BE733673A - - Google Patents

Description

  

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  "A method of making a bulky, heavily crimped fibrous material".



   The present invention relates to a method of manufacturing in a fibrous manner having a potential for crimping and high volume. In particular, the invention relates to a new process for considerably improving the crimping and high volume potential of short keratin fibers, such as wool, and for producing a wool fiber exhibiting various improved characteristics, attributable to elongation and elongation. special fixing.



   In general, it is known that in the field relating to the manufacture of a bulky yarn, it is easy to communicate to

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 synthetic fibers *, Mainly to synthetic * acrylic fibers, high shrinkage by reheating, as soon as the temporary fixing is achieved by an appropriate elongation carried out during heating. In accordance with these characteristics, it is possible to obtain a fibrous material having a high so-called shrinkage potential.



   The various short fibers, in particular wool fibers, have a limited length (most of the time 1 to 20 and * approximately) and it is therefore very difficult, from an industrial point of view, to make% short fibers. of this type, exhibiting a predetermined crimping and shrinking potential, similar to that of the fibers described below.



   Therefore, an aim of the present invention is to provide a fibrous material, in particular short keratin fibers, such as wool, endowed with new and considerably improved characteristics,
Another object of the invention is to obtain a fibrous material which can be used as fibrous products, for example clothes, of which the characteristics of touch, appearance, etc., are excellent.



   Yet another object of the invention is to provide a fibrous material, without the need for a complicated special process or a particular technique.



   In accordance with the objects mentioned above and as described hereinafter, the invention makes it possible to manufacture a fibrous material endowed with a potential for crimping and high volume and which can be efficiently obtained by arranging several short fibers, such as than the wool, longitudinally to the fibers, so as to shape bundles of carded ribbons, by twisting the bundles of carded ribbons based on short

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 keratin fibers, such as wool, by lengthening the faiso @ twisted of short keratin fibers under tension, applying a lengthening and fixing treatment by heating (oxidation, reduction, radiation or other action) and then releasing the torsion,

     so as to be able to obtain the desired elongated fibers.



   In other words, it has been found, in accordance with the invention, that the friction between each bundle of fibers increases sharply by twisting the bundle of short fibers in the form of a carded ribbon, arranged longitudinally to the fibers. Therefore, the twisted bundle of short fibers can be stretched easily despite its length. Further, the elongated state mentioned above is maintained by a setting treatment.



   Natural keratin fibers, such as wool, and fibers with similar characteristics, have a complicated molecular structure and construction and are likely to be affected by humidity, temperature, weather, etc. In the presence of these difficulties, it is proposed, according to the invention, to industrially produce an excellent fibrous material.



   In order to achieve the aforementioned aims, the fibrous material in accordance with the invention is prepared as follows: 1) by lengthening and fixing by twisting bundles in the form of carded ribbons based on short keratin fibers, such as wool, in in order to avoid the slippage which may be produced by the friction generated between these fibers; and then 2) by release twist. Further, in accordance with the invention, improved textile articles, such as new and improved yarns, knitted, woven and non-woven fabrics, industrially used textile articles and the like, exhibiting high bulk and crimp potential,

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 can be made from the compliant fibrous material
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 to invention.

   In addition, garments including stockings, gloves, mittens, hats and delicate and fine novelty trims, as well as padding materials, carpets, upholstery fabrics, wall coverings and fabrics. Other articles, of high quality to the touch and good appearance, can be made from materials woven using the yarn according to the present invention.



   In order to obtain this article by using the object of the invention, the treatment of stretching and fixing of the bundle in the form of carded ribbon of the invention is carried out under tension and a temporary or permanent fixing. is applied in accordance with the desirable clamping conditions of that bundle. The expression "temporary fixing" is a fixing effected to such an extent that the length
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 fibers may change in accordance with the relaxation treatment applied subsequently, while the term "permanent fixing" is fixing carried out to such an extent that the length of the fibers may change very slightly
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 or absolutely not lt4-e6id.

   In short, the 'fixing' of the present invention is an ili8'e operation to apply the necessary fixing to the ¯ti6 ftbrauses, comfortttétsent to the textile articles' C ... i'8.



