US3193442A - Non-woven products composed of nonuniformly drawn staple fibers - Google Patents

Non-woven products composed of nonuniformly drawn staple fibers Download PDF

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US3193442A
US3193442A US162238A US16223861A US3193442A US 3193442 A US3193442 A US 3193442A US 162238 A US162238 A US 162238A US 16223861 A US16223861 A US 16223861A US 3193442 A US3193442 A US 3193442A
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fibres
proportion
birefringence
drawn
fibre
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US162238A
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Schulz Francis
Glen William
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Imperial Chemical Industries Ltd
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Imperial Chemical Industries Ltd
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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
    • D04H1/04Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres from fleeces or layers composed of fibres having existing or potential cohesive properties, e.g. natural fibres, prestretched or fibrillated artificial fibres
    • D04H1/06Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres from fleeces or layers composed of fibres having existing or potential cohesive properties, e.g. natural fibres, prestretched or fibrillated artificial fibres by treatment to produce shrinking, swelling, crimping or curling of fibres
    • 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
    • Y10T428/00Stock material or miscellaneous articles
    • Y10T428/29Coated or structually defined flake, particle, cell, strand, strand portion, rod, filament, macroscopic fiber or mass thereof
    • Y10T428/2904Staple length fiber

Definitions

  • V mentary material predominantly arranged in superimposed layers parallel'to the faces of the material and ; a minor proportion oriented in the thickness direction of the material, the whole or a minor part of the filamentary material being composed of retractable synthetic filaments and the number and disposition of filaments oriented in the thickness direction being such that the material is held together, is known.
  • Thisnon-woven fibrous material relies on aminor proportion of filamentary material oriented in the thickness direction, the whole or major part being composed of retractable synthetic filaments which hold the material together.
  • the preparation'of such retractable fibre is described in British patent specification 603,827 comprising continuously drawing filamentary material, e.g. between rolls and, if desired, using a snubbing pin and whilst being heated e.g. with steam before or during drawing.
  • a fibrous product made from cold drawable synthetic Organic polymer filaments cut into staple lengths of e.g. one to six inches, predominantly lying in a parallelised condition and a proportion lying in a non-parallel position thereby interlacing a sufiicient proportion of the parallelised fibres to form a self-supporting consolidatable structure, a proportion of "ice from the cut fibres is formed on a garnetting and/ or carding machine, the batt or web is further matted by needle punching in a transverse direction from top to bottom and the needle punched batt or web is steamed to cause retraction by 30'to 60%, thereby consolidating the fibrous structure.
  • any drawing of the cold drawable filaments which occurs in our process is caused solely by the inter-action of the card wires or garnetting action.
  • the second order transition temperature should be avoided as this tends to give fibres'which have a relatively low shrinkage resulting in-loose non-coherent structures.
  • the filamentary material prior to cutting to "the appropriate length, need not be drawn at all, therefore asspun filaments are suitable and even as spun waste material may be used for our fibrous products.
  • the known costly separate .continuous drawing operation in the production of the filamentary material is thereby eliminated.
  • Cold drawable filamentary material which has been found suitable includes polyethylene terephthalate and stereo specific polypropylene. It is produced by melt spinning e.g. as described in the aforementioned British specthe fibres having non-uniformly drawn, partially drawn:
  • the fibrous material after cutting to the required lengths, can be made more self-supportirig after carding and matting in the fashion customarily employed in the felting industry, e.g. by needle punching in a transverse direction followed, if desired, by further consolidating the material by a heat treatment at a temperature which causes high shrinkage, without fusing of the fibres and/ or by compressing.
  • the cold drawable synthetic organic polymer filaments particularly polyethylene terephthalate filament yarn waste, is cut into lengths of one to six inches, a batt or web ification relating to polyethylene terephthalate.
