This is of considerable importance in ensuring uniformity of the product and in enabling stretchingto be rapidly effected even when the degree of stretch is considerable, without loss of uniformity.
The invention is generally applicable in the manufacture of filaments, threads, yarns, fibres,
ribbons, films and the like by the evaporative process, and in particular to the manufacture by this process of materials made of or containing derivatives of cellulose. scribed herein with particular reference to products the basic material of which is a derivative of cellulose.
The invention is de- The inventionis not limited to the employment of any particular form of dry spinning apparatus; the apparatus may be of any form capable of being worked so as to deliver to the stretching apparatus products of the desired sort.
' The spinning apparatus may for example be of the type described in U. S. Patent No. 1,602,125
path may be considerably reduced without sac rifice of speed so as to retain in the products th desired proportion of volatile solvent.
Reducing the length of travel of the materials through the spinning zone is however merely one expedient which may be used in the spinning operation of the invention to limit evaporation and so bring about the retention in the products of the desired amount of the stretch-assisting agent,
and the invention is not limited to any particular means for obtaining this result. The means may for example comprise limiting evaporation by reducing the fiow of evaporative medium through the spinning zone. Reduction of the fiow of evaporative medium below a certain value may result in the production of products of fiat crosssection. Though in normal spinning these are to be avoided, in the present invention their prcduction in the spinning operation is not objectionable, since the subsequent treatment is capable of removing such defects.
An alternative or additional means of limiting the amount of evaporation effected consists in reducing the temperature of the spinning zone. The possibility of spinning at lower temperatures are miscible.
relative to the boiling point of the solvent makes possible the use of less volatile solvents than those customarily employed, without necessitating undesirably high temperatures. If, on the other hand, the ordinary, more volatile solvents are used, such for example as acetone, the tem- V perature of the spinning zone may be lower, and in consequence the spinning apparatus may be simplified. Again, the proportion of volatile solvent to cellulose acetate or other basic material, in the dope, may be increased beyond that which is commercially practicable where a fully set product is desired as a result of the spinning operation. Hence basic materials of very high viscosity characteristics may be used in relatively dilute solution, whereas the same materials in the concentrations normally used would give spinning solutions of undesirably high viscosity. The advantages attendant on the use of high viscosity materials are referred to later.
Reduction of the amount-of solvent lost by the products in-the spinning operation by increasing the speed with which they pass through the spinning zone is another possibility. In determining the spinning speedto be adopted, however, due regard must be had to the time factor of the subsequent'treatment with the assisting agent which the products have to" undergo.
As a=solvent for the basic material single liquids or mixtures of two or more liquids may be used in the dope. Among suitable solvents for cellulose-acetate mention maybe made of acetone, methyl ethyl ketone, methylene ethylene ether and dicxane. Mixtures of latent solvents with non-solvents, which may or may not them selvesbe latent solvents or swelling agents, capable of forming with them solvent mixtures, maybe used" provided that spinning can be effected so that the liquid remaining in the materials iscapable of facilitating stretching thereof.
The stretch-assisting agent applied in the bath is'pre'ferably of the same nature as that remaining in the products from the spinning operation. The two may however be different, provided they The two stretch-assisting agents may" be such that 'the mixture has greater stretch assisting properties than either of the constituents alone. Where the two stretch-assistingagents are different, it is of advantage, with'a view to their recovery, that they should be readily separable. Among the large number of stretch-assisting agents for cellulose acetate the following maybe mentioned: acetone, diacetone alcohol; the estersj ethers and ethervesters of 'olefine'glycols and of poly-olefine glycolsyfor example the di-inethyl ether of ethylene glycol, and the mono methylene ether of diethylene glycol, methylene ethylene ether and dioxane, glycol mono-acetate, methyl glycol monoacetate, ethyl lactate, diethyl tartrate and monoand di-acetins. The composition of the stretch-assisting medium should not be such that under the conditions of the treatment it dissolves the material to any appreciable extent. Where strong solvents for the material are used therefore, the presence of a diluent,'for example waof *godets or rollers rotated Within th bath containing the stretch-assisting agent, means being provided for continuously replenishing the stretch-assisting agent in the bath.
One method of carrying out the invention is illustrated in the accompanying drawing.
In the drawing a bundle of filaments l0, formed within the spinning cell 12, of which only the lower portion is shown, and which is provided with heating pipes I3, is passed from the cell under a roller l4 partially immersed in a stretch-assisting liquid l5 contained in the bath I 6, carried round a further roller l1, also immersed in the stretch-assisting bath, and rotating at-a'higher speed than the first roller, and from thence over a godet l8, under a roller l9 partiallyimmersed in a washing bath, round a further godet 22 intoa funnel guide 23 of a centrifugal spinning box 24 wherein the materials are collected.
