US2528129A - Textile product - Google Patents

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US2528129A
US2528129A US782870A US78287047A US2528129A US 2528129 A US2528129 A US 2528129A US 782870 A US782870 A US 782870A US 78287047 A US78287047 A US 78287047A US 2528129 A US2528129 A US 2528129A
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Prior art keywords
fibres
resins
felts
resin
layer
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US782870A
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Jr Carleton S Francis
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Akzo Nobel UK PLC
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American Viscose Corp
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Priority claimed from US300876A external-priority patent/US2459803A/en
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    • DTEXTILES; PAPER
    • D04BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
    • D04HMAKING TEXTILE FABRICS, e.g. FROM FIBRES OR FILAMENTARY MATERIAL; FABRICS MADE BY SUCH PROCESSES OR APPARATUS, e.g. FELTS, NON-WOVEN FABRICS; COTTON-WOOL; WADDING ; NON-WOVEN FABRICS FROM STAPLE FIBRES, FILAMENTS OR YARNS, BONDED WITH AT LEAST ONE WEB-LIKE MATERIAL DURING THEIR CONSOLIDATION
    • D04H1/00Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres
    • D04H1/40Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres from fleeces or layers composed of fibres without existing or potential cohesive properties
    • D04H1/44Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres from fleeces or layers composed of fibres without existing or potential cohesive properties the fleeces or layers being consolidated by mechanical means, e.g. by rolling
    • D04H1/46Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres from fleeces or layers composed of fibres without existing or potential cohesive properties the fleeces or layers being consolidated by mechanical means, e.g. by rolling by needling or like operations to cause entanglement of fibres
    • D04H1/48Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres from fleeces or layers composed of fibres without existing or potential cohesive properties the fleeces or layers being consolidated by mechanical means, e.g. by rolling by needling or like operations to cause entanglement of fibres in combination with at least one other method of consolidation
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T442/00Fabric [woven, knitted, or nonwoven textile or cloth, etc.]
    • Y10T442/10Scrim [e.g., open net or mesh, gauze, loose or open weave or knit, etc.]
    • Y10T442/102Woven scrim
    • Y10T442/159Including a nonwoven fabric which is not a scrim
    • Y10T442/16Two or more nonwoven layers
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T442/00Fabric [woven, knitted, or nonwoven textile or cloth, etc.]
    • Y10T442/30Woven fabric [i.e., woven strand or strip material]
    • Y10T442/3707Woven fabric including a nonwoven fabric layer other than paper
    • Y10T442/3724Needled
    • Y10T442/3756Nonwoven fabric layer comprises at least two chemically different fibers

Definitions

  • This invention relates, in general, to felted fibrous structures, and, in particular, to a process for producing felts and includes correlated improvements designed to enhance the properties,
  • Another object of the invention is to provide an improved felt from smooth-surfaced and/or relatively straight fibres, such felts having-certain desirable characteristics among which are increased strength and greater tenacity between component fibres and improved wet strength.
  • a specific object of the invention is .to provide a. shaped felted structure adapted for use as a substitute for woven fabrics and which may be manufactured according to the invention at less cost and with less expenditure. of time than woven fabrics.
  • felts of substantial strength and high tenacity are made from a mixture of normally non-felting fibre and synthetic resin fibres, the non-felting fibres being maintained in a felted condition by the thermal tackiness of the resin fibres.
  • the process of the present invention may be carried out by mixing together normally non-felting fibres with synthetic resin fibres which are nontacky at room temperature, but which become tacky below the temperature at which the nonfelting fibres are damaged, felting the mixture of fibres, heating the felted mixture to a temperature at which the resinous fibres become tacky and cooling the felt to effect fibre adhesion.
  • the resin fibres may be rendered tacky during or after the felting operation and the felt is preferably subjected to pressure while the resin is in an adhesive condition.
  • the expression felt as used in the specification and claims is intended to include both textile felts and unwoven felted structures formed therefrom. Paper felts are not claimed herein since such felts are claimed in my copending U. S. application Serial No. 444,438, filed May 25, 1942, now Patent 2,526,125.
  • the present invention enables improved felts to be made from various natural or synthetic fibres and filaments which are smooth surfaced and/or relatively straight and which do not felt readily.