  • the cold drawable polyethylene terephthalate undrawn filaments should preferably have a birefringence of up to 0.005, and a degree-of crystallinity less than of the maximum crystallisation obtainable at the outset of the process and they should be capable of being drawn at least twice their length at room temperature, before they break. Under these conditions partial, drawing between twice and up to six times the length of the filaments when cut to the required lengths can be inducedeg. by setting the garnet or card wires sufliciently close together.
  • the fibrous material after garnetting and/ or carding, can if desired, be formed into slivers and worked up into spun yarns, e.g. on the cotton system.
  • the fibres e.g. in the form of a sliver, may be subject to a stuifer box or gear crimping operation followed by heat setting to enhance fibre to fibre adhesion, as required e.g. in a yarn spun on the cotton system.
  • a proportion, preferably a minor proportion, of other fibres such as cotton or wool may be incorporated in the fibrous product.
  • Polyethylene terephthalate filamaents and fibres which in their undrawn condition exhibiting a birefringence of 0.001 to 0.005 are suitable.
  • the undrawn filament or fibre birefringence should be about 0.0015 to 0.0035.
  • birefringence of the proportion of fibres which ic polypropylene In each case at leastia short length of each fibre or filament will be drawnless than the stated amount, so that the difference in birefringence will be at least 25X It, will be appreciated that in the case of polyethylene terephthalate this difference may be much greater, namely at least 100x 10 1 In the known drawing processes the aim isto draw th filaments uniformly and therefore, even under unfavourable conditions, any short term variation'in birefringence will be less than that in our process.
  • Example Waste melt spun polyethylene terephthalate filament I yarn is removed from melt spinning bobbins and cut into 1 /2 inch lengths.
  • the melt spun filaments on the bobbins have a birefringence .of 0.005 and-a denier of about does not limit
  • the cut fa'sispun fibres are passed through a garnetare 'cold draw-able and which become drawn non-uniformly in our process is 0.10 to 0.l6,-in the case of poly-.
  • ethylene terephthalate and 0.03 in case of stereo-spccif-' come "drawn non-uniformly at least twice their length,
  • the birefringence of the drawn portions of the fibres is: 0.15 or more, :indicating a draw ratio greater than.l:3.,
  • The'setting of:the garnet and the rate of feeding of' the fibre isso adjusted that the'maximum number of fibres .become non-uniformly drawn during one passage through the garnetting machine and so that induced heating of the fibres is kept to a minimum.
  • the garnetted non-uniformly drawn fibres in the form ofia'webare then passed-through a carding engine where they become parallelised and carded webs are as Sild into a fleece about-4 inches thick.
  • The'fieece is needle punched through its entirethickness on. a fine needle loom and simultaneously compressed to about /2% inch thick.
  • Samples of the resulting felt' about 1 square foot in size are shrunk by immersion in boiling water. The felt samples shrink 45% lengthwise and 48.5% in'width.
  • the shrunk felt samples while wet are given a finishing treatment in a hydraulic press, where they are compressed for 2-3 minutes at about '10 lb./sq. inch between fabric covered platens, heated to 120C.
  • the finishedsamples are quite flat and flexible.
  • ishing is 17.9 and 75.6 oa/sqlyard, respectively.
  • test' strips are prepared for a flexing test on a De Matia machine and given 250 kilocycles of flexure.
  • the tensile strength of one inch strips cut along the length of the felt is still 26.6. lb. compared with 39.2 lb. before flexing.
  • the felts are very absorbent and can be sterilized by steaming or heating above 100 C, without substantial alteration in shape and physical properties. They are therefore suitable also for hospital and medical'applieations where sterilization is necessary.
  • a fibrous product ,of synthetic organic polymer fibres having a staple length of one to six inches, predominantlylying in a. par'allelised condition and a. minor proportion lying in a non-parallel positionthe non-paral- -lel fibres thereby interlacing aproportion of the parallelised fibres to form a self-supporting consolidiatable structure, a major proportion of the fibres having nonuniformly drawn. portions along the length of each'fibre, the birefringence of said fibre varying by at .least :2.
  • a fibrous product according-to claim lin which'at least a susbstantial proportion'ofthe fibres consist of polyethyleneterephthalate fibres having a birefringence between 0.001 and 0.16 and containing portions in which 'the difference in birefringence is j about 100 10- between the stated'values.
  • a fibrous product according to claim 1 in which at least a substantial proportion of the fibres consist of stereo-specific polypropylene fibres having abirefringence
  • the dry weight before shrinking" and after shrinking and finbetween 0.0015 and 0.03- and containing portions in which the difference in birefringence isabout 25 10- between the stated values.