As described below further rollers rotating at speeds intermediate between those of the rollers I4 and I! may with advantage be interposed so as to effect the stretch in stages.
The filaments may be brought together prior to entering the stretching bath, so as to form a single filament of large denier. Preferably, however, the individual filaments are kept separate until after entering the stretching bath.
Stretching may be efiected in two or more stages, and between stages the tension maybe relaxed and the products allowed to shrink in the presence of the stretch-assisting agent. This intermediate shrinking step is important in that the tensile'strength of the products appears to be enhanced more by the application of a given stretch in two or more stages with rest-inter- I vals between than by the application of the same stretch in one stage.
The invention is not limited to imparting any The following example illustrates the inven-- tion Ezvample A 25% solution of cellulose acetate in dioxane is extruded into an evaporating atmosphere maintained at an average temperature of C. and drawn through said atmosphere at such a rate that the filaments formed as they emerge from the spinning zone contain 25-35% on their weight of dioxane. The filaments pass from the spinning zone, through a short air path in which very little further evaporaion occurs, under a roller partially immersedin a bath containing 40-45% aqueous dioxane, and in succession round two further rollers also partially immersed in the bath, after which they leave the bath, pass through a short washing bath, and are collected. The second roller in the stretching bath rotates at 1.5 times the speed of the first and the third when at twice the speed of the second.
The filaments may be brought together to form a single thread before entering the stretching bath but are preferably kept apart, in whichcase they may be twisted simultaneously with winding, by means, for instance, of a centrifugal spinning box. When'this form of collecting device is used it is unnecessary to dry the filaments before collecting them since the most convenient way of assisting their passage through the funnel guide of the spinning box is by means of a slow stream of Water or other liquid.
The most important application of the invention is in connection with materials comprising cellulose acetate. Other organic derivatives of cellulose may however be employed, for example other organic esters, including cellulose formate, propionate and butyrate, cellulose ethers, including methyl, ethyl and benzyl cellulose, and mixed ether-esters of cellulose, for instance oxy-ethyl cellulose acetate. The basis of the material may moreover be an inorganic ester of cellulose, for example one of the various cellulose nitrates, of composition intermediate between the trinitrate and the dinitrate. The invention is not limited to the use of materials comprising derivatives of cellulose having any particular degree of etherification or esterification. In the case of cellulose acetate, however, I prefer to use esters having an acetyl content calculated as acetic acid of between 50 and 60%.
As a basis for the materials of the invention derivatives of cellulose having a relatively high viscosity are to be preferred, particularly since the use of such materials allows of the production of products of still greater tensile strength than those obtainable using a basic material of lower viscosity. Thus, where the basic material comprises cellulose acetate, although cellulose acetates of viscosity of 10 or even less are not excluded, it is preferable to employ an acetate of viscosity at least 30, and still more advantageous when the viscosity is between 50 and 100 or even between 100 and 200, measured by comparing the viscosity of a 6% solution of the cellulose acetate in acetone at C. with that of glycerine at the same temperature, taken as a standard of 100.
What I claim and desire to secure by Letters Patent is:
1. Process for the manufacture of artificial filaments, threads, ribbons and like materials, which comprises, as a continuous operation, forming the materials by extruding a solution of a filament-forming base in a volatile solvent into an evaporative atmosphere, passing them, while they still retain 25-50% on their weight of a volatile stretch-assisting agent contained in said solution, into a bath containing the same stretchassisting agent and stretching them during their passage through said bath.
2. Process for the manufacture of artificial filaments, threads, ribbons and like materials, which comprises, as a continuous operation, forming the materials by extruding a solution of an organic derivative of cellulose in a volatile solvent into an evaporative atmosphere, passing them, while they still retain 25-50% on their weight of a volatile stretch-assisting agent contained in said solution, into a bath containing the same stretch-assisting agent and stretching them during their passage through said bath.
3. Process for the manufacture of artificial filaments, threads, ribbons and like materials, which comprises, as a continuous operation.
.forming the materials by extruding a solution of cellulose acetate in a volatile solvent into an evaporative atmosphere, passing them, while they still retain 25-50% on their weight of a. Volatile stretch-assisting agent contained in said solution, into a bath containing the same stretchassisting agent and stretching them during their passage through said bath.
4. Process for the manufacture of artificial filaments, threads, ribbons and like materials, which comprises, as a continuous operation, forming the materials by extruding a solution of cellulose acetate in a volatile solvent comprising acetone into an evaporative atmosphere, passing them while they still retain 25-50% on their weight of acetone into a bath containing acetone and stretching them during their passage through said bath.
US717072A 1928-11-09 1934-03-23 Manufacture of artificial materials Expired - Lifetime US2081171A (en)

