[0001] The present invention relates to a lyocell fibre comprising a matting agent, the
use of said lyocell fibre for the production of a textile fabric and a textile fabric
comprising said lyocell fibre.
Prior art
[0002] Cotton is the most widely used natural cellulosic fibre for the production of textile
fabrics. Although cotton is a very resistant fibre and can be subjected to aggressive
and harsh treatments (e.g. denim laundry, etc.), its mechanical and haptic properties
(e.g. handfeel, softness, etc.) are not always ideal in some applications.
[0003] Cellulosic man-made fibres can completely or partially replace cotton fibres in many
applications. Suitable cellulosic man-made fibres in this regard include regenerated
cellulose fibres such as viscose and modal or solvent-spun cellulosic fibres such
as lyocell. Lyocell fibres are particularly suitable as a replacement for cotton due
to their mechanical properties (such as high strength) and other properties (e.g.
moisture management, grip, etc.). Especially in terms of handfeel and softness, lyocell
fibres are regarded as superior to cotton. Lyocell fibres, however, have a high gloss
which is undesirable for certain applications or for fashion reasons.
[0004] It is known from the prior art (
WO 2010/144925 A1), that the gloss or sheen of lyocell fibres can be reduced by incorporating TiO
2 as a matting agent into the lyocell spinning mass. However, TiO
2 is very hard and abrasive, leading to high wear on the parts of the spinning apparatus.
To achieve strong matting effects, a large amount of TiO
2 needs to be incorporated in the fibres, thus, increasing the wear and reducing the
lifetime of the expensive equipment even further.
Disclosure of the invention
[0005] Therefore, the invention has the object of providing a lyocell fibre which has a
similar appearance to cotton, while retaining its mechanical strength and other properties,
such as handfeel, softness, etc., that can be produced cost-efficiently.
[0006] The invention achieves the stated object in that the matting agent may contain between
2 wt.- % and 5 wt.-% BaSO
4 and less than 1 wt.-% TiO
2, with respect to fibre weight, whereby the matting agent is incorporated in the fibre
matrix in the form of particulates.
[0007] By incorporating 2 to 5 wt.-% BaSO
4 particulates in the fibre matrix, the disadvantages of the prior art can be overcome.
[0008] Furthermore, the present invention also solves the stated object by using the inventive
fibre for the production of a textile fabric according to claim 6.
[0009] Even further, the present invention solves the stated object by providing a textile
fabric according to claim 8 and a textile artic according to claim 14.
[0010] Preferred embodiments of the invention are set out in the dependent claims.
Brief description of the drawings
[0011] The embodiment variants of the invention are described in more detail below with
reference to the drawings:
- Fig. 1a
- shows the results of visual evaluation of the matte property of fabrics according
to Example 1,
- Fig. 1b
- shows the results of visual evaluation of the matte property of fabrics according
to Example 2,
- Fig. 2a
- shows a CIE LCh-Plot of results of visual evaluation of the matte property of fabrics
according to Example 1 dyed with red reactive dye,
- Fig. 2b
- shows a CIE LCh-Plot of results of visual evaluation of the matte property of fabrics
according to Example 1 dyed with black reactive dye,
- Fig. 2c
- shows a CIE LCh-Plot of results of visual evaluation of the matte property of fabrics
according to Example 1 dyed with blue reactive dye,
- Fig. 2d
- shows a CIE LCh-Plot of results of visual evaluation of the matte property of fabrics
according to Example 1 directly dyed with blue dye,
- Fig. 2e
- shows a CIE LCh-Plot of results of visual evaluation of the matte property of fabrics
according to Example 1 directly dyed with green dye,
- Fig. 2f
- shows a CIE LCh-Plot of results of visual evaluation of the matte property of fabrics
according to Example 1 directly dyed with orange dye,
- Fig. 2g
- shows a CIE LCh-Plot of results of visual evaluation of the matte property of fabrics
according to Example 1 dyed with yellow VAT dye,
- Fig. 2h
- shows a CIE LCh-Plot of results of visual evaluation of the matte property of fabrics
according to Example 1 dyed with red VAT dye,
- Fig. 3a
- shows the results of reflection measurements of fabrics according to Example 1 at
60° angle,
- Fig. 3b
- shows the results of reflection measurements of fabrics according to Example 1 at
85° angle,
- Fig. 3c
- shows the results of reflection measurements of fabrics according to Example 2 at
60° angle,
- Fig. 3d
- shows the results of reflection measurements of fabrics according to Example 2 at
85° angle,
- Fig. 4a
- shows an SEM image depicting the fibre surface of matted lyocell fibres according
to the invention,
- Fig. 4b
- shows an SEM image depicting the fibre surface of matted lyocell fibres according
to the invention,
- Fig. 4c
- shows an SEM image depicting the fibre cross-section of a single matted lyocell fibres
according to the invention,
- Fig. 4d
- shows an SEM image depicting the fibre cross-sections of multiple matted lyocell fibres
according to the invention,
- Fig. 4e
- shows an SEM image depicting the fibre surface of standard lyocell fibres,
- Fig. 4f
- shows an SEM image depicting the fibre cross-sections of a cotton fibre, and
- Fig. 5
- shows a comparison of TSA spectra for undyed twill fabrics of matted lyocell fibres
according to the invention and comparative standard lyocell fibres and cotton fibres.