Description

United States PatentO 3,193,442 NON-WOVEN PRODUCTS COMPOSED F NON- UNIFORMLY DRAWN STAPLE FIBERS Francis Schulz and William Glen, Harrogate, England,
assignors to Imperial Chemical Industries Limited, London, England, a corporation of Great Britain No Drawing. Filed Dec. 26, 1961, Ser. No. 162,238 5 Claims. (Cl. 161-469) tainingan'd even some articles of clothing. They are of particular interest as paper makers and like felts requiring a high resistance to acids and chemicals.
.A non-woven fibrous material which consists of fi1a-.
mentary material predominantly arranged in superimposed layers parallel'to the faces of the material and ;a minor proportion oriented in the thickness direction of the material, the whole or a minor part of the filamentary material being composed of retractable synthetic filaments and the number and disposition of filaments oriented in the thickness direction being such that the material is held together, is known. V
- Thisnon-woven fibrous material relies on aminor proportion of filamentary material oriented in the thickness direction, the whole or major part being composed of retractable synthetic filaments which hold the material together. The preparation'of such retractable fibre is described in British patent specification 603,827 comprising continuously drawing filamentary material, e.g. between rolls and, if desired, using a snubbing pin and whilst being heated e.g. with steam before or during drawing.
According to our invention we provide a fibrous product made from cold drawable synthetic Organic polymer filaments cut into staple lengths of e.g. one to six inches, predominantly lying in a parallelised condition and a proportion lying in a non-parallel position thereby interlacing a sufiicient proportion of the parallelised fibres to form a self-supporting consolidatable structure, a proportion of "ice from the cut fibres is formed on a garnetting and/ or carding machine, the batt or web is further matted by needle punching in a transverse direction from top to bottom and the needle punched batt or web is steamed to cause retraction by 30'to 60%, thereby consolidating the fibrous structure.
It will be appreciated that any drawing of the cold drawable filaments which occurs in our process, is caused solely by the inter-action of the card wires or garnetting action. In order to obtain fibres having a high degree of shrinkage for the consolidating process it is necessary to operate at temperatures between 10 C. and 35 C. For best results, higher temperatures, particularly at, or above, the second order transition temperature should be avoided as this tends to give fibres'which have a relatively low shrinkage resulting in-loose non-coherent structures.
properties of the fibres which in turn enhance matting.
As stated, the filamentary material, prior to cutting to "the appropriate length, need not be drawn at all, therefore asspun filaments are suitable and even as spun waste material may be used for our fibrous products. The known costly separate .continuous drawing operation in the production of the filamentary material is thereby eliminated.
Cold drawable filamentary material which has been found suitable includes polyethylene terephthalate and stereo specific polypropylene. It is produced by melt spinning e.g. as described in the aforementioned British specthe fibres having non-uniformly drawn, partially drawn:
and/or undrawn portions along the length of each fibre, the birefringence of each of said fibre varying by at least 25 10 Our invention is based on the observation that fibrous material with useful properties can be obtained without the recourse to autogenous bonding between undrawn polyester fibres, or similarly without recourse to continuous drawing and heating of polyester filamentary material, provided that at least a proportion of undrawn, but cold drawable fibres, which may be elongated to at least twice their length are parallelised e.g. by garnetting or carding in order to produce non-uniformly and partially drawn portions of fibres, which portions are randomly distributed along the length of the drawn or partially drawn fibres and which exhibit a high degree of shrinkage when heated.
If desired, the fibrous material, after cutting to the required lengths, can be made more self-supportirig after carding and matting in the fashion customarily employed in the felting industry, e.g. by needle punching in a transverse direction followed, if desired, by further consolidating the material by a heat treatment at a temperature which causes high shrinkage, without fusing of the fibres and/ or by compressing.
The cold drawable synthetic organic polymer filaments, particularly polyethylene terephthalate filament yarn waste, is cut into lengths of one to six inches, a batt or web ification relating to polyethylene terephthalate.
The cold drawable polyethylene terephthalate undrawn filaments should preferably have a birefringence of up to 0.005, and a degree-of crystallinity less than of the maximum crystallisation obtainable at the outset of the process and they should be capable of being drawn at least twice their length at room temperature, before they break. Under these conditions partial, drawing between twice and up to six times the length of the filaments when cut to the required lengths can be inducedeg. by setting the garnet or card wires sufliciently close together. It will be appreciated that this induced drawing is quite unlike the usual uniform drawing process between rolls since the fibres become drawn non-uniformly only at intervals, two to six times their length as spun, depending on the setting of the card wires or garnet, the length of the fibres,
