US3619275A

US3619275A - Fibrous sheet material

Info

Publication number: US3619275A
Application number: US870703*A
Authority: US
Inventors: Michael Barash; Collagen Corp; Benedict S Anthony
Original assignee: Collagen Corp; Seagrave Corp
Current assignee: Seagrave Corp
Priority date: 1966-11-25
Filing date: 1969-08-13
Publication date: 1971-11-09
Anticipated expiration: 1988-11-09
Also published as: AU3764668A

Abstract

Reconstituted sheet material is disclosed having properties at least equal to those of natural leather, said sheet material consisting essentially of leather fibers and polyamide-type synthetic resin fibers held together by an acrylic ester bonding material, the sheet being produced by forming a dry batt of the leather and synthetic resin fibers, applying a bonding material to the batt, setting the bonding material in situ, and then drying the resulting sheet.

Description

United States Patent [72] inventors Michael Bamh Rockville Centre, N.Y.; Benedict S. Anthony, Milford, Pa.

[21 Appl. No 870,703

[22] Filed Aug. 13, 1969 [23] Division of Ser. No. 596,742, Nov. 25, 1966,

Pat. No. 3,542,910

[45] Patented Nov. 9, 1971 73] Assignee Collagen Corp.

c/o The Seagrave Corp., New York, N.Y.

[54] FIBROUS SHEET MATERIAL 4 Claims, No Drawings [52] U.S.Cl ..1l7/138.8N, ll7/l l, l l7/62.2, 117/76 R, 117/142, 161/81,

[51] Int. Cl D06n 3/00, D04h1/64 [50] FieldofSearch 117/161 UC. 138.8 N, 142, 161 UB; 161/81,82, DIG. 2; 162/ 144, 151

[56] References Cited UNITED STATES PATENTS 3,100,721 7/1963 Holden ll7/l 35.5 3,208,875 9/1965 Holden l17/l35.5 3,436,303 4/1969 Raymond et al 1 17/140 R Primary Examiner- William D. Martin Assistant Examiner-Ralph l-lusack Attorney-James and Franklin ABSTRACT: Reconstituted sheet material is disclosed having properties at least equal to those of natural leather, said sheet material consisting essentially of leather fibers and polyamidetype synthetic resin fibers held together by an acrylic ester bonding material, the sheet being produced by forming a dry batt of the leather and synthetic resin fibers, applying a bonding material to the batt, setting the bonding material in situ. and then drying the resulting sheet,

FIBROUS SHEET MATERIAL This application is a division of our application Ser. No. 596,742, filed Nov. 25, 1966 now Pat. No. 3,542,910, entitled Fibrous Sheet Material and Method of Making Same" and assigned to the assignee of this application.

The present invention is broadly concerned with a high quality sheet material and with its method of manufacture. The invention is more specifically concerned with such a sheet comprising leather fibers utilized in conjunction with synthetic resin fibers of the polyamide type, the fibers of both types being randomly oriented and bonded together by means of a resin binder substantially uniformly dispersed therethrough.

It is well known in the art to fonn reconstituted sheets of various materials and by various techniques. Some such reconstituted sheets have in the past included leather. However, the art has not been able to produce sheet material which equalled leather in its primary characteristics-suppleness, breathability or porosity, wear resistance and strength. Moreover, in those prior art sheets which included leather, selectively usually had to be practiced in the type of leather utilized.

It is a prime object of the present invention to form a sheet including leather fibers which equals or exceeds the original leather in several significant characteristics, such as flexibility, edge and stitch tear strength, dimensional stability even after successive wettings and dryings, breathability and the like. The sheets of the present invention have excellent dimensional stability at elevated temperatures and have excellent stretch fatigue characteristics. Indeed, the reconstituted sheet material of the present invention has characteristics of the types described which equal or exceed those of high quality natural leather. The sheet material of the present invention therefore may be used in place of natural leather in handbags, belts, clothing, shoes and the like, where heretofore only natural leather had practical utility. It may also be used in other and more heavy duty applications, such as in furniture or automobile upholstery.

It is a further prime object of the present invention to produce a reconstituted leather sheet which can utilize all types and grades of leather in the formation thereof. All types of leathers produced from the skin or hide of animal, reptile, fish and birds, as well as all kinds of tannage, such as chrome, vegetable, alum and the like, and all grades of leather such as a top grain layer or splits derived from the lower layer, may be efi'ectively used in accordance with the present invention. In addition, the present invention can make use of those types and parts of natural leathers which generally are not suitable for use in high quality applications. For example, chrome tanned splits are usually disposed of by the tannery as a waste material, as are those portions of the hide and skin known as trimmings, bellies and flanks; they may, however, be used in accordance with the present invention.