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FR2047195X 1928-11-09
GB944433A GB417327A (en) 1933-03-29 1933-03-29 Improvements in the manufacture of artificial filaments, yarns, ribbons, films and like materials

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2425782A (en) * 1944-03-04 1947-08-19 Celanese Corp Preparation of filaments
US2482834A (en) * 1944-03-04 1949-09-27 Celanese Corp Apparatus for the production of artificial filaments
US3088793A (en) * 1958-12-29 1963-05-07 Monsanto Chemicals Spinning of acrylonitrile polymers
US5607700A (en) * 1993-04-15 1997-03-04 Ykk Corporation Synthetic resin pelletizing machine
US20020044986A1 (en) * 1995-12-05 2002-04-18 Fuji Photo Film Co., Ltd. Apparatus containing cooling and warming devices for the preparation of a polymer solution
US20180088259A1 (en) * 2016-03-11 2018-03-29 Boe Technology Group Co., Ltd. Blue light filtering film and method of manufacturing the same

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB580498A (en) * 1944-03-29 1946-09-10 Percy Frederick Combe Sowter Improvements in the manufacture of artificial filaments

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2425782A (en) * 1944-03-04 1947-08-19 Celanese Corp Preparation of filaments
US2482834A (en) * 1944-03-04 1949-09-27 Celanese Corp Apparatus for the production of artificial filaments
US3088793A (en) * 1958-12-29 1963-05-07 Monsanto Chemicals Spinning of acrylonitrile polymers
US5607700A (en) * 1993-04-15 1997-03-04 Ykk Corporation Synthetic resin pelletizing machine
US20020044986A1 (en) * 1995-12-05 2002-04-18 Fuji Photo Film Co., Ltd. Apparatus containing cooling and warming devices for the preparation of a polymer solution
US6902383B2 (en) * 1995-12-05 2005-06-07 Fuji Photo Film Co., Ltd. Apparatus containing cooling and warming devices for the preparation of a polymer solution
US20050158417A1 (en) * 1995-12-05 2005-07-21 Fuji Photo Film Co., Ltd. Apparatus containing cooling and warming devices for the preparation of a polymer solution
US7160021B2 (en) 1995-12-05 2007-01-09 Fuji Photo Film Co., Ltd. Apparatus containing cooling and warming devices for the preparation of a polymer solution
US20180088259A1 (en) * 2016-03-11 2018-03-29 Boe Technology Group Co., Ltd. Blue light filtering film and method of manufacturing the same

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US2047195A (en) 1936-07-14
FR769879A (en) 1934-09-03

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