' their deniers and their frictional properties, whereas portions of the fibres will become drawn less or not at all, as stated earlier.
It will be appreciated that the fibrous material, after garnetting and/ or carding, can if desired, be formed into slivers and worked up into spun yarns, e.g. on the cotton system. In that case, the fibres e.g. in the form of a sliver, may be subject to a stuifer box or gear crimping operation followed by heat setting to enhance fibre to fibre adhesion, as required e.g. in a yarn spun on the cotton system.
A proportion, preferably a minor proportion, of other fibres such as cotton or wool may be incorporated in the fibrous product.
Polyethylene terephthalate filamaents and fibres which in their undrawn condition exhibiting a birefringence of 0.001 to 0.005 are suitable. In the case of stereo-specific polypropylene the undrawn filament or fibre birefringence should be about 0.0015 to 0.0035.
The birefringence of the proportion of fibres which ic polypropylene. In each case at leastia short length of each fibre or filament will be drawnless than the stated amount, so that the difference in birefringence will be at least 25X It, will be appreciated that in the case of polyethylene terephthalate this difference may be much greater, namely at least 100x 10 1 In the known drawing processes the aim isto draw th filaments uniformly and therefore, even under unfavourable conditions, any short term variation'in birefringence will be less than that in our process.
The following example illustrates but our invention:
7 Example Waste melt spun polyethylene terephthalate filament I yarn is removed from melt spinning bobbins and cut into 1 /2 inch lengths. The melt spun filaments on the bobbins have a birefringence .of 0.005 and-a denier of about does not limit The cut fa'sispun fibres are passed through a garnetare 'cold draw-able and which become drawn non-uniformly in our process is 0.10 to 0.l6,-in the case of poly-. ethylene terephthalate and 0.03 in case of stereo-spccif-' come "drawn non-uniformly at least twice their length,
whereas other portions of thesame fibre remain'undra'wn or drawn to a lesser degree. The birefringence of the drawn portions of the fibres is: 0.15 or more, :indicating a draw ratio greater than.l:3., The'setting of:the garnet and the rate of feeding of' the fibre isso adjusted that the'maximum number of fibres .become non-uniformly drawn during one passage through the garnetting machine and so that induced heating of the fibres is kept to a minimum. a 1
The garnetted non-uniformly drawn fibres in the form ofia'webare then passed-through a carding engine where they become parallelised and carded webs are as sembled into a fleece about-4 inches thick. The'fieece is needle punched through its entirethickness on. a fine needle loom and simultaneously compressed to about /2% inch thick. Samples of the resulting felt' about 1 square foot in size are shrunk by immersion in boiling water. The felt samples shrink 45% lengthwise and 48.5% in'width. The shrunk felt samples while wet are given a finishing treatment in a hydraulic press, where they are compressed for 2-3 minutes at about '10 lb./sq. inch between fabric covered platens, heated to 120C. The finishedsamples are quite flat and flexible.
ishing is 17.9 and 75.6 oa/sqlyard, respectively. From the shrunk felt samples, test' strips are prepared for a flexing test on a De Matia machine and given 250 kilocycles of flexure. The tensile strength of one inch strips cut along the length of the felt is still 26.6. lb. compared with 39.2 lb. before flexing. V The felts are very absorbent and can be sterilized by steaming or heating above 100 C, without substantial alteration in shape and physical properties. They are therefore suitable also for hospital and medical'applieations where sterilization is necessary.
What we clairnisz- V v e 1. A fibrous product ,of synthetic organic polymer fibres having a staple length of one to six inches, predominantlylying in a. par'allelised condition and a. minor proportion lying in a non-parallel positionthe non-paral- -lel fibres thereby interlacing aproportion of the parallelised fibres to form a self-supporting consolidiatable structure, a major proportion of the fibres having nonuniformly drawn. portions along the length of each'fibre, the birefringence of said fibre varying by at .least :2. Afibrous productaccording to claim 1 in which at least a substantial proportion of 'the fibres are polyeth ylene terephthalate fibres having a birefringenceof up to -0.005 and a degree of crystallinity less than 50%.
.3. A' fibrous productaccording to clairn'l in which at least a -susbstanti-al proportion :of the fibre are stereospecific polypropylene fibreshaving a birefringenece up to 0.003.
4. A fibrous product according-to claim lin which'at least a susbstantial proportion'ofthe fibres consist of polyethyleneterephthalate fibres having a birefringence between 0.001 and 0.16 and containing portions in which 'the difference in birefringence is j about 100 10- between the stated'values. I
5. A fibrous product according to claim 1 in which at least a substantial proportion of the fibres consist of stereo-specific polypropylene fibres having abirefringence The dry weight before shrinking" and after shrinking and finbetween 0.0015 and 0.03- and containing portions in which the difference in birefringence isabout 25 10-= between the stated values.
' References Cited by the Examiner UNITED STATES PATENTS 2,038,722 4/36 Dreyfus et al l61- 179 XR 2,774,128 12/56 Secrist 2 879 2,774,129. 12/56 Secrist 28-79 2,881,505 4/59 'Hoffman 2872.2 3,059,311 10/62 Hochberg 2872.2
ALEXANDER WYMAN, Primary Examiner. R. R. MACKEY, Examiner.