  Given @ goal. J> N04., '., As well as other objects and advantages, such as they are understood, the invention includes dirpoeitifo, <H2 and das assemblies @ parts described herein. 80 'of the preferred resolution forms,; 1lw.enttis to 4.uiu onnex "p in IbqlJ8l .: lasfigureo 1 at 2 sent das vu aimplaa, eaplicatires and enlarged, showing alürernt the slide ailvng6s, s of two folds of the ftisMMOt bu t / rQb8ft1 08 468 '

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 lec figures 3 and 'his': these graphs giving the distribution of the percentage of shrinkage of the fibers, dent the shrinkage potential is obtained by temporary fixing in water at 100 C;

     FIG. 5a is a simple explanatory view showing a fiber material based on wool, exhibiting the crimping potential according to the invention; FIG. 5b represents the fiber material based on wool according to the invention, obtained by applying the relaxation treatment to the fiber of FIG. Sa; Figure 5c is a conventional wool-based fibrous material, serving as a comparison to the product of the invention; the fibers of the duux Figures 5b and Se are shown on an enlarged scale.



   The term "carded ribbon" is used to describe the bundle of fibers consisting of several wool-based fibrous materials.



   The method of making a fibrous material with high crimping and shrinking potential and fiber embodiments * are given below:

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 (A) (Bi (C) (D) Carded ribbon Twisting Pretreatment Elongation) #########) -) ########## t and fixing (elongation and fixing temporary or al- longemeat and permanent fixing (E) (P) manant).



  Drying Twist llßcTât3.311 and Eüew, 7 t tension drying (F ') (E') Drying under Tension twisting release 1-19 and drying.



  Conventional carded ribbon is generally used as
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 a raw material, so there is no need to increase the potential for crimping and entanglement. However, the carded sliver is by no means limited and the rovings can be used in the present invention.



   The stages (A) - (F), (A) - (F ') are described in detail below.



  (A) Raw material:
In this case, the classic head product is used.
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  In order to improve this stage, it is more removable from. souxttr.t the teta product to the conventional gripping process, ixaadiataatant cvant the twisting process - described in point (B).



  CI) PI ver6d '6 xwtordaga La l'1It: oJfâ & ,. raban parda does not eomjeant short f: 11n'fB is efiootuo principal pow avitar the .1i.nt which rliqua occurs between the fibers.



   The carded ribbon is twisted so that the
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 between chaoun. fibers should be as small as possible. In

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 In general, good results can be obtained by twisting harder than during the spinning process. Preferably, the twist is suitably regulated in accordance with the degree of elongation, the type of twist, the kind of fibers to be used, the fiber length, the coefficient of friction, size of the carded sliver, the mode. elongation and fixing treatment and other conditions. In essence, different means? and ways can be adopted in accordance with the objects of the present invention.

   For example, the twist is ordinarily about 0.05 to 0.4 turns / cm in the case of a 20 g / m yarn carded sliver, and about 0.4 to 0.0 turns. / cm in the case of a carded ribbon of wool of 5 g / m.



   In the present invention, it is not necessary that all the fibers of the carded sliver do not slip when the twist is applied to such an extent that slippage does not occur between each of the fibers, i.e. that the twisting can be applied so as to prevent slippage of a number of fibers corresponding to the required ratio in the carded sliver. Of course, this operation does not depart from the fundamental technical idea of the present invention, according to which the short keratin fibers, such as wool, are twisted temporarily to avoid the slippage which may occur between the fibers, and are thus elongated * in the non-slip state.

   In its embodiment, the invention provides the features described above. By allowing their fibers to partially slip, a mixture of elongated and unelongated fibers in the desired ratio can be obtained in the carded ribbon prepared by applying the stretching and setting treatment, as well as the release twist,
In this way, normal and uniform fibers in the elongated and unstretched state are so instantly produced and

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 the simple operation of mixing elongated and non-elongated fibers can be accomplished as easily as uniform mixing.



   Twisted single carded sliver, two-ply carded sliver and multiplet-pleated carded sliver are types of twisted products, the elongation examples of which are described below.



  (1) Twisted single carded ribbon:
When the carded ribbon is twisted and elongated, the fibers of the central portion of the twisted carded ribbon are elongated at the same degree of elongation as that of the twisted carded ribbon. However, a smaller degree of elongation than that of the carded sliver is imparted to the fibers as a function of a magnitude approximately corresponding to the twist angle, as it progresses from the central part of the carded sliver to the outer part of that. -this. The carded sliver obtained by the application of the stretching and setting treatment and the release twist comprises fibers of which the degree of elongation is of an order between that almost identical to that of. carded ribbon and that almost equal to the lesser degree.