By permitting the total utilization of tanned hides and skins, thereby eliminating unnecessary waste, while at the same time producing a sheet material which can be used in applications where formerly only high grade natural leather sheets could be employed, a very significant money saving is accomplished.

in addition, a great saving in labor cost is realized. The material of the present invention can be produced in a continuous sheet of uniform width, thickness, appearance and quality. This contrasts markedly with natural leather, the individual sheets of which are limited in size and which are nonuniform in thickness and quality. Because of the important uniformity of the product of the present invention semiskilled or nonskilled labor can be employed for grading and cutting. Dies may be used for cutting many layers at a time, whereas with natural leather each individual layer is generally cut by hand, one at a time. Storage costs are reduced since the material of the present invention can be packed in rolls rather than bundles, and special conditioning equipment is not required, since storage under a wide range of humidity and temperature conditions is feasible without damage to the end product.

The sheet material produced in accordance with the present invention is superior to conventional leather in many important respects. lts dimensional stability is better; it will not shrink even though it may be soaked and dried many times over, or permitted to stand for long periods of time. It resists aging, even under normal circumstances, better than natural rubber. It has better stitch-tear resistance and edge-tear strength than natural rubber. lts flexibility and suppleness and its porosity or breathability are at least as good as natural rubber.

The product of the present invention may be employed in conjunction with conventional finishing and embossing methods such as are presently used with natural leathers.

As has been indicated, any type of leather may be employed in conjunction with the present invention. The pieces of leather, of whatever shape, size, type of tannage, etc., are first reduced to individual fibers, which fibers are subsequently utilized in the formation of the reconstituted leather sheet. The leather fibers used must be of a certain character before the objectives of the present invention can be attained. They must be of a certain size (thickness and length) and they should have a certain pH characteristic and a certain water content. More specifically, the individual fibers should have a length between 0.25-[ inch, and a thickness no less than 0.001 inch and generally between 0.00l0.003 inch. Fibers having a thickness or length substantially less than those specified, if present, add little or nothing to the characteristics of the product and should be avoided. Fibers having a thickness or length substantially greater than that specified likewise are undesirable. Some leather fibers having thickness or length outside the specified ranges may be present, but it is important that the bulk of the fibers have thickness and length within the specified ranges if sheet material having the desired physical characteristics is to be produced.

The pH of the leather fibers is preferably within the range of 5.0-5.5, and the leather fibers should have a water content within the range of 30-50 percent by weight.

There are many ways known to the art by means of which leather sheets or scraps can be converted into a fibrous condition, the fibers having desired characteristics of length, thickness, pH and water content. In accordance with one exemplary procedure which is essentially standard insofar as the basic operations which are carried out are concerned, the leather pieces, either sheet, scrap or both, are thoroughly washed to remove contamination and impurities such as dirt, hair and the like. The washed leather is then placed in a paddle-wheel drum containing a neutralizing solution of an alkali such as sodium bicarbonate, preferably held at a temperature in the range of about 70-85 F. The leather is tumbled in this drum and the pH of the solution is checked and adjusted until the desired pH within the range of 5.0-5.5 is reached.

Attaining the proper pH value for the leather at this stage, which pH value is substantially retained by the leather as it is further processed, is believed to be important in connection with the practice of the present invention. The leather fibers are believed to maintain maximum tensile strength and elongation characteristics under these circumstances. The fibers can be stored over long periods of time without deterioration. Moreover, leather fibers having the specified pH will produce a batt which can more readily be saturated by bonding material.

After the leather has been brought to a proper pH it is dehydrated to such an extent that water in excess of 50% by weight is removed therefrom. This may be accomplished by a mangle or squeeze rolls. The thus-dehydrated leather is then passed into a temperatureand humidity-controlled zone where its moisture content is reduced to a range between about 30-40% by weight. Attaining a proper moisture content for the leather is believed to be important in accomplishing the proper reduction of the leather to fiber in the subsequent steps.

