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Publication numberUS3837338 A
Publication typeGrant
Publication dateSep 24, 1974
Filing dateNov 24, 1972
Priority dateNov 24, 1972
Also published asCA987087A1, DE2358265A1, DE2358265C2
Publication numberUS 3837338 A, US 3837338A, US-A-3837338, US3837338 A, US3837338A
InventorsS Chesky, D Patience, E Hartigan
Original AssigneeKendall & Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Conformable nonwoven bandage
US 3837338 A
Abstract
A felted cellulosic nonwoven fabric, in which the fibers have substantial freedom of movement relative to each other, is mechanically compacted into a series of undulations, to yield a bandage material that does not decrease in width when elongated by 10% or more.
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Description  (OCR text may contain errors)

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[ Sept. 24, 1974 CONFORMABLE NONWOVEN BANDAGE Inventors: Sheldon R. Chesky, Algonquin;

Donald Patience, Barrington; Edward G. Hartigan, Schaumburg, all of Ill.

The Kendall Company, Walpole, Mass.

Filed: Nov. 24, 1972 Appl. No.: 309,086

Assignee:

US. Cl. 128/156, 26/186, 161/169 Int. Cl A61! 15/00 Field of Search 128/156, 155, 82; 26/186;

References Cited UNITED STATES PATENTS Secrist 128/156 X 2,625,733 l/l953 Secrist 128/156 X 2,765,513 10/1956 Walton 26/l8.6 2,823,444 2/1958 Davies et a1. 128/156 X 2,834,703 5/1958 Atkinson 128/156 X 3,575,782 4/1971 Hansen 128/156 3,653,382 4/1972 Easley et al..... 128/156 Primary ExaminerRichard A. Gaudet Assistant Examiner-J. Yasko Attorney, Agent, or FirmJohn F. Ryan; Edward J. Scahill, Jr.

[5 7 ABSTRACT A felted cellulosic nonwoven fabric, in which the fibers have substantial freedom of movement relative to each other, is mechanically compacted into a series of undulations, to yield a bandage material that does not decrease in width when elongated by 10% or more.

3 Claims, 4 Drawing Figures CONFORMABLE NONWOVEN BANDAGE This invention relates to a nonwoven bandaging material. More particularly it relates to a bandaging material which has enhanced elongation and conformability, of advantageous use in applications such as cast padding in orthopedic surgery.

FIELD OF THE INVENTION A variety of bandaging materials is presently being used in orthopedics and allied arts as padding under rigid supports such as plaster casts, splints, and braces, and as padding under elastic bandages, elastic stockings and the like for the correction or amelioration of circulatory disturbances such as phlebitis or varicosities.

A satisfactory bandage of this type should be elastic and conformable, to provde support; it should be nonconstricting, even under pronounced swelling and should not shrink during the alternating sorption and desorption of moisture; it should be strong enough wet or dry to resist rupture during application and use; it should not readily bunch or wrinkle; it should absorb and retain perspiration, promoting healthy tissue; it should have a high air porosity, to permit unhampered circulation of air; and it should be soft and nonirritating.

PRIOR ART Available prior art devices are deficient in one or more of the desirable criteria set forth above. Sheet wadding, the oldest historically-used cast padding, is relatively non-absorbent. has low dry and wet strength, and is held together by a starch coating which offers a fertile breeding ground for micro-organisms, especially when damp. Various proposed alternatives to sheet wadding are objectionable on other grounds. One available material, described in US. Pat. No. 2,625,733, is widely used in orthopedic work, consisting as it does of a binder-free cotton felt, in which the fibers are held together by mechanical engagement. It does, however, have a tendency to pucker, wrinkle, or fold over unless special care is exercised during it application. In order to obviate this difficulty, the surgeon frequently will apply tension to the bandage which is sufficient to cause rupture. Additionally, tension applied to a feltlike bandage of this type causes a narrowing of the width of the bandage, called necking in, which decreases the area-covering power of the material. This behavior is especially apparent when the bandage is applied to body members in which an abrupt directional change is encountered, as in bandaging a lower extremity. The necking-in is accompanied by an increase of up to 50% in the thickness of the bandage, which is undesirable in that it may give rise to ridges and potential pressure points on or along the bandage edges.

It is an object of this invention to provide an improved bandaging material suitable for orthopedic use. It is a further object of the invention to provide a crimped orthopedic bandage of entangled and interlaced cellulosic fibers, said bandage being exceptionally soft and being capable of I07: or more elongation without an appreciable narrowing in width.

Other objects of the invention will be apparent from the following description and drawings in which:

FIG. 1 is a front elevation of the edge of a bandage material made according to this invention.

FIG. 2 is a similar view of another embodiment of the invention.

FIG. 3 is a representation of a prior art bandage material under tension.

FIG. 4 is a similar view of the product of this invention under tension.