  (2) Double-ply, multi-ply carded ribbon:
When the elongation is achieved using double ply carded tape and multi-ply carded tape, slippage is unlikely to occur between the fibers.



  Therefore, this multi-ply system can preferably be adopted if it is not necessary to allow the fibers to partially slip, as mentioned above.



   For example, the first twist is performed in the opposite direction to the final twist and this first twist is T turns / cm, so that the fibers can appear to be directed in the same axial direction of the twisted carded tape as
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 the one here i i, uï-c i, uoaaô CÇ <.. It.t <..., C .1'C 1 = .abc #

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   carded have almost the same degree of elongation as that of carded sliver when the final twist of T / # n turns / cm ("n" is the number of carded ribbons evenly arranged; in the case of Figure 1, "n" is 2) is actually reversed from the first twist, the twisted carded ribbons being elongated, fixed and then released.



   In the accompanying drawings., The twisted carded ribbon is designated by 1, while the direction of its fibers is designated by the.



   When the same number T toura / cm of twist as that of the first twist is applied in the opposite direction to this first twist, the fibers of the carded tape are deformed as shown in FIG. 2 (1b). In particular, each fiber is in the untwisted state. The result is therefore the following.



   When the un-twisted fibers are elongated and subjected to a fixing treatment, the degree of elongation decreases as a function of a magnitude corresponding to the twist angle, as in the case of a single carded tape, as it progresses by. the central part towards the outer part, provided that the carded ribbon is considered as a whole mass formed in the manner of a body by the application of each of the two carded ribbons. Therefore, it has been found that the twist of each of the fibers included in the uniformly distributed carded sliver exhibits a degree of elongation almost equal to that of the carded sliver, reduced by a magnitude corresponding to the twist angle.

   In this case, the slippage of the carded ribbon hardly takes place, as has been seen, and the non-elongated fibers are not incorporated, this being absolutely different from the case of the single carded ribbon.



   When a number of twists different from that of the two examples mentioned above is applied, for example if the final twist T / n turns / cm ("n" is the number of carded tapes evenly arranged) is applied, relative to

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 at the first twist T turns / cm, in the reverse of this, the individual fibers of the carded sliver have a different elongation dogré along the axial seas of the fibers,

   since each of the fibers of the carded ribbon is arranged in a spiral between the central part and the outer part of this corded ribbon. That is, the fibers are subjected to a different degree of elongation along the axial direction of the fibers, since each of the fibers of the carded tape is arranged in a spiral between the central part and the inner part. of the body-like mass formed by the plia lead of each of the two carded tapes, even if the first twist and the final twist are applied in the same direction.



   Figures 3 and 4 show the distribution of the temporary fix ratio in the case of a single carded ribbon and a double ply carded ribbon.



   In accordance with the present invention, fibers. having different degrees of elongation satisfying different purposes, can be obtained by combining the different ways of twisting, etc.



  (C) Immersion pretreatment:
The single carded tape (twisted or the double-ply carded tape is subjected to a bath treatment at will. This bath treatment can be carried out in different ways, for example by immersing the fibrea in a bath, spraying them, by projecting an atmosphere of fog on them, etc. and this depending on the degree of elongation that is to be obtained.



  For example, the immersion of the inner part of the carded ribbon in the bottom is very fast and ends in a very short time, about 1 to 10 seconds, even though the entire mass formed as a body by styling each one of the two carded ribbons has been twisted to prevent slipping.



  (D) Elongation and fixation:
Fixation can be done during lengthening or

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 after this one. Two types of fixing are used in the present invention, namely temporary fixing and permanent fixing. Temporary or permanent fixing is performed in varying bends, according to how the fibers become different from each other.



   The treatment medium to be used for the aforementioned fixings is usually water containing or not containing impregnating agents, steam, various chemicals, such as a dilute aqueous solution of alkali, acid, etc. . as well as fixing agents, for example dilute thioglycolate, sodium sulphite, etc. In addition, various substances, such as oxidation or reduction materials, or radioactive or electromagnetic products, etc. can be widely used; these media or materials are preferably chosen according to the different conditions, eg, temporary fixation, permanent fixation, degree of fixation, etc.