  • natural fibres which may be used are cotton, flax, jute, kapok, silk, and the like, or they may be synthetic fibres of cellulosic composition, such as a cellulose hydrate, cellulose derivatives, as cellulose esters, mixed cellulose esters, cellulose ethers, mixed cellulose ester-ethers, mixed cellulose ethers, cellulose hydroxy-ethers, cellulose carboxy-ethers, cellulose ether-xanthates, cellulose xantho-fatty acids, cellulose thiourethanes; natural and synthetic rubber and derivatives thereof; alginic acid, gelatine, casein; and mineral fibres such, for example, as spun glass, asbestos, mineral wool and the like, and fibres made of natural and synthetic resins which should be of such type that they are not rendered tacky when the potentially adhesive resin fibres are rendered
  • the potentially adhesive resin fibre may be composed of a wide variety of materials, and may comprise any synthetic resinous material capable of being formed into fibres which have an inherent tackiness upon heating to a temperature below that at which the non-felting fibres are damaged or rendered tacky and which are nontacky at room temperature such, for'example, as the resins formed by the polymerization of various organic compounds such as coumarone, indene hydrocarbons, vinyl, styrene, sterol aldehyde, furfural, ketones, urea, thiourea, phenolaldehyde resins, either alone or modified with oils, urea-aldehyde resins, amine-aldehyde resins, sulfonamide-aldehyde resins, polyhydric alcoholpolybasic acid resins, drying oil-modified alkyd resins, resins formed from acrylic acid.
  • any synthetic resinous material capable of being formed into fibres which have an inherent tackiness upon heating to
  • nylon type fibres formed from synthetic or artificial rubber such for example as polymerized butadiene, olefine-polysulfides, e. g. Thiokol," isobutylene polymers, chloroprene polymers and polyvinyl-halides, e. g.
  • fibres formed from a resin comprising the prodnot of co-polymerizing two or more resins such, for example, as co-polymers of vinyl halide and vinyl acetate, co-polymers of vinyl halide and an acrylic acid derivative, co-polymers of vinyl compound and styrol compound; and also fibres formed from a mixture of resins, such for example as a mixture of vinyl resins and acrylic acid resins or methacrylic acid resins, a mixture of polyolefine resins and phenol-aldehyde resins,
  • the resins above mentioned may be classified (a) Heat-non-convertible resins such for example as glycol polybasic acid resins, vinyl resins and the acid type phenol-aldehyde resins, and the like.
  • Heat-convertible resins such for example as glycerol-polybasic acid resins, polyoleiine resins, phenol-aldehyde resins and the like.
  • An element-convertible resin (which becomes infusible through the action of certain elements, such as oxygen and sulfur) such for example as glycerol-polybasic acid-drying oils, resins and olefine sulfur resins.
  • the synthetic resin fibre and the other fibre have been mixed by a method suitable to the production of a particular type of felt, for ex- For felts that are subjected to laundering or dry cleaning, the synthetic resin fibre should be insoluble in water and inert to the detergents used for laundering and dry-cleaning.
  • the resins employed are preferably those which do not soften appreciably at temperatures reached in laundering and blocking (as in the making of bat felts), although softening during blocking is not objectionable.
  • synthetic resin fibre comprising a co-polymer of vinyl acetate and vinyl chloride which fibres are made by suitable methods known in the art.
  • This fibre resembles rayon and is similar thereto in many respects, but it differs therefrom since it becomes tacky when heated to a temperature of from 200 F. to 350 F. When heated, it becomes adhesive to other fibres in contact with it and adheres thereto upon cooling. It is tough and firm at ordinary temperatures, insoluble in water, and inert to the agents used in laundering and dry-cleaning and shows no substantial decrease in tensile strength on being wetted.
  • the ratio of synthetic resin fibre to other fibre may also vary widely depending on the properties of the two types of fibres and may be regulated to suit the pur ose for which the felt is destined, but in general a minor proportion, preferably from 3 per cent to 20 per cent of the synthetic resin fibre will be employed. Where a greater degree of strength or a closer bonding of the component fibres is desired, the percentage will be relatively high, whereas in felts, such as papers of certain construction where it is desirable to ample, the fibres may be mixed by carding.
  • the inherent tackiness of the resin fibres is activated by heating the felt to an appropriate temperature, for example by the use of dry hot air, contact with heated surfaces, steam or hot water.
  • the temperature of the heat-treatment will depend on the properties of the synthetic resin fibre and must necessarily be below that at which the felt is damaged.