SUMMARY OF THE INVENTION As a starting material for the product of this invention, there is employed a nonwoven fabric comprising cellulosic fibers which are frictionally interlocked into a felt-like structure by artificially-induced kinks, twists, bends, and curls, as described in US. Pat. Nos. 2,528,792 and 2,625,733, of common assignee. The material described in the latter patent has found use as an orthopedic bandage, due to its clean, absorbent, porous nature, and its property of clinging to itself.

Such material does, however, fall short of being ideal, on three counts. Although it is recoverably elongatable, in contrast to the commonly-employed sheet wadding, such bandage material as currently available elongates only about 25% before breaking. Stretching orthopedic bandage material is inevitably met with the result of the need for adjusting to the constantly varying contours of body members. As set forth above, stretching under tension causes a substantial necking-in, or decrease in width, of such bandage material, as illustrated by the behavior of the prior art bandage 30 in FIG. 3. And finally, stretching bandage material of this nature causes an increase in thickness.

The reason seems to lie in the fact that in the prior art material the fibers are interlocked into a fabric of uniform density, with any force applied to one group of fibers being translated into a coactive effect on all of the rest of the fibers, which are relatively free to move. The behavior of the material under stress, therefor, resembles the behavior of an elastomeric plastic strip i.e., there is a narrowing of the material at a point intermediate the ends.

It has now been found that this type of necking-in, with consequent increased thickness, can be obviated if the base fabric of US. Pat. No. 2,625,733 is rearranged into a fabric in which the fibers are aggrevated into a set of transverse wave-like undulations, marked by transverse ribs of more densely compacted fibers at the peaks and valleys of the undulations, and more extensible, less compacted areas of fibers on the slopes of the undulations.

In this manner, a sort of reservoir of elasticity is provided by the uncompacted fibrous areas, 28 in FIG. 4, which shows a bandage of this invention under tension, comparable to the tensed prior art bandage of FIG. 3. The compacted fibrous ribs 26, however, are made up of fibers which have been brought into closer approximation, and which are not so readily displaced from their position by applied stress. The ribs 26, therefor, have the net effect of holding the bandage out to width during extension, the elastic capacity of the bandage as a whole being satisfied by the ability of the uncompacted areas 28 to stretch and recover.

It is essential, for behavior of this sort, that the fibers comprising the starting material be held together principally by mechanical engagement, so that they have a relatively high degree of freedom of movement with respect to each other. In this manner, fibers can be displaced from the normally uniform density of the sheet, to be aggregated into alternating bands of high density and low density. The apparent density (weight per unit volume of fabric) in the compacted, relatively inextensible rib sections may be as much as twice the apparent density of the uncompacted, readily extensible sections. The apparent thickness of the bandage, however, does not vary appreciably from point to point, the density increase in the rib sections being effected by an actual physical translation of fibers from the extensible sections.

As processes for rearranging the fibers of cellulosic felts of the nature set forth in U.S. Pat. No. 2,625,733, a mechanical creping or crimping action is exerted on the fabric, as described in U.S. Pat. Nos. 2,765,513, 2,765,514, or 3,655,474. Although primarily designed for imparting a micropleating action to fabric materials and paper, these processes have been found to have an unexpected advantage in producing the product of this invention, in that the freedom of movement of the fibers in the base material allows individual fibers to be displaced from their entangled positions and to be rearranged into zones of alternating high and low density. The degree of compacting, and the permanence thereof, is enhanced by carrying out the process in the absence of moisture, and at temperatures of 200 F or higher.

A typical bandage material made by subjecting the nonwoven fabric of US. Pat. No. 2,625,733 to the compacting process described in US. Pat. No. 2,765,513 is shown at in FIG. 1. The normally flat and planar arrangement of the fibers has been rearranged into a series of sine-like waves and troughs, consisting of alternating ribs of high density 12 separated by zones of low density 14.

HO. 2 represents another embodiment of the invention, in that the bandage material has been rearranged into a somewhat different wave-like configuration, but still consisting of alternating high-density ribs 22 and low-density zones 24. The behavior of either type of material under 10% to 20% elongation is shown in FIG. 4.

As base material for compacting, the base fabric range may be from 40 to 120 grams per square yard, with the 50 to 80 gram range being especially preferred. The number of convolutions per linear inch, determined by the machine settings in known manner, may vary from eight to 16, with the 11 to 14 per inch range preferred. The linear shrinkage during compaction may vary from 10% to 30 or 40%. Due perhaps to the attenuation of fibers effected in the noncompacted, extensible zones, a decrease of about 25% may be expected in the machine direction tensile strength, related to the decrease in weight of the fabric in the extensible areas.