Ways of implementing the invention
[0012] According to a first embodiment of the invention, the matting agent comprises between
2 wt.-% and 5 wt.-% BaSO
4 and less than 1 wt.-% TiO
2, whereby the matting agent is incorporated in the fibre matrix in the form of particulates.
The wt.-%-values of BaSO
4 and TiO
2 are specified with respect to the fibre weight.
[0013] Due to the soft, non-abrasive mechanical properties of BaSO
4, the wear on all parts of the spinning device can be reduced, thus, increasing the
service life of the spinning device. Furthermore, it has been found, that a combination
of a low amount of TiO
2 (less than 1 wt.-%) and 2 to 5 wt.-% BaSO
4 leads to a strong matting effect in the fibres, which results in an appearance similar
to cotton. Even after dyeing the fibres, the matting effect still remains, rendering
the inventive fibres suitable for all kinds of textile applications, such as denim
fabrics and the like. While the desired matting effect can be achieved by the inventive
fibres, the softness and handfeel, known from textiles made from lyocell fibres, as
well as the mechanical properties remain essentially unchanged. Thus, a lyocell fibre
with matte appearance can be provided without sacrificing the mechanical fibre properties,
which can also be produced cost-efficiently.
[0014] In a preferred embodiment of the invention, the matting agent comprises between 3
wt. % and 5 wt.-% BaSO
4 and between 0.5 wt.-% and 0.9 wt.-% TiO
2, with respect to the fibre weight. By reducing the amount of TiO
2 to less than 0.9 wt.-%, the abrasive effect on the spinning machine parts can be
minimized, while providing a strong matting effect in combination with 3 to 5 wt.-%
BaSO
4.
[0015] In an even further preferred embodiment, the matting agent comprises between 3.5
wt.-% and 4.5 wt.-% BaSO
4, more preferably between 3.8 wt.-% and 4.2 wt.-% BaSO
4, and between 0.6 wt.-% and 0.8 wt.-% TiO
2, with respect to the fibre weight.
[0016] In a further embodiment the BaSO
4 particulates may have a particle size distribution defined by an x
50 lower than 1.5 µm and an x
99 lower than 4 µm.
[0017] In an even further embodiment the TiO
2 particulates may have a particle size distribution defined by an x
50 lower than 1 µm and an x
99 lower than 2 µm.
[0018] In the context of the present invention, the x
50-value represents the mean particle size of the particle size distribution, while
the x
99-value represents the particle size, where 99% of all particles are smaller than x
99.
[0019] The matting agent is added to the cellulose solution (i.e. the lyocell spinning mass)
prior to spinning of the fibres. Therefore, the matting agent is preferably added
to the spinning mass in the form of a suspension, where BaSO
4 and optionally TiO
2 particulates are dispersed in water beforehand with the help of a dispersion device.
By supplying the particulates in the form of above mentioned particle size distributions,
a very even distribution of the particulates in the spinning mass and subsequently
in the fibres is possible.
[0020] It has been found, that adding BaSO
4 particulates as specified above to the spinning mass resulted in a uniform distribution
of the particulates in the fibres, leading to lyocell fibres with strong mechanical
properties (e.g. high tenacity). The particulates thereby have been found to be predominately
arranged in the centre of the fibre core. A weakening of the fibre structure, increased
fibrillation or abrasive properties on the fibre surface could not be observed. Thus,
an improved matted lyocell fibre with high mechanical strength may be provided.