  • the synthetic resin fibres become nontacky and tough, and adhere to the other fibres, thus providing a felt which possesses increased strength and greater tenacity between component fibres.
  • thermoplastic fibres are largely exposed on the surface thereof.
  • heated metal such as is practiced in the conventional heated calender. The method of heating may be carried out in whichever manner may be selected to conform most satisfactorily with the effect desired in the finished felt.
  • the tackiness of the resin fibres may be modified'by heating the resin fibres in the presence of a suitable plasticizer depending on the particular type of resin.
  • the plasticizer may be incorporated in Or carried by the resin fibres and/or by the non-feltable fibres and may be incorporated in the fibres at any point prior to heating.
  • the plasticizer is incorporated in the resin mass prior to its formation into fibres and filaments.
  • the plasticizer lowers the temperature at which the resin fibres are rendered tacky upon heating.
  • the plasticizer is preferably removed by suitable means such as evaporation or extraction, thereby preventing the resin fibres from again being rendered tacky at the original activating temperature and rendering them capable of remaining non-tacky at ironing temperatures.
  • the mixture of fibres may be felted in a predetermined shape by use of a suitable mold, or the felt may be shaped and given a desired form.
  • the shaping takes place in the case of paper felts, preferably by molding or shaping the wet paper sheet.
  • textile felts it is preferable to shape the felt after its initial formation and after the thermal activation of the potentially adhesive fibres and while such fibres are in an adhesive condition.
  • the predetermined shape of both paper and textile felts may be permanently set by the deactivation of the adhesive or of the adhesive fibres.
  • the invention is applicable for making various types of textile felts, such for example as woven" felts, needle felts and pressed textile felts.
  • woven felts In the case of woven felts the basis. is a woven construction having a full nap or pile which is felted until the woven structure is obscured. After the woven construction is shrunk and the nap felted in the usual manner, the felt is subjected to heat to render the resin fibres tacky which effects an adhesion or bonding of the felted nap fibres.
  • Needle felts are commonly prepared by placing a layer of unfelted fibres on one or both sides of a woven gauze and the fibres drawn partly through the gauze by means of barbed needles, after which the article is pressed.
  • the layer of fibres comprises a mixture of unfeltable fibres and resin fibres.
  • the felt is subjected to heat and pressure to activate the inherent tackiness of the resin fibres to cause a permanent adhesion of the fibres in the layer and to effect an anchoring of the felted fibres to the gauze base.
  • the structure thus produced is illustrated in the accompanying drawing wherein the woven base is shown at I, the non-adhesive fibres are shown at 2, and the resin fibres are shown at 3.
  • the present invention has special application to the manufacture-of pressed textile felts such as are used for hats, chair pads, rug cushions, sound and shock absorbers and the like.
  • a mixture of the unfeltable fibres and resin fibres is prepared as by carding and shaped into a layer.
  • the layer of fibres is placed between heavy sheets of fabric, such as canvas, preferably moistened with water and then placed between heated metal plates which are vibrated rapidly when in contact with the enclosed layer, thus causing the fibres to become matted together in a compact layer.
  • the layer of fibres may now be heated to render the resin fibres tacky and effect a permanent adhesion of the fibres in the felted condition, or this heating step may be carried out at a later time.
  • the layer ⁇ of felted fibres before or after heating, may be folded and placed in the usual felting box provided with conventional hammers by which the layer may be pounded to a desired thickness, firmness, length, width, configuration, etc., after which the felt is heated, if desired, to render the resin fibres tacky and the felt is then finished in the usual manner.
  • the layer is run through calenders which may be heated to render the resin fibres tacky.
  • Example I A rayon staple may be cut to a length of 1.5 to 2 inches and a resinous fibre as a co-polymer of vinyl acetate and vinyl chloride may be cut to a corresponding length.
  • the cut fibres may then be mixed in a suitable carding machine in the proportions of about 90% of cut staple rayon and I the resin.
  • a temperature of about 200 F. will serve to soften the resinous fibre, and hence such temperature preferably is used.
  • the resin fibre becomes adhered to the other fibres surrounding it, causing the fibres to cling together.
  • the resinous material'becomes solid and non-tacky and tough, although still adhering to the fibre surrounding it, with the result that the fibres are substantially fixed in position, thus imparting strength and maintaining the shape of the felt.