Claims (2)

1. A FIBROUS PRODUCT OF SYNTHENTIC ORGANIC POLYMER FIBRES HAVING A STAPLE LENGHT OF ONE TO SIX INCHES, PREDOMINANTLY LYING IN A PARALLELISED CONDITION AND A MINOR PROPORTION LYING IN A NON-PARALLEL POSITION THE NON-PARALLEL FIBRES THEREBY INTERLACING A PROPORTION OF THE PARALLELISED FIBRES TO FORM A SELF-SUPPORTING CONSOLIDIATABLE STRUCTURE, A MAJOR PROPORTION OF THE FIBRES HAVING NONUNIFORMLY DRAWN PORTIONS ALONG THE LENGTH OF EACH FIBRE, THE BIREFRINGENCE OF SAID FIBRE VARYING BY AT LEAST 25X10**-3.
5. A FIBROUS PRODUCT ACCORDING TO CLAIM 1 IN WHICH AT LEAST A SUBSTANTIAL PROPORTION OF THE FIBRES CONSIST OF STEREO-SPECIFIC POLYPROPYLENE FIBRES HAVING A BIREFRINGENCE BETWEEN 0.0015 AND 0.03 AND CONTAINING PORTIONS IN WHICH THE DIFFERENCE IN BIREFRINGENCE IS ABOUT 25 X 10**-3 BETWEEN THE STATED VALUES.
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3396071A (en) * 1963-03-25 1968-08-06 Ici Ltd Non-woven polypropylene fabrics
US3484283A (en) * 1967-10-26 1969-12-16 Phillips Petroleum Co Plastic felt
US3502538A (en) * 1964-08-17 1970-03-24 Du Pont Bonded nonwoven sheets with a defined distribution of bond strengths
US3538565A (en) * 1967-10-26 1970-11-10 Phillips Petroleum Co Selective molecular orientation of fibers in plastic felt
US3546062A (en) * 1969-12-09 1970-12-08 Du Pont Unbonded nonwoven web of polypropylene fibers
DE1635485A1 (en) * 1966-04-18 1972-08-10 Dexter Corp Unwoven fiber structures

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2038722A (en) * 1928-09-13 1936-04-28 Celanese Corp Production of textile materials
US2774129A (en) * 1950-11-06 1956-12-18 Kendall & Co Synthetic felts
US2774128A (en) * 1950-11-04 1956-12-18 Kendall & Co Felt-like products
US2881505A (en) * 1956-05-07 1959-04-14 Manfred T Hoffman Making bonded felt
US3059311A (en) * 1958-12-16 1962-10-23 Du Pont Stable non-woven batt of polytetrafluoroethylene fibers

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2038722A (en) * 1928-09-13 1936-04-28 Celanese Corp Production of textile materials
US2774128A (en) * 1950-11-04 1956-12-18 Kendall & Co Felt-like products
US2774129A (en) * 1950-11-06 1956-12-18 Kendall & Co Synthetic felts
US2881505A (en) * 1956-05-07 1959-04-14 Manfred T Hoffman Making bonded felt
US3059311A (en) * 1958-12-16 1962-10-23 Du Pont Stable non-woven batt of polytetrafluoroethylene fibers

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3396071A (en) * 1963-03-25 1968-08-06 Ici Ltd Non-woven polypropylene fabrics
US3502538A (en) * 1964-08-17 1970-03-24 Du Pont Bonded nonwoven sheets with a defined distribution of bond strengths
DE1635485A1 (en) * 1966-04-18 1972-08-10 Dexter Corp Unwoven fiber structures
US3484283A (en) * 1967-10-26 1969-12-16 Phillips Petroleum Co Plastic felt
US3538565A (en) * 1967-10-26 1970-11-10 Phillips Petroleum Co Selective molecular orientation of fibers in plastic felt
US3546062A (en) * 1969-12-09 1970-12-08 Du Pont Unbonded nonwoven web of polypropylene fibers

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