The elongation at break of bandage material processed according to this invention is markedly enhanced over the elongation at break of the untreated nonwoven fabric, being between. 50% and compared with 20% to 25% in bandage material compacted by 12% 20%. This is accompanied by an increased conformability and ready adaptation to form a smooth, wrinkle-free covering over wrists, ankles, knees, and the like. Unlike the base material, the compacted bandage had a thickness of 40 mils both originally and after 20% extension and release, as measured on an Ames gauge Type 382 with 1.5 inch diameter foot. Even higher elongations at break characterize material subjected to greater degrees of compaction.

The behavior of the bandage material under tension is remarkable and unexpected. A three-inch wide strip of uncompacted nonwoven fabric, stressed to 10% elongation, narrowed in its central portion to 2.6 inches, a loss of 13%, and showed a loss in width of 17% when subjected to 20% elongation, after which it broke. The same nonwoven fabric, compacted according to this invention, to a frequency of 11.5 convolutions per inch, with a convolution amplitude of 0.05 inches, actually gained slightly in width at 10% elongation, showed a loss of only 6% at 20% elongation, and at 40% elongation was still wider than the untreated base material was at 10% elongation. Since tensions applied in orthopedic bandaging are often sufficient to stretch the bandage material by 10% to 20%, the increased conformability and covering power of the bandage of this invention will be readily apparent.

Having thus described our invention, we claim:

1. A conformable nonwoven bandage material which comprises:

a strip of felt-like nonwoven fabric characterized by the property of displaying substantially no decrease in width where elongated by 10% comprising cellulosic fibers held together principally by frictional engagement derived fron kinks, bends, twists, and curls induced into said fibers,

said fabric being arranged in a repeating series of wave-like undulations substantially throughout its length,

said undulations running across the width of said strip,

and said undulations comprising a set of high density, compacted transverse ribs marking the peaks and valleys of said undulations,

the side slopes of said undulations comprising areas of lower fiber density and greater extensibility than the fibers in said ribs.

2. The bandage material of claim 1 characterized by a weight of between 50 and grams per square yard and between 11 and 14 undulations per inch.

3. The bandage material of claim 1 characterized by an elongation at break of at least 50%.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2528793 *Jan 26, 1946Nov 7, 1950Kendall & CoCotton felt and method of making the same
US2625733 *Jun 30, 1949Jan 20, 1953Kendall & CoUnwoven fabric
US2765513 *Dec 9, 1954Oct 9, 1956Richard R WaltonMethod of treating textile materials
US2823444 *Oct 7, 1954Feb 18, 1958Johnson & JohnsonBandage
US2834703 *Feb 26, 1954May 13, 1958Personal Products CorpTissue-faced cotton squares
US3575782 *May 19, 1967Apr 20, 1971Minnesota Mining & MfgElastic shirred web product
US3653382 *Dec 22, 1969Apr 4, 1972Procter & GambleExpandable airfelt pad
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4211227 *Jul 3, 1978Jul 8, 1980The Kendall CompanySurgical sponge material
US4342807 *Feb 4, 1980Aug 3, 1982Akzona IncorporatedLow density matting and process
US4486485 *Aug 24, 1983Dec 4, 1984Burlington Industries, Inc.Blend of nonelastic and quasi-elastic fibers
US4546027 *Dec 16, 1982Oct 8, 1985Beghin-Say S.A.Non-woven material for medical compresses
US5370927 *Oct 25, 1993Dec 6, 1994Minnesota Mining And Manufacturing CompanyFabric sheet which has been compacted using a heat shrink yarn; curable or hardenable resin coated onto sheet
US5405643 *Jan 25, 1993Apr 11, 1995Minnesota Mining And Manufacturing CompanyMechanical crimping to form compacted fabrics, coating the fabrics with a water curable liquid thermosetting resins
US5455060 *Oct 25, 1993Oct 3, 1995Minnesota Mining And Manufacturing CompanyCompacted fabrics for orthopedic casting tapes
US5498232 *Sep 1, 1994Mar 12, 1996Minnesota Mining And Manufacturing CompanyMicrocreping of fabrics for orthopedic casting tapes
US5553366 *Mar 27, 1995Sep 10, 1996Minnesota Mining And Manufacturing CompanyVibration compacted fabrics for orthopedic casting tapes
US5658650 *May 31, 1995Aug 19, 1997Minnesota Mining And Manufacturing CompanyBlend of glass fibers and cured resin; medical equipment
Classifications
U.S. Classification602/45, 428/369, 26/18.6, 428/182, 428/340
International ClassificationA61L15/07, A61F13/00, D04H1/70
Cooperative ClassificationD04H1/70, A61F13/00008, A61F2013/00102, A61F2013/00119, A61F2013/00744
European ClassificationA61F13/00A2, D04H1/70
Legal Events
DateCodeEventDescription
Feb 1, 1989ASAssignment
Owner name: MANUFACTURERS HANOVER TRUST COMPANY, AS AGENT
Free format text: SECURITY INTEREST;ASSIGNOR:KENDALL COMPANY, THE;REEL/FRAME:005251/0007
Effective date: 19881027