  • a textile product comprising a prefabricated textile base, a layer of fibres on a face thereof and extending in part through said base, said layer of fibres being formed from a mixture of non-adhesive fibres and potentially adhesive fibres, fibres in said layer exhibiting a strong and substantially permanent adhesion to said textile base due to the binding action of said potentially adhesive fibres.
  • a textile prod- I uct comprising a woven fabric base, a layer of fibres on a face thereof and extending in part through said base, said layer of fibres being formed from a mixture of non-adhesive fibres and potentially adhesive fibres, fibres in said layer exhibiting a strong and substantially permanent adhesion to said textile base due to the binding action of said potentially adhesive fibres.
  • a textile product comprising a woven textile base, a layer of fibres compressed on a face thereof and extend ing in part through said base, said layer of fibres being formed from a mixture of non-adhesive fibres and thermoplastic fibres, fibres in said layer exhibiting a strong and substantially permanent adhesion to said textile base due to the binding action of said thermoplastic fibres.
  • a textile product comprising a woven textile base, a layer of fibres compressed on a face thereof and extending in part through said base, said layer of fibres being formed from a mixture of a major proportion of non-adhesive fibres and a minor proportion of thermoplastic fibres, fibres in said layer exhibiting a strong and substantially permanent adhesion to said textile base due to the binding action of said thermoplastic fibres.

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  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Nonwoven Fabrics (AREA)

Description

ct 311, E95 c. s. FRANCIS, .m TEXTILE mower Original Filed 00%. 2:, 1939 Patented Oct. 31, 1950 TEXTILE PRODUCT Carleton S. Francis, In, West Harwich, Mass.,
assignor to American Viscose Corporation, Wilmington, DeL, a corporation of Delaware Original applications October 23, 1939, Serial No.
300,876, and April 11, 1944, Serial No. 530,553. Divided and this application October 29, 1947,
Serial No. 782,870
4 Claims.
1 This invention relates, in general, to felted fibrous structures, and, in particular, to a process for producing felts and includes correlated improvements designed to enhance the properties,
characteristics and to extend the uses of the felts so produced. This application is a division of my copending application Serial No. 300,876 filed October 23, 1939, now Patent No. 2,459,803, which in turn is a continuation-in-part of application Serial No. 157,018, filed August 2, 1937 (now Patent 2,253,000). This application is also a division of my copending application Serial No. 530,553, filed April 11, 1944 (now Patent No. 2,437,689)
It has previously been impractical to make felts from fibres other than wool and like fibres which have a substantial curl and, even more important, a rough surface. When attempts are made to produce felts from smooth-surfaced and relatively straight fibres such as artificial fibres, the products produced invariably lack strength, and in many cases are devoid of any felt structure whatever, because the smooth surface of the fibres and their relatively straight form prevents the fibres from interfelting and clinging together in the manner of wool fibres. Even when artificial fibres have been given an artificial crimp or curl, they do not make satisfactory felts because the smooth-surfaced fibres slide upon one another and are not fixed in position by the felting operation.
It is a general object of the present invention to provide a method for producing felts from relatively smooth surfaced and/or relatively straight fibres.
Another object of the invention is to provide an improved felt from smooth-surfaced and/or relatively straight fibres, such felts having-certain desirable characteristics among which are increased strength and greater tenacity between component fibres and improved wet strength.
A specific object of the invention is .to provide a. shaped felted structure adapted for use as a substitute for woven fabrics and which may be manufactured according to the invention at less cost and with less expenditure. of time than woven fabrics.
Other objects of the invention will in part be obvious and will in part appear hereinafter.
The single figure of the accompanying drawing is a sectional view of the structure to which the present application is particularly directed.
In accordance with the present invention, felts of substantial strength and high tenacity are made from a mixture of normally non-felting fibre and synthetic resin fibres, the non-felting fibres being maintained in a felted condition by the thermal tackiness of the resin fibres. The process of the present invention may be carried out by mixing together normally non-felting fibres with synthetic resin fibres which are nontacky at room temperature, but which become tacky below the temperature at which the nonfelting fibres are damaged, felting the mixture of fibres, heating the felted mixture to a temperature at which the resinous fibres become tacky and cooling the felt to effect fibre adhesion. The resin fibres may be rendered tacky during or after the felting operation and the felt is preferably subjected to pressure while the resin is in an adhesive condition. The expression felt as used in the specification and claims is intended to include both textile felts and unwoven felted structures formed therefrom. Paper felts are not claimed herein since such felts are claimed in my copending U. S. application Serial No. 444,438, filed May 25, 1942, now Patent 2,526,125.