[0021] Advantageously the inventive lyocell fibres exhibit a titre from 1.1 dtex to 2.5
dtex, preferably from 1.3 dtex to 2.0 dtex.
[0022] Furthermore, the inventive lyocell fibres as described above may advantageously be
used for the manufacture of a textile fabric.
[0023] According to one embodiment of the invention, the manufacture of the fabric comprises
spinning a yarn using the lyocell fibre and dyeing at least a part of the yarn, more
particularly with an indigo dye.
[0024] When dyeing lyocell fibres or fabrics made thereof, in particular with indigo dyes
(indigo dyestuff), the natural shine of the fibres is further increased. Lyocell fibres
have a natural shine due to the intrinsic fibre properties (e.g., smooth cross-section).
The combination of lyocell fibres with brilliant colours (e.g., indigo, reactive,
direct, or other dye-colours) bring about a shiny fabric surface. As indigo lyocell
fabrics have more sheen than indigo cotton fabrics, a matte version of such lyocell
denim fabrics is sought after in the fashion industry.
[0025] In the present invention, the term "denim" refers to a category of fabrics, which
are not only characterized by the weave- or binding type but show a characteristic
combination of properties. While for traditional denim fabrics a twill weave was used,
other types of textile bindings (such as canvas or satin weave) have also become established
in the modern textile industry. However, all denim fabrics are characterized by a
robust woven fabric with dyed warp yarns and undyed weft yarns, whereby the warp is
surface dyed, but the core of the warp remains undyed, which results in fading characteristics
typical for denim. Due to the warp-faced weaving, denim is coloured on the outside
and white (i.e., undyed) on the inside. Thereby, preferably indigo dyes are used for
dyeing the warp.
[0026] A very common denim fabric is a woven fabric in which the warp contains indigo dyed
cotton yarn while the weft contains undyed cotton yarn. Variations in denim fabric
are however limitless e.g.: the weft yarn may contain dyed fibre (e.g., spun-dyed),
the indigo dyed warp yarn can be overdyed with sulphur dyes, etc.
[0027] Alternative denim fabrics are also limitless, such as knit fabrics (e.g., circular,
flat or seamless knits) containing indigo dyed cotton yarn. Alternative to cotton,
other cellulosic yarns (such as lyocell, modal, viscose, etc.) can also be used for
indigo dyeing. Denim fabrics have the ability to get wash-down/used look during garment
laundries (ozone, laser, etc) thanks to indigo and other dischargeable dyestuffs.
[0028] By using the inventive fibre for spinning a yarn and subsequently dyeing at least
part of the yarn, the advantages of the inventive fibre may be fully utilized. In
particular, it has been found that the inventive fibres provide a matte appearance
similar to cotton, even after dyeing. This is further demonstrated on behalf of several
examples below.
[0029] In one embodiment of the invention, the first and second yarn may be interweaved
to form a woven fabric, where the first yarn is a warp and the second yarn is a weft
or vice-versa.
[0030] In particular, the woven fabric may be a twill fabric, a canvas fabric, a statin
fabric or the like.
[0031] In a further embodiment, the woven fabric may be a 2/1 twill fabric with a basis
weight between 100 g/m
2 and 300 g/m
2, preferably between 150 g/m
2 and 250 g/m
2, more preferably between 175 g/m
2 and 225 g/m
2. The warp having between 20 and 60 ends/cm, preferably between 30 and 50 ends/cm,
more preferably between 32 and 48 ends/cm. The weft having between 10 and 35 picks/cm,
preferably between 15 and 30 picks/cm, more preferably between 18 and 28 picks/cm.
Such a twill fabric may show excellent opacity and matte properties in both undyed
and dyed state (using a wide variety of different dyes). Further, such fabric shows
a high smoothness and softness, comparable to standard lyocell fibres.
[0032] In a further embodiment, the second yarn also comprises lyocell fibres according
to any of claims 1 to 5. In an alternative embodiment, the second yarn can also comprise
cotton fibres or other cellulosic fibres, such as man-made cellulosic fibres, or synthetic
fibres, such as polyester, etc.
[0033] In a further embodiment, the fabric has a wrinkle recovery rate of 60 % or greater.
[0034] In a further embodiment, the textile fabric has an opacity of 0.75 or greater, more
preferably of 0.8 or greater.
