Stock material or miscellaneous articles – Coated or structually defined flake – particle – cell – strand,... – Rod – strand – filament or fiber
Reexamination Certificate
2000-12-29
2002-12-10
Edwards, N. (Department: 1774)
Stock material or miscellaneous articles
Coated or structually defined flake, particle, cell, strand,...
Rod, strand, filament or fiber
C428S394000
Reexamination Certificate
active
06492021
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to wet-spun plural-end elastane yarn having a yarn linear density of up to 2500 dtex, high surface lustre and a ribbony cross section and formed from bonded-together individual filaments having an oval to circularly round cross section, the width of the elastane yarn in cross section being at least four times the thickness of the elastane yarn.
Elastane yams are synthetic filament yarns which are produced as mono-or multifilaments—dependent on the intended use—within the linear density range from. 11 to about 2500 dtex. Most elastane yams are coalesced multifilament yarns and possess in their grooved or fluted surface a very specific textile character (compare P. A. Koch “Elastanfasern” in Chemiefasern/Textilindustrie February 1979, page 97-98).
The cross-sectional shape of elastane yarn is substantially dependent on the production process. In the case of dry-spun elastane yarn, the cross-sectional shape will alter in some instances appreciably with the yarn linear density, relatively fine linear densities usually having roundish cross sections and coarser linear densities from about 500 dtex usually having oval to dumbbell-shaped cross sections. This is believed to be due to differences in the degree of evaporation of the spinning solution solvent under the particular spinning conditions. The particular spinning conditions thus influence the onset of coagulation and hence also the degree of shrinkage in the yam's cross section.
These correlations between the cross-sectional shape and the solvent evaporation rate for dry spinning from polymer solutions, for example of acrylic fibres, are extensively described in the OPI document EP-A-31 078.
Using dry spinning for elastane yarn for medium and coarse titers of about 160 dtex, utilizing jets with several jet openings for glued multifilaments, will usually provide roundish to oval overall cross-sectional shapes, averaged over the entire cross section, medium and higher linear densities produced by wet spinning will usually prosses ribbony cross sections in multiple rows, strung up like pearls on a string.
The ribbony cross sections can be advantageous and disadvantageous in the desired final article. The ribbony shape is disadvantageous especially in wide fabric, for example articles having a large area, when its sparkle is unwelcome. On the other hand, ribbony cross sections are also of advantage, for example for the production of diapers. Owing to the wide cross-sectional shape, it is particularly readily possible to apply adhesives to the yarn which lead to firm incorporation and adhesion of the elastic yarn in the diaper article.
Wet-spun elastanes generally have an as-spun filament linear density which is between 15 and 25 dtex.
Known elastane yarn, in addition, has a comparatively dull surface due to the superficial and cross-sectional structure of its individual filaments. In certain applications for the production of textile sheet material, however, particular importance attaches to the visual quality of the fibres, especially their lustre. An objective measure of the lustre is the so-called lustre number which is defined hereinbelow. The lustre number of existing wet-spinnable elastane yarn is at best on the order of 10 to 20.
The invention has for its object to provide elastane yarns having a yarn linear density of up to 2500 dtex and a process for their production which have similar mechanical properties to known elastane yarns, a ribbony cross section and a very high surface lustre.
It has now been surprisingly found that raising the filament count whilst keeping the final yarn linear density constant leads to a distinct broadening of the ribbon shape of wet-spun plural-end elastane yarn by up to about 40% compared with the width of known elastane yarn when the as-spun filament linear density is less than 15 dtex, especially not more than 10 dtex.
This object is achieved according to the invention by wet-spun plural-end elastane yarn having a yarn linear density of up to 2500 dtex, high surface lustre and a ribbony cross section and formed from bonded-together individual filaments having an oval to circularly round cross section, the width of the elastane yarn in cross section being at least four times the thickness of the elastane yarn and the as-spun filament linear density being less than 15 dtex.
In particularly suitable elastane yarn, the width of the elastane yarn in cross section is at least five times, preferably at least eight times, particularly preferably at least ten times, the thickness of the elastane yarn.
In elastane yarn of particularly uniform surface quality, the as-spun filament linear density is not more than 10 dtex, preferably not more than 5 dtex.
Preference is given to elastane yarn which has a lustre number of at least 20, preferably of least 40, particularly preferably of at least 100.
Preferably, the elastane yarn comprises polyurethane comprising not less than 85% by weight of segmented polyurethane.
Segmented polyurethane is in particular a segmented polyurethane based on polyethers, polyesters, polyetheresters, polycarbonates or mixtures thereof.
The invention further provides a wet spinning process for producing plural-end elastane yarn having a yarn linear density of up to 2500 dtex, high surface lustre and a ribbony cross section by spinning and especially at least 25% strength by weight elastane solution into a coagulation bath, washing and optionally drawing the yarn formed, drying, setting, spin finishing and winding the yarn, characterized in that the as-spun filament linear density is less than 15 dtex and the individual filaments are converged on a diverting roller in the coagulation bath by means of a comb-type thread guide.
In the preferred process, the as-spun filament linear density is not more than 10 dtex, preferably not more than 5 dtex, particularly preferably not more than 3 dtex so to obtain an almost circularly round cross-sectional shape for the individual filaments.
It is particularly advantageous when the elastane yarn is additionally pressed by a press roller onto the diverting roller after the converging on the diverting roller in the coagulation bath.
The coagulation bath press roller contact pressure is preferably within the range from 1 to 5 bar (0.1 to 0.5 MPa), in particular for elastane yam having a linear density of up to 1000 dtex 2 to 3 bar (0.2 to 0.3 MPa).
The choice of the as-spun filament linear density, as well as broadening the ribbon shape of the elastane yarn, surprisingly also modifies the cross section of the individual filaments. Whereas an as-spun filament linear density of more than 15 dtex is observed to produce, for example, kidney-shaped filament cross sections, an as-spun filament linear density below 15 dtex, especially of about 10 dtex or less, is found to be accompanied by a change in the cross-sectional shape of the individual filaments into an oval to circularly round shape. At an as-spun filament linear density of less than about 5 dtex, virtually all the filaments present have a round cross-sectional shape.
FIGS. 1
a
to
1
c
show the increase in the ribbon width with an increasing filament count for the 800 dtex yarn under otherwise identical spinning conditions. Magnification: 1 cm=about 70 micron.
FIGS. 2
a
to
2
c
show individual filament cross sections for various as-spun filament linear densities for the 800 dtex yarn. Magnification: 1 cm=30 micron. As is discernible from
FIGS. 2
a
to
2
c
, wet spinning an 800 dtex elastane yarn from a 385 hole jet using an as-spun filament linear density of 4.2 dtex gives round filament cross sections. The surface of such elastane yarn is smoother, has a lower groove depth and hence possesses a particularly high lustre. While an 800 dtex elastane yarn spun from a 172 hole jet using an as-spun filament linear density of 9.4 dtex possesses a lustre number of 60, the lustre number increases to 100 for an as-spun filament linear density of 4.1 dtex (cf. Tab. I1, Examples 6 and 8).
The distinctly higher lustre of the
Anderheggen Wolfgang
Herbertz Toni
Reinehr Ulrich
Sehm Tilo
Spilgies Günter
Bayer Faser GmbH
Edwards N.
Norris & McLaughlin & Marcus
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