Thus the present invention enables improved felts to be made from various natural or synthetic fibres and filaments which are smooth surfaced and/or relatively straight and which do not felt readily. Among the natural fibres which may be used are cotton, flax, jute, kapok, silk, and the like, or they may be synthetic fibres of cellulosic composition, such as a cellulose hydrate, cellulose derivatives, as cellulose esters, mixed cellulose esters, cellulose ethers, mixed cellulose ester-ethers, mixed cellulose ethers, cellulose hydroxy-ethers, cellulose carboxy-ethers, cellulose ether-xanthates, cellulose xantho-fatty acids, cellulose thiourethanes; natural and synthetic rubber and derivatives thereof; alginic acid, gelatine, casein; and mineral fibres such, for example, as spun glass, asbestos, mineral wool and the like, and fibres made of natural and synthetic resins which should be of such type that they are not rendered tacky when the potentially adhesive resin fibres are rendered tacky by heating; also fibres and filaments made by slitting, cutting or shredding non-fibrous films, such as waste cellophane.
The potentially adhesive resin fibre may be composed of a wide variety of materials, and may comprise any synthetic resinous material capable of being formed into fibres which have an inherent tackiness upon heating to a temperature below that at which the non-felting fibres are damaged or rendered tacky and which are nontacky at room temperature such, for'example, as the resins formed by the polymerization of various organic compounds such as coumarone, indene hydrocarbons, vinyl, styrene, sterol aldehyde, furfural, ketones, urea, thiourea, phenolaldehyde resins, either alone or modified with oils, urea-aldehyde resins, amine-aldehyde resins, sulfonamide-aldehyde resins, polyhydric alcoholpolybasic acid resins, drying oil-modified alkyd resins, resins formed from acrylic acid. its homologues and their derivatives, sulfur-olefine resins, resins formed from dicarboxylic acids and diamines (nylon type): fibres formed from synthetic or artificial rubber such for example as polymerized butadiene, olefine-polysulfides, e. g. Thiokol," isobutylene polymers, chloroprene polymers and polyvinyl-halides, e. g. Koroseal," fibres formed from a resin comprising the prodnot of co-polymerizing two or more resins, such, for example, as co-polymers of vinyl halide and vinyl acetate, co-polymers of vinyl halide and an acrylic acid derivative, co-polymers of vinyl compound and styrol compound; and also fibres formed from a mixture of resins, such for example as a mixture of vinyl resins and acrylic acid resins or methacrylic acid resins, a mixture of polyolefine resins and phenol-aldehyde resins,
or a mixture of two or more resins from the different classes just named.
The resins above mentioned may be classified (a) Heat-non-convertible resins such for example as glycol polybasic acid resins, vinyl resins and the acid type phenol-aldehyde resins, and the like.
(b) Heat-convertible resins such for example as glycerol-polybasic acid resins, polyoleiine resins, phenol-aldehyde resins and the like.
An element-convertible resin (which becomes infusible through the action of certain elements, such as oxygen and sulfur) such for example as glycerol-polybasic acid-drying oils, resins and olefine sulfur resins.
have a comparatively small amount of bonding of the component fibres, the percentage will be relatively small.
The synthetic resin fibre and the other fibre have been mixed by a method suitable to the production of a particular type of felt, for ex- For felts that are subjected to laundering or dry cleaning, the synthetic resin fibre should be insoluble in water and inert to the detergents used for laundering and dry-cleaning. The resins employed are preferably those which do not soften appreciably at temperatures reached in laundering and blocking (as in the making of bat felts), although softening during blocking is not objectionable.
In the now preferred embodiment there is used synthetic resin fibre comprising a co-polymer of vinyl acetate and vinyl chloride which fibres are made by suitable methods known in the art. This fibre resembles rayon and is similar thereto in many respects, but it differs therefrom since it becomes tacky when heated to a temperature of from 200 F. to 350 F. When heated, it becomes adhesive to other fibres in contact with it and adheres thereto upon cooling. It is tough and firm at ordinary temperatures, insoluble in water, and inert to the agents used in laundering and dry-cleaning and shows no substantial decrease in tensile strength on being wetted.