   Some products are used in liquid form, while others are applied by spraying. For example, steam is preferably used in the present invention.



  Likewise, it is preferable to employ useful or harmless impregnating agents when these are to remain in the fibers. In addition, the use of a volatile alcohol can also be provided simultaneously with these agents, in order to facilitate impregnation and elongation. In this case, the pH can be adjusted in an order of magnitude from 4 to 9.



   The temperature of the bath and the duration of the treatment will vary depending on the conditions of the water, the type of impregnating agent to be used with the latter, the chemicals, the degree of concentration and elongation required, the water content. temporary or permanent fixation, degree of fixation, etc. Combined agents make it possible to measure the decrease in temperature and the reduction in time.

   In general, in accordance with the

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 As the tests undertaken, it is frequently advantageous to carry out the treatment at temperatures of about 50 to 100 ° C, so that the fibers treated can retain their stability and are not affected by unforeseen accidents, for example. wetting with water, usually occurring in the plant during processing or during a long period of storage. In this case, fixing is intimately related to the release and drying processes, as described in detail below.

   As soon as the treated fibers are elongated, the winding process is implemented, that is to say that the elongated fibers are subjected to a so-called batch process. On the other hand, a continuous system can be adopted in the present invention, not to mention other different operations.



   The degree of elongation is preferably determined additionally by the extent of the release obtained.
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 during drying, that is to say when the last drying is carried out by the tension-free treatment after release. The elongation is common to both single carded tape and multi-ply carded tape, but is not necessarily limited. For example, the most favorable products may
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 be obtained when this elongation is a6t * - mind adé'j4t ... n to less than about 0%. ± In addition, he axiates other elongation proC'd5, by ¯ .., a uniform elongation and an elongation in phases, that is, an allonlsasnt-relaxatio method. - elongation. Each of Ma proaidis is implemented in accordance with the required positions *.



  From the description, 1'606dent., It is quite obvious that in addition to itsw3ofr, all .. the fi8t88 mounts elongated as soon as the bundle of its 0IIII8 of carded ribbon is twisted temporarily to avoid slippage. r3sqdt de and pfflidre between each of the free ones when the foàou u ut ollong ',

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The extent of the elongation can be determined freely, without taking into account the length of the fibers, attributable to the twisted bundle, in order to avoid the slippage mentioned above. Therefore, the fibers can be lengthened and secured, preferably squeezing them over any free distance.

   Therefore, the bundle of fibers can be sufficiently tightened. Each of the fibers of the bundle in the zone of free elongation can be effectively lengthened to large quantities. Elongation can be applied to a bundle consisting of relatively short fibers.



  CE), (F) Release twisting and drying:
In the case of a) tension-free drying, one releases
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 after cooling in the almost twisted state or in the untwisted state, so as to make the carded tapes bulky in order to facilitate drying. The drying temperature in the case of temporary fixing can be carried out under conditions such that the temperature of the previous elongation is not
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 not exceeded, i.e. an Average temperature can be applied, for example. The drying temperature in the case of permanent fixing may be substantially higher,
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 that is to say that it can expect for example more IOOOCI although this is not defined due to the different
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 conditions mentioned above.



  The fibers of the eardened tape may be dry in the strongly or slightly retracted state, even if they are dry in the tension-free state.



  When the res of a tension exsiapting, the awde tape is forgotten in the elongated state, after the tNit8Mnt of fixant and al10na --- nt, and must then be released.



  D6! 11J the above p <tMgMphM Us) - (?) ,, mainly refers to a process in which true or actual twist is applied to the offli tape. Co888 88fttio Oi "" "8, the LowAn'tion is mractéritée and that the fibers are ellMt6ew,

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 fixed or dried in the twisted state, especially in the non-slip condition, and false twist may therefore be applied before the final twist of the single carded sliver or the multi-ply carded sliver. The fibers can be stretched, fixed and dried during false twisting,
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 in the retracted state. In this case, it is not necessary to positively provide for a release twisting process. The fibers are thus found in a natural free state.



   In accordance with the invention, elongation and setting can be applied effectively to wool which in general causes greater processing difficulties. Therefore, excellent wool fibers can be obtained by the present invention as described herein.
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 memory and specifies in the claims * above.