[0035] In a preferred embodiment, the fabric is a denim fabric and the first yarn comprises
an indigo dye on its surface. Due to the matted effect of the inventive fibres, denim
fabrics made of said fibres have a solid matte effect, which can remain even after
dyeing the fabrics with indigo dyestuff Thus, the inventive fibre is perfectly suited
for the application in indigo textiles, such as denim.
[0036] In another preferred embodiment, the first and or second yarn are reactive dyed,
direct dyed or vat dyed. Besides dyeing with indigo dyestuff, the advantages of the
inventive fibres are also obtained when dyeing with reactive dyes, direct dyeing or
dyeing with vat dyes.
[0037] Such fabrics as described above may advantageously used in textile articles, such
as jeans, shirts, t-shirts, dresses, trousers, jackets, or the like.
Examples
[0038] In the following, the invention is further demonstrated on examples of textiles made
from the inventive lyocell fibres.
[0039] For the evaluation of the fibre properties, the textile fabrics are compared with
equivalent fabrics made from standard (unmatted) lyocell fibres and cotton fibres.
Example 1
[0040] In a first example a white undyed woven twill fabric was produced from a lyocell
(CLY) fibre containing approx. 4 wt.-% BaSO
4 and approx. 0.75 wt.-% TiO
2 as matting agent according to the present invention (furthermore referred to as "CLY
Matte twill fabric").
[0041] The BaSO
4 particulates exhibited a particle size distribution characterized by: x
10 = 0.42 µm, x
16 = 0.56 µm, x
50 = 1.09 µm, x
84 = 1.78 µm, x
90 = 2.05µm and x
99 = 3.46 µm. The TiO
2 particulates exhibited a particle size distribution characterized by: x
10 = 0.15 µm, x
16 = 0.18 µm, x
50 = 0.44 µm, x
84 = 0.93 µm, x
90 = 1.08µm and x
99 = 1.49 µm.
[0042] The lyocell fibre thereby had a titre of 1.7 dtex and a staple length of 38 mm.
[0043] Fabric construction was a 2/1 twill with a basis weight of approx. 200 g/m2, warp:
38 ends/cm, weft: 20 picks/cm. Yarn properties were approx. Ne 20 for warp and Ne
24 for weft.
[0044] For comparison, a standard lyocell fibre with a titre of 1.3 dtex and a staple length
of 38 mm was used to produce a 2/1 twill fabric with properties as defined above (referred
to as "CLY Std. twill fabric").
[0045] Furthermore, for comparison, a cotton 2/1 twill fabric with properties as defined
above was produced (referred to as "Cotton twill fabric").
Example 2
[0046] In a second example, a denim woven twill fabric was produced from a lyocell fibre
containing the same amounts and characteristics of matting agents as specified in
Example 1 (referred to as "CLY Matte denim fabric").
[0047] The lyocell fibre also had a titre of 1.7 dtex and a staple length of 38 mm.
[0048] Fabric construction was a 2/1 twill with a basis weight of approx. 200 g/m2, warp:
42 ends/cm, weft: 25 picks/cm. The warp has been indigo-dyed and the weft is left
undyed.
[0049] Again, for comparison, a standard lyocell fibre with a titre of 1.3 dtex and a staple
length of 38 mm and a cotton fibre were both used to produce denim fabrics (referred
to as "CLY Std. denim fabric" and "Cotton denim fabric") with properties as defined
above.
Matte Property - Visual Evaluation
[0050] First, the matte property of the fabrics of Examples 1 and 2 were evaluated visually
by conducting an internal survey and, second, by analysing the CIELCh colour space
(the CIELCh colour space is defined by the International Commission on Illumination).
[0051] In Fig. 1a the results of visual evaluation of fabrics according to Example 1 is
shown. On the left, the survey of the white cotton twill fabric is shown; in the centre,
the survey of the inventive white lyocell twill fabric with matting agent is shown
and on the right, the survey of the standard lyocell twill fabric is shown.
[0052] The white cotton twill fabric is perceived by 43 % of people as dull (1) and by 41
% of people as more or less dull (2). 0 % of people perceived the cotton twill fabric
as shiny (5).
[0053] The inventive matted lyocell twill fabric according to Example 1 is perceived by
43 % of people as neither dull nor shiny (3) and by 22 % of people as more or less
dull (3). 7 % perceived it as dull (1), while 10 % perceived it as shiny (5).