There are many known ways for reducing leather to dry leather fibers. In accordance with one exemplary known procedure, the leather pieces are first cut into narrow strips by a series of rotary disc knives, the strips are further out to chip form in a second device by means of a series of whirling blades, and the chips are then reduced to fiber length by means of hammerrnills, the latter devices consisting of a series of rapidly rotating blades which cut the chips and force the material through a perforated screen. The size of the openings in the screen and the activity of the hammermill blades are so designed that the leather fibers, either when they come from the hammermills or after being subjected, if necessary, to a subsequent attrition step, comprise primarily fibers having lengths between 0.25--] inch and having a thickness between 0.001 and 0.003 inch. Leather fibers having a thickness substantially less than 0.001 inch are really more in the nature of a powder than in the nature of fibers, and are to be avoided; they tend to reduce the desirable physical characteristics of the finished product. Leather fibers having a thickness substantially greater than 0.003 inch appear to be too coarse to produce sheets having the desired physical characteristics The leather fibers will have their natural crimped shape, and when the bulk of the fibers have lengths and thicknesses within the ranges specified they will, when treated as described below, produce sheets having the desired physical characteristics.

in the reduction of the leather to fibrous form nubs or balllike bundles are found to be present. These nubs are deleterious insofar as the present invention is concerned, and are desirably removed from the fiber mass. One known way in which this can be accomplished is by using an air classification process, a forced current of air separating the heavy nubs from the lighter fibers.

The leather fibers having the characteristics set forth are now ready for use in accordance with the present invention. They may be thus used immediately upon their formation, or they may be stored and drawn from storage when needed. it is important to note that the leather fibers are, at this stage of the procedure, capable of being stored for long periods of time under normal conditions without deterioration.

In order to produce sheets having the exceptional physical characteristics above set forth, synthetic resin fibers of a particular type, to wit, nylon or other synthetic polyamides, are utilized. As with the leather fibers, thickness and fiber length are important characteristics. Thickness must be between 0.003 inch and 0.006 inch, with all the polyamide fibers employed in a given sheet preferably having essentially the same thickness. The length of the polyamide fibers should be between 1-1 .5 inch, with an average length of 1.25 inch preferred. it will be understood that this refers to the length of the bulk of the fibers, and that any commercial lot nominally of a given fiber length will almost inevitably contain some fibers with lengths outside the specified value or range of values. The polyamide fibers should be ofcrimped shape.

The crimped leather and polyamide fibers are thoroughly combined or mixed while dry and are formed into a relatively fluffy batt. This may be done in any one ofa number of ways, such as by utilizing a mat-forming machine of the type shown in Langden et al. Pat. No. 2,890,497 of June 16, 1959 entitled Machine for Forming Random Fiber Webs." The required batt may also be formed by superposing webs of leather and polyamide fibers and blending those fibers into a single web by utilizing a needle punching technique such as is well known in the art. The resultant batt comprises randomly intermixed leather and polyamide fibers formed into a porous, substantially fluffy, dry body, preferably in the form of a continuous sheet.

The proportions of leather fiber and polyamide fiber should lie within specific ranges. The leather fibers should be present in an amount between 50-80 parts by weight and the polyamide fibers should be present in an amount between 50-20 pans by weight. Proportions by weight of leather and polyamide fibers of 70:30 is preferred for most purposes, that proportion producing a sheet having maximum tear and stitch strength. When the leather and polyamide fibers are present in proportions of :20 a sheet is produced which has increased softness, but at a sacrifice in strength.

The density of the batt produced at this stage of the procedure may vary over relatively wide limits, provided only that it is sufficiently porous so as to permit the subsequently applied bonding material to thoroughly penetrate the batt. Purely by way of example, a batt having a thickness of about 56 inch and a weight of 10 ounces per square yard gives excellent results.

The batt may be, and preferably is, self-sustaining and used as such but, if desired, it may be deposited on a continuous backing sheet such as scrim.

The thus-formed batt is then treated with a bonding agent of particular type, to wit, a water-dispersed acrylic resin, such as that sold by Rohm 81. Haas under the trade designation S-l. The bonding agent must thoroughly penetrate the batt, since it functions as the sole means positively securing the blended fibers to one another. This thorough penetration and saturation may be accomplished by causing the batt to become immersed in and move through a bath of such bonding agent, which bath may be a water solution of the acrylic resin containing l7% of such resin. If desired, and as preferred, a wetting agent may also be incorporated into the bath of bonding agent in order to facilitate the penetration of the web thereby. Such a wetting agent may be a dioctyl sodium sulfosuccinate or other anionic sulfonated alkyl ester, such as that sold by Rohm & Haas under the trade designation GR-S. The amount of wetting agent in the bonding agent bath may be on the order of O. 1% based upon the total solids content, but that value can be increased or decreased somewhat in order to compensate for variations in the moisture content of the leather fibers employed.