  The fibrous materials of the present invention are
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 classified approximately as follows, <Bp: eiu of different conditions: (1) The aati8: n fibrsuae is obtained by elongationg temporary fixing and drying free of tension;
This fibrous material presented the portential of crimping
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 and de r6t6ci.a ... t represented in the figurs sa. This potential is similar to the wide waveform denoted by 2.



  The * fibers r'tr60.b..nt when traitftl8ftt. relaxation, based on uM.l'N1 ', agent * ehiniauea, 44 radination and insntrss I8iU. "" N14u1lt8, are & ppliqudo to the material I ibrwuww above t. In ewtrw, the fixa .. t ..... iN of this free is realized. DeA8 this case they fibpwo ob "" '"por le tNit8Mftt priowtir have rs aCl811ent. 4pp & 1'8W8 and iltfoï'6tt8icn tactile 9 rpr la tzeiMQ.e a ond 1arp8 is scaled into a fine show.



  He, 1. fried is disigni p-r 1 i la li1W8 Ib, slums q @ O 1 @ matitrw fàkwne non trsitls, oena as aaatpl.

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 contrast, is designated by 4 in Figure Se.



  (2) Thanks to the mixed spinning of the fibrous material 2 with
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 non-shrinkage fibers or other fibrous materials of low shrinkage, firstly fibers exhibiting high shrinkage and then low shrinkage fibers are obtained by applying the treatment of relaxation, for example heating the mixed spun yarn.



   In this way, the yarn can exhibit good texture, fine appearance, and excellent lightness and other properties, correlating with high crimp and bulk.



   The fibers subjected to the tension drying treatment are nearly straight during the temporary setting as described above. The yarn obtained by mixed spinning of fibers with other low-shrinkage fibers is subjected to
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 then to the relaxation treatment and the treated textile products show a fine volume and crimp, almost identical to those mentioned above.
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  The yarn-like materials can be used in the manufacture of woven or knitted fabrics, the latter undergoing
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 then skip a relaxation treatment so as to also obtain very good results. Thanks to the use of the aforementioned process and of the fibrous material according to the invention, the
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 fabrics pr6mwnt t excellent arctl = tics, for example ma 8'j) soft, flat and fine outer skin, good teal printing, aranct lightness, good resistance to folds. eto.

   As a consequence, manufacturers can make up to 88O.11 the present fiber material for the manufacture of various voltmitMax * falling within the scope of DOI \ 1I8'teri. and drapery, these articles exhibiting good strength 69 of stretching, elongation and other parts. G818ri "8Ifioac .. (grget with the beneficial characteristics of

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 fibrous materials in accordance with the invention, these fibers can find wide and varied applications.



   (3) The fibrous material subjected to the elongation, permanent setting and drying treatment both in tension has almost the aforementioned wavy and broad-wave collar mines. Sufficient crimping potential is provided to the fibers.



   When these fibers are subjected to a relaxation treatment using a medium, such as moist heat, the treated fibers are strongly crimped and their denier is very small.



   (4) Flowering materials obtained by elongation, permanent fixing and drying under tension are almost straight, have a low denier and their potential for friaage is sufficient. After having been subsequently treated with moist heat for example, fine fibers can be obtained, the crimping of which is very important.



   In the present invention, the fiber fixing treatment can be carried out during stretching or after stretching as mentioned above. The drying process can be carried out in the twisted state or after release twisting under tension or tension examination. Further, the degree of fixation is determined by the free and favorable combinations according to each of the states of permanent fixation or temporary fixation. Depending on the selection of the appropriate combinations under each of the conditions, it is preferable to control the characteristics, degree, distribution rate of shrinkage potential, denier difference, variation of frisai ets.



   The fibers obtained by the process according to the invention are used together with untreated wool fibers and other natural or synthetic fibers, depending on their own proportion,
The present invention can be implemented as

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 follows. The term "utility experiment" in the text or b3equ * dg only serves to emphasize the process and forms of making the textile articles.



     Example 1
In this example, the wool has the potential for crimping. and of volume obtained in accordance with the stages of elongation, temporary setting and tension-free drying, a single carded sliver of wool-based fibrous materials being used.



   A carded ribbon of wool, about 20 g per meter and with the Z-twist of 0.2 turns / cm, is immersed in
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 water of a temperature of 70 ° C. and containing an impregnating agent, to be elongated by 30%, and is then subjected to permanent fixing under tension at about 50 ° C. for approximately one hour. After cooling by passing it through water, it is released and air dried. The degree of shrinkage of this carded woolen ribbon is on average 23% in boiling water, the distribution of this shrinkage being shown in Figure 3. These fibers, shown in Figure
5a, then pass through 3 'boiling water and are subjected to the relaxation treatment.