The ratio of synthetic resin fibre to other fibre may also vary widely depending on the properties of the two types of fibres and may be regulated to suit the pur ose for which the felt is destined, but in general a minor proportion, preferably from 3 per cent to 20 per cent of the synthetic resin fibre will be employed. Where a greater degree of strength or a closer bonding of the component fibres is desired, the percentage will be relatively high, whereas in felts, such as papers of certain construction where it is desirable to ample, the fibres may be mixed by carding.
The inherent tackiness of the resin fibres is activated by heating the felt to an appropriate temperature, for example by the use of dry hot air, contact with heated surfaces, steam or hot water. The temperature of the heat-treatment will depend on the properties of the synthetic resin fibre and must necessarily be below that at which the felt is damaged. When the felt is cooled, the synthetic resin fibres become nontacky and tough, and adhere to the other fibres, thus providing a felt which possesses increased strength and greater tenacity between component fibres.
Generally, it is preferred to immerse the felt in water at or approximating the boiling point. as it is found that the water carries the heat uniformly through the felt and accordingly reacts on the thermoplastic fibres throughout the entire felt. In certain cases, however, where it is desirable to obtain a surface-glazed effect on felts, wherein the thermo-plastic fibres are largely exposed on the surface thereof, it may be more desirable to heat the fabric by surface contact with heated metal, such as is practiced in the conventional heated calender. The method of heating may be carried out in whichever manner may be selected to conform most satisfactorily with the effect desired in the finished felt.
The tackiness of the resin fibres may be modified'by heating the resin fibres in the presence of a suitable plasticizer depending on the particular type of resin. The plasticizer may be incorporated in Or carried by the resin fibres and/or by the non-feltable fibres and may be incorporated in the fibres at any point prior to heating. In the preferred embodiment the plasticizer is incorporated in the resin mass prior to its formation into fibres and filaments. The plasticizer lowers the temperature at which the resin fibres are rendered tacky upon heating. After heating, the plasticizer is preferably removed by suitable means such as evaporation or extraction, thereby preventing the resin fibres from again being rendered tacky at the original activating temperature and rendering them capable of remaining non-tacky at ironing temperatures.
The mixture of fibres may be felted in a predetermined shape by use of a suitable mold, or the felt may be shaped and given a desired form. The shaping takes place in the case of paper felts, preferably by molding or shaping the wet paper sheet. In the case of textile felts, it is preferable to shape the felt after its initial formation and after the thermal activation of the potentially adhesive fibres and while such fibres are in an adhesive condition. The predetermined shape of both paper and textile felts may be permanently set by the deactivation of the adhesive or of the adhesive fibres. By this means there may be produced a wide variety of shaped, felted structures which may be used as substitutes for woven, knitted or netted fabrics and articles made from the same. As the felting and shaping process herein described involves no spinning, weaving, knitting or other similar textile operation, it is obvious that the shaped, felted structures can be produced at a very low cost.
The invention is applicable for making various types of textile felts, such for example as woven" felts, needle felts and pressed textile felts.
In the case of woven felts the basis. is a woven construction having a full nap or pile which is felted until the woven structure is obscured. After the woven construction is shrunk and the nap felted in the usual manner, the felt is subjected to heat to render the resin fibres tacky which effects an adhesion or bonding of the felted nap fibres.
Needle felts are commonly prepared by placing a layer of unfelted fibres on one or both sides of a woven gauze and the fibres drawn partly through the gauze by means of barbed needles, after which the article is pressed. In this embodiment the layer of fibres comprises a mixture of unfeltable fibres and resin fibres. After the fibres are drawn into the gauze, the felt is subjected to heat and pressure to activate the inherent tackiness of the resin fibres to cause a permanent adhesion of the fibres in the layer and to effect an anchoring of the felted fibres to the gauze base. The structure thus produced is illustrated in the accompanying drawing wherein the woven base is shown at I, the non-adhesive fibres are shown at 2, and the resin fibres are shown at 3.