The batt may, while it is passing through the bonding agent bath, be appropriately manipulated in order to ensure that it is thoroughly saturated with the bonding agent. For example, it may, after immersion, be wrung out and then resaturated, as by being passed between a pair of closely positioned rollers and then permitted to expand.

The batt saturated with acrylic resin bonding material is then subjected to the action of another reagent which fixes or sets the bonding material in situ, while the latter thoroughly saturates the batt and thus secures together adjacent portions of the randomly intermixed leather and polyamide fibers. The reagent involved is an alkali metal halide such as sodium, potassium or zinc chloride, with the latter two being preferred. A 20% water solution of such a reagent may be employed as a bath into which the bonding-agent-saturated batt is immersed.

The batt is then removed from the action of the fixing reagent and rinsed and dried. Before rinsing and drying, however, sufficient time is provided to permit the bonding agent to set and thus bond the fibers to one another. This setting process may be accelerated, if desired, by the application of a moderate amount of heat.

After the bonding material has set the batt in rinsed in water and mangled one or more times in order to remove therefrom the excess bonding material, fixing agent and setting agent. Thereafter it is subjected to a heat cure in an oven at a temperature between 350-500 F. for an appropriate period of time, in order to produce a substantially bone dry sheet. A 3 minute cure at the 350 F. temperature is usually adequate; a lesser time is required at the 500 F. temperature.

After the sheet is removed from the curing oven it is preferably passed between a pair of embossing rolls which compresses the sheet to a desired uniform thickness within the range of 0.01-0.50 inch and produces the desired surface characteristic simulating, if desired, a particular type of natural leather.

The sheet may be treated with oils commonly used in the tanning industry, such as neatsfoot oil, and with any desired dyes, all as is conventional in connection with the treatment of natural leather. The sheet may, after formation, be lacquered, stained, embossed, or otherwise finished so as to adapt it to suitable end product use in shoes, handbags, garments, luggage and the like.

in the practice of the present invention fibers derived from natural leather are mingled or interspersed with fibers of synthetic polyamide materials such as nylon, the fibers being bonded by an acrylic resin bonding material, thereby to produce a reconstituted sheet which attains, and in some instances exceeds, the physical characteristics of natural leather and in addition exhibits physical properties to which natural leather cannot lay claim, to wit, uniformity of size, thickness and shape, stability in light, heat, etc., resistance to dry and wet rot due to fungi and bacteria, and dimensional stability after repeated wet-dry cycles. Significantly, the sheet material of the present invention can be formed by reclaiming leather products formerly discarded as waste. The thus formed sheet can be used in place of high grade natural leathers in such applications as shoes, clothing, upholstery and the like, at great saving in cost and with no loss, and even with some gain, in physical properties.

It will be apparent that many of the specific details here disclosed may be varied, all without departing from the spirit of the invention as defined in the following claims.

We claim:

1. A sheet consisting essentially of randomly oriented fibers of leather and synthetic polyamides, the bulk of said leather fibers having lengths between 0.25-1 inch, said leather fibers being present in an amount between 50-80 parts by weight and said polyamide fibers, the bulk of which have lengths between l-l.5 inch and being present in an amount between 50-20 parts by weight, said fibers being bonded to one another substantially exclusively by a bonding agent consisting essentially of acrylic ester, said sheet being flexible and breathable and having a thickness substantially in the range of 0.01-0.50 inch.

2. The sheet of claim I, in which said leather fibers are present in substantially the amount of parts by weight and said polyamide fibers are present substantially in the amount of 30 parts by weight.

3. The sheet of claim 1, in which the bulk of said polyamide fibers have a length on the order of 1.25 inch.

4. The sheet of claim 3, in which said leather fibers are present in substantially the amount of 70 parts by weight and said polyamide fibers are present substantially in the amount of 30 parts by weight.

I I II i t

Claims

2. The sheet of claim 1, in which said leather fibers are present in substantially the amount of 70 parts by weight and said polyamide fibers are present substantially in the amount of 30 parts by weight.
3. The sheet of claim 1, in which the bulk of said polyamide fibers have a length on the order of 1.25 inch.
4. The sheet of claim 3, in which said leather fibers are present in substantially the amount of 70 parts by weight and said polyamide fibers are present substantially in the amount of 30 parts by weight.