   The fiber obtained according to the above-described process exhibits a high crimp, not to mention the other characteristics. The crimping state is designated ar 3 in FIG. 5b.



  Example 2
In this example, the wool is obtained by stretching, temporarily setting and drying under tension the wool-based fibrous material of a single carded ribbon.



   A carded sliver of wool, about 30 g / meter and with an S-twist of 0.1 turns / cm, is immersed in water at '75 C, to be stretched by 20%, and is then subjected to permanent fixing for 20 minutes. It is released after drying
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 zouc c # = 1 = # 4 5O #iuu Jv wiüwtC6.

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   The fibrous material obtained by the above process exhibits the crimping potential of the material of Example 1, although the crimp appears to have been lengthened in appearance. The degree of shrinkage in boiling water averages 19% as shown in Figure 3.



   The final product. obtained by applying the relaxation treatment to aax fibers, is in substance identical to that of Example 1. Even if the fixing treatment is only modified, that is to say if the product is treated with a solution. 0.5% aqueous acidic sodium sulfite at 60 ° C for 20 minutes and if the other conditions are equal to those of Example 1, the end product is almost identical to that of Example 1.



  Example 3
In this example, the wool is prepared by stretching, permanent setting and tension free drying, using the woolen fiber material of a double ply carded ribbon.



   The method of making these fibrous products consists of subjecting the carded woolen ribbon of about 15 g / meter to a first Z-twist of about 0.26 turns / cm, then subjecting the twisted wool ribbon to a first Z-twist. Z to a final S-twist of 0.13 turns / cm, stretching the carded woolen sliver twisted into an S-twist in a 2% aqueous solution of monoethanolamine bisulfite at about 80 ° C, with a view to lengthening it by 20%, applying a permanent fix for 40 minutes, rinsing the fibers with water, and finally-releasing and drying them.



   The fibers thus prepared exhibit a somewhat elongated crimp. After being subjected to the relaxation treatment, they nevertheless have the potential for fine and uniform crimping and show little shrinkage in boiling water.

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  Example 4
In this example, the wool is endowed with remarkable crimping potential, although it appears that no crimp is apparently present. This wool is treated according to the same process as it exposed in Example 3, waterf that no release and drying us tension have envisaged.



   These fibers to be treated as a lower material are 100% spun by a conventional process. The yarn, obtained after being% omitted in a relaxation treatment in water at
Surroundings 40 C consists of the assembly of fibers shown in Figure Sb and the fibrous material exhibits the very fine crimp denoted by 3. A very soft elastic woolen yarn is produced.



   Example 5 Compared to the yarn consisting only of the untreated woolen fiber material, the bulky yarn of this example can be prepared using fibers treated according to Example 1, except that a relaxation treatment is not required. is not expected.



   In this example, two type; of yarn from bon @ eteris are prepared (A) Knitted yarn according to the invention (2 / 36's): mixture of 50% treated wool and 50% untreated wool; (B) Hosiery thread not according to the invention (2 / 32's):
100% untreated wool.



   The two yarns (A) and (B) are spun by any conventional process and the yarn is then used to make hosiery articles, namely: lA ') Hosiery articles obtained with the aid of (A); (B ') Articles of hosiery prepared using (B).



   Articles (to ') are provided with broad penalties,

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 so that the number of paintings per unit area of (A ') is the same as that of the articles (B'), after having subsequently been subjected to a shrinkage treatment, for example with steam.



   When the articles (A ') and (B') were respectively subjected to the steam shrinking treatment, the results of this operation are as follows: (A ') Hosiery comprising the wool treated in accordance with the invention: 152 g / m2 (weight); (B ') Hosiery consisting of (B): 157 g / m (weight).



   As a result of the shrinkage of the wool fibers according to the present invention, the treated wool (A) shrinks and therefore, the untreated wool mixed with (A) swells and expands, so that (A ') becomes bulky and is superior to (B ') in softness, elasticity, feel, etc.



   Articles of hosiery obtained by applying the
 EMI20.1
 shrinkage treatment: isieaaenr to the yarn before knitting also have the same characteristics as those mentioned above.