The present invention has special application to the manufacture-of pressed textile felts such as are used for hats, chair pads, rug cushions, sound and shock absorbers and the like. In the formation of such felts, a mixture of the unfeltable fibres and resin fibres is prepared as by carding and shaped into a layer. The layer of fibres is placed between heavy sheets of fabric, such as canvas, preferably moistened with water and then placed between heated metal plates which are vibrated rapidly when in contact with the enclosed layer, thus causing the fibres to become matted together in a compact layer. If desired the layer of fibres may now be heated to render the resin fibres tacky and effect a permanent adhesion of the fibres in the felted condition, or this heating step may be carried out at a later time. The layer {of felted fibres, before or after heating, may be folded and placed in the usual felting box provided with conventional hammers by which the layer may be pounded to a desired thickness, firmness, length, width, configuration, etc., after which the felt is heated, if desired, to render the resin fibres tacky and the felt is then finished in the usual manner. For smooth surfaced felts the layer is run through calenders which may be heated to render the resin fibres tacky.
As an illustrative embodiment of a manner in which the invention may be practiced, the following examples are presented:
Example I A rayon staple may be cut to a length of 1.5 to 2 inches and a resinous fibre as a co-polymer of vinyl acetate and vinyl chloride may be cut to a corresponding length. The cut fibres may then be mixed in a suitable carding machine in the proportions of about 90% of cut staple rayon and I the resin. As a rule a temperature of about 200 F. will serve to soften the resinous fibre, and hence such temperature preferably is used. While in a heated, softened condition, the resin fibre becomes adhered to the other fibres surrounding it, causing the fibres to cling together. Qn cooling, the resinous material'becomes solid and non-tacky and tough, although still adhering to the fibre surrounding it, with the result that the fibres are substantially fixed in position, thus imparting strength and maintaining the shape of the felt.
Since certain changes in carrying out the above process, and certain modifications in the article which embody the invention may be made without departing from its scope, it is intended that all matter contained in the above description shall be interpreted as illustrative and not in a limiting sense.
Having described my invention, what I claim as new and desire to secure by Letters Patent is:
1. As an article of manufacture, a textile product comprising a prefabricated textile base, a layer of fibres on a face thereof and extending in part through said base, said layer of fibres being formed from a mixture of non-adhesive fibres and potentially adhesive fibres, fibres in said layer exhibiting a strong and substantially permanent adhesion to said textile base due to the binding action of said potentially adhesive fibres.
2. As an article of manufacture, a textile prod- I uct comprising a woven fabric base, a layer of fibres on a face thereof and extending in part through said base, said layer of fibres being formed from a mixture of non-adhesive fibres and potentially adhesive fibres, fibres in said layer exhibiting a strong and substantially permanent adhesion to said textile base due to the binding action of said potentially adhesive fibres.
3. As an article of manufacture, a textile product comprising a woven textile base, a layer of fibres compressed on a face thereof and extend ing in part through said base, said layer of fibres being formed from a mixture of non-adhesive fibres and thermoplastic fibres, fibres in said layer exhibiting a strong and substantially permanent adhesion to said textile base due to the binding action of said thermoplastic fibres.
4. As an article of manufacture, a textile product comprising a woven textile base, a layer of fibres compressed on a face thereof and extending in part through said base, said layer of fibres being formed from a mixture of a major proportion of non-adhesive fibres and a minor proportion of thermoplastic fibres, fibres in said layer exhibiting a strong and substantially permanent adhesion to said textile base due to the binding action of said thermoplastic fibres.
CARLETON S. FRANCIS, JR.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 810,933 Goldman Jan. 30, 1906 2,152,901 Manning Apr. 4, 1919 2,277,049 Reed Mar. 24, 1942

Claims (1)

1. AS AN ARTICLE OF MANUFACTURE, A TEXTILE PRODUCT COMPRISING A PREFABRICATED TEXTILE BASE, A LAYER OF FIBRES ON A FACE THEREOF AND EXTENDING IN PART THROUGH SAID BASE, SAID LAYER OF FIBRES BEING FORMED FROM A MIXTURE OF NON-ADHESIVE FIBRES AND POTENTIALLY ADHESIVE FIBRES, FIBRES IN SAID LAYER EXHIBITING A STRONG AND SUBSTANTIALLY PERMANENT ADHESION TO SAID TEXTILE BASE DUE TO THE BINDING ACTION OF SAID POTENTIALLY ADHESIVE FIBRES.