  Example 6
In this example, the bulky yarn is prepared by mixing with other non-wool fibers, and without spinning. 25% of a woolen fibrous material, obtained
 EMI20.2
 sebn proceeded from 11 ex pla i. are mixed with 25 'of fiber. untreated wool and 60% synthetic fiber *. for example t: 1 &) & 8 polyuter Cf4lto'tOft 1 lI81 'as the polyeat4r fibers produced by Toyo Rayon Co. 9 Ltd. and pew the Teijin LilJitcacU. The mixture is ..vit.rU .. The yarn is used to make ti..6e fabrics. eeq "p4 to the products go consuming the yarn serving as 008p8r8i80n and not mentioned by the process of this exaocpia, the product C! 0n8ic1 acsntrr in

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 sufficiency appropriate softness, particular breadth and rigidity, good resistance to wrinkles, etc.



  Example 7
In this example, mohair is used as an example of short keratin fibers, not consisting of wool.



   The mohair is twisted under the same conditions as in Example 1, stretched by 40% in water at a temperature of 70 ° C. and subjected to a fixing treatment under tension at 70 ° C. for approximately one hour. After cooling in cold water, it is released and air-dried at 40 ° C. In order to compare the degrees of shrinkage with each other, another sample stretched to 10% is used. 40% elongated mohair has an average shrinkage of 36%; while the 10% elongated mohair sample has a degree of shrinkage of 9%. By mixing 25% of 10% dongé mohair and 75% of untreated mohair and by spinning this mixture by any conventional process, a Mohair yarn is obtained which can be used as a weft for making textile articles by any conventional process.

   These products have an excellent texture compared to articles :; currents.



  Example
In this example, the wool is prepared under the same conditions as will set forth in Example 1. except that the carded sliver is subjected to false twist and release is not effected after stretching and drying. the fibers both subjected to false release.



   Fixing agents and relaxation treatment agents can be aqueous or consist of chemical materials. It is preferable to select the appropriate agents for each of the requirements.



     The invention makes it possible to subject the short keratin fibers, such as wool, to a fixing treatment.

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 and necessary elongation, applied industrially. According to the invention, short fibers can be processed and prepared, for example wool fibers having excellent hand, good tactile impression, etc.

   Therefore, yarns, fabrics, knitted articles, woven or non-woven fabrics provided with various special and excellent characteristics, such as for example large volume, special texture, breathable properties, great lightness, good resistance. plies, etc., can be produced easily and economically. By virtue of the present invention, the quality and fashion of textile articles can be easily controlled and the characteristics diversified.



   Since many different embodiments of the invention can be practiced without departing from its spirit and scope, it is obvious that the invention is not limited to those forms. specific achievements given above, with the exception of those defined in the appended claims.



    CLAIMS.



     1.- Manufacturing process of unit @ of finite material
 EMI22.1
 breuses, characterized in that it consists in twisting t6MpOrarly a closed bundle of carded tape based on short k6ratiniquu8 fibers, by <tt <mpl <of the Idea in order to avoid the glissemat which risks and produces fw eatpw the librps when the beam is oUong5, to allonaar the f.18o ... rstardo of c.o1II "t .. fiber @; ttr-atWq \ ul8, st to fix flumlemat la faisotan .." 1 "of short free * Jr & at 1Ai4 ....



  2.- Pvoeéd 'according to PtvMtdiaation 1, 08Nat6! TÜ' so that the fixing is Kmperwirw.



  J. - Preceded sstivast the N9 "'ī'ma 1,.,. Ot'I'1-' as the fixing is parmnant, 4.- Pttoa4" 811 {..nt the rswadioatioie 1, 08Not'ria '

** ATTENTION ** end of DESC field can contain start of CLMS **.

 

Claims (1)

<Desc / Clms Page number 23> in this case the torsion applied to the bundle of short fibers EMI23.1 kê: atan # uee aloi during the twisting stage is released after the fixing stage. 5. A method according to claim 4, characterized in that the fibers are dried without tension after the release reidrdage stage applied to the bundle of short keratin fibers. 6. Process according to claim 4, characterized in that the short keratin fibers are dried under tension before the release twisting procedure applied to the bundle of short keratin fibers. 7. A method according to claim 1, characterized in that the fibers are exposed to a fixing medium during the elongation stage. 8.- A method of manufacturing units of fibrous materials, characterized in that it consists in temporarily twisting a bundle of carded ribbon of short keratin fibers, for example wool, in order to avoid the slippage that may occur between the fibers when the bundle is stretched, to lengthen said twisted bundle of short keratin fibers and to: Fix the lengthened bundle of short EMI23.2 k6r8tiniqW88 fibers, said twisting stage comprising Illippli tiogà of a nosfbrs F'd't.I'Ift, \ n6 of bundle rewinding, the * 4-se in p808 858eatl. of some bundles, the Application of; m not predetermined to the twists and the combination of stedos of 'tr8it888ftt wwloa various ways in order to distribute obsoess da8 tÜlte8. omfor 6 nl.- It its vétrécis potential: 11t, at the eewrw of the process of fixing and elongation. 99. Prooffl .ú'lan't la t "..,. NcSi & 1: ion 8, characteristi94 what he oemiste to apply a first twist to the taioooaut of oewt kiratin fibers in the form of- Tubana aarc! 68. 1 available the said f; 1 * fibrous o ow in two folds cu <Desc / Clms Page number 24> @ in multiple folds * and to apply a final twist to different * bundles of fibers thus disposait dama a reverse sound to the first twist .... so that each of the fibers is located so that it can be directed in the axial direction of the whole mass would do like a body. 10. A method according to claim 8, characterized in that it consists in applying a first twist to the bundles of short fibers. keratin in fora. of carded ribbons, to arrange the fiber bundle in two plies or in multiple plies, and to apply a final twist to different fiber bundles thus arranged in a direction opposite to that of the first twist, so that each of the fibers is located such that it can be directed in the direction of twisting of the entire mass formed in the manner of a body. 11.- A method of manufacturing units of fibrous materials having a crimping potential and of high volume, characterized in that it consists in temporarily twisting a bundle of short keratin fibers in the form of a carded ribbon, for example wool, in order to avoid the slippage which may occur between the fibers when the bundle is lengthened, to fix the lengthened bundle of short keratin fibers, to dry under tenation, to interrupt the twisting applied to said bundle, to mix said units fibrous to fibrous materials having a low shrinkage potential, to bring the mixed fibrous materials into the shrunk state so that the fibers of the mixed fibrous ways cross each other, and finally subjecting the shrunken fibrous materials to a treatment which causes shrinkage and crimping of these fibrous materials, so that the fibrous materials with low shrinkage potential develop due to the shrinkage of the fibrous materials whose potential for crimping and crimping. <Desc / Clms Page number 25> shrinkage is more washed out than that of the low material EMI25.1 shrinkage thereby providing excellent crimp to said fiber units and sufficient bulk and crimp to mixed fiber dobbies. 12. A method as claimed in claim 11, characterized in that said fibrous materials are yarns and in that the yarns are used in., Further to make woven fabrics. 13. - Method according to claim 11, characterized in that said fibrous material are fila and in that the son are then used to make knitted fabrics. 14.- A method of manufacturing unita of fibrous materials having a crimping potential and of high volume, characterized in that it consists in applying a first twisting to a bundle of short keratin fibers in the form of a carded ribbon, to applying a final twist to bundles of carded ribbons arranged in two plies or to bundles of carded ribbons arranged in multiple plies, to lengthen the inversely twisted bundles by simultaneously applying a treatment medium, for example water, and making a drying the elongated bundles under tension and a release twisting of the bundles, thereby obtaining fibrous materials having a high crimping potential, in spinning said fibrous materials and finally subjecting the thread to a treatment which causes crimping of the fibers. 15.- The method of claim 14, characterized in that said fibrous materials are threads and in that the threads are then used to make woven fabrics. 16. - Method according to claim 14, characterized in that said fibrous materials are threads and in that these threads are then used to make knitted fabrics. 17. - Process for manufacturing units of materials <Desc / Clms Page number 26> EMI26.1 tibreuses, a & r8ct6r1. ' in that it consists in reto t * 8pO- rairauoent a web of short kiratinic t! bru 8A fOl'88 of carded ribbon, for example from the wool, so as to iviter any gliasment which risks not producing between the gibrat when the f4iau Qat elongated # and he then lengthens said twisted bundle the short fibrea k6 "tiniquse. - PL-oc6di of making a voluminous and .highly fried fibrous material * 60. babstantiellment as described above .... nt and illustrated in the attached dosai.