US782870A 1939-10-23 1947-10-29 Textile product Expired - Lifetime US2528129A (en)

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US300876A US2459803A (en) 1939-10-23 1939-10-23 Feltlike products
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Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2647816A (en) * 1948-07-10 1953-08-04 American Viscose Corp Method of making a wound package and after-treating the same
US2887400A (en) * 1957-12-20 1959-05-19 United Shoe Machinery Corp Solvent activatable stiffener material
US2959509A (en) * 1955-08-15 1960-11-08 American Felt Co Needled felt
US2991536A (en) * 1954-03-10 1961-07-11 Du Pont Felted fabric and process for producing
US3040740A (en) * 1957-11-20 1962-06-26 San Francisco Res Corp Prefabricated pad for surgical casts and the like and method for manufacturing the same
US3183578A (en) * 1962-09-26 1965-05-18 Kendall & Co Dampening roll cover and fabric therefor
US3335021A (en) * 1964-01-27 1967-08-08 Morgan Adhesives Co Tear-resistant polypropylene fiber strapping tape
US3451885A (en) * 1962-07-09 1969-06-24 Union Carbide Corp Needled composite web and method of making the same
US4107367A (en) * 1976-11-03 1978-08-15 Huyck Corporation Papermakers felts
WO1985001693A1 (en) * 1983-10-19 1985-04-25 Huyck Corporation Papermaker's felt
WO1992021806A1 (en) * 1991-06-06 1992-12-10 Burlington Industries, Inc. Stiff fabric composite and method of making
US5192601A (en) * 1991-03-25 1993-03-09 Dicey Fabrics, Incorporated Dimensionally stabilized, fusibly bonded multilayered fabric and process for producing same
US5436064A (en) * 1990-06-18 1995-07-25 Burlington Industries, Inc. Stiff fabric composite
US5536551A (en) * 1994-07-18 1996-07-16 Jps Automotive Method for binding tufts

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US810933A (en) * 1903-12-04 1906-01-30 Gustav Goldman Fabric containing haircloth.
US2152901A (en) * 1936-09-05 1939-04-04 F W Manning Company Ltd Method of making filter fabric
US2277049A (en) * 1939-11-06 1942-03-24 Kendall & Co Textile fabric and method of making same

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US810933A (en) * 1903-12-04 1906-01-30 Gustav Goldman Fabric containing haircloth.
US2152901A (en) * 1936-09-05 1939-04-04 F W Manning Company Ltd Method of making filter fabric
US2277049A (en) * 1939-11-06 1942-03-24 Kendall & Co Textile fabric and method of making same

Cited By (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2647816A (en) * 1948-07-10 1953-08-04 American Viscose Corp Method of making a wound package and after-treating the same
US2991536A (en) * 1954-03-10 1961-07-11 Du Pont Felted fabric and process for producing
US2959509A (en) * 1955-08-15 1960-11-08 American Felt Co Needled felt
US3040740A (en) * 1957-11-20 1962-06-26 San Francisco Res Corp Prefabricated pad for surgical casts and the like and method for manufacturing the same
US2887400A (en) * 1957-12-20 1959-05-19 United Shoe Machinery Corp Solvent activatable stiffener material
US3451885A (en) * 1962-07-09 1969-06-24 Union Carbide Corp Needled composite web and method of making the same
US3183578A (en) * 1962-09-26 1965-05-18 Kendall & Co Dampening roll cover and fabric therefor
US3335021A (en) * 1964-01-27 1967-08-08 Morgan Adhesives Co Tear-resistant polypropylene fiber strapping tape
US4107367A (en) * 1976-11-03 1978-08-15 Huyck Corporation Papermakers felts
WO1985001693A1 (en) * 1983-10-19 1985-04-25 Huyck Corporation Papermaker's felt
US4565735A (en) * 1983-10-19 1986-01-21 Huyck Corporation Papermakers' felt
US5436064A (en) * 1990-06-18 1995-07-25 Burlington Industries, Inc. Stiff fabric composite
US5192601A (en) * 1991-03-25 1993-03-09 Dicey Fabrics, Incorporated Dimensionally stabilized, fusibly bonded multilayered fabric and process for producing same
WO1992021806A1 (en) * 1991-06-06 1992-12-10 Burlington Industries, Inc. Stiff fabric composite and method of making
US5536551A (en) * 1994-07-18 1996-07-16 Jps Automotive Method for binding tufts

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