[0054] The standard lyocell twill fabric is perceived by 47 % of people as more or less
shiny (4) and by even 12 % as shiny (5). 0 % considered the standard lyocell fabric
as dull (1).
[0055] This survey clearly shows that the inventive fibre produces a solid matting effect
when used to manufacture a twill fabric. Although cotton is perceived as even more
dull, a significant improvement over standard lyocell fabrics can be discerned.
[0056] In Fig. 1b the results of visual evaluation of fabrics according to Example 2 is
shown. On the left, the survey of the cotton denim fabric is shown; in the centre,
the survey of the inventive lyocell denim fabric with matting agent is shown; on the
right, the survey of the standard lyocell denim fabric is shown.
[0057] Similar to what has been described above, a significant improvement in matting effect
of the inventive fibre can be discerned from the survey results. In the denim fabrics
according to Example 2, the effect is even more pronounced as for the white twill
fabric according to Example 1. While for the standard lyocell denim fabric, the shine
is increased due to the dyeing, the inventive matted lyocell fibre retains its dull
or matte effect even after dyeing with indigo, making the appearance overall more
similar to cotton.
Matte Property - CieLCh colour space
[0058] In the following, the matte properties of Example 1 and Example 2 fabrics are analysed
by means of CieLCh colour space. All measurements are performed using a D65 light
source under 10° angle.
[0059] The L
∗C
∗h colour space is preferred by some industry professionals because its system correlates
well with how the human eye perceives colour. It has the same diagram as the L
∗a
∗b
∗ colour space but uses cylindrical coordinates instead of rectangular coordinates.
[0060] In this colour space, L indicates lightness, C represents chroma, and h is the hue
angle. The value of chroma C is the distance from the lightness axis L and starts
at 0 in the centre. Hue angle starts at the +a axis and is expressed in degrees (e.g.,
0° is +a, or red, and 90° is +b, or yellow).
[0061] The L-axis describes the lightness (luminance) of the colour. Positive L means that
product has lighter colour. Negative L means that product has darker colour.
[0062] The C-axis describes the chroma of a colour. Higher values mean brighter colour and
lower value means duller colour.
[0063] The h-axis describes the wrinkle hue.
[0064] In Table 1, the CieLCh-Values for inventive lyocell matte, lyocell std. and cotton
denim fabrics according to Example 2 are presented. The values are represented as
Δ-values with respect to the lyocell std. values as a reference. From said Δ-values,
changes in the parameters can be easily discerned.
Table 1: CieLCh-Values for Example 2 denim fabrics
Fabric type |
CIE L |
CIE a |
CIE b |
CIE C |
CIE h |
CIE Y |
CLY Std. denim |
26.91 |
0.55 |
-7.54 |
7.56 |
274.19 |
5.06 |
Cotton denim |
23.63 |
0.39 |
-4.75 |
4.76 |
274.25 |
9.37 |
CLY Matte denim |
29.19 |
-0.19 |
-7.03 |
7.03 |
273,46 |
7.52 |
[0065] From Table 1, it becomes obvious, that the lyocell matte denim fabric according to
the present invention has less chroma (ΔC = -0.53), thus is duller, than the denim
fabric from standard lyocell fibres.
[0066] For further evaluation, the white twill fabrics according to Example 1 were dyed
with either red, black and blue reactive dyestuffs, blue, green and orange direct
dyes or yellow and red vat dyes at same dyeing conditions but at separate dyebaths,
so that fibre property was the only differing parameter. Table 2 shows CieLCh values
of lyocell matte, lyocell standard and cotton fabrics, respectively for the different
dyes. Higher L-values of inventive lyocell matte fabric for almost all dyes/colours
than for lyocell standard fabric proves less lightness/shininess of matte lyocell
compared to standard lyocell. Dyed cotton fabric was found to have least lightness/shininess
compared to matte lyocell and standard lyocell.
[0067] Figures 2a-2c show the CIE LCh-Plots for reactive dyed textiles; Figures 2d-2f show
the CIE LCh-Plots for direct dyed textiles; and Figures 2g-2h show the CIE LCh-Plots
for VAT dyed textiles, respectively.
Table 2: CieLCh-Values for Example 1 twill fabrics dyed with different dyes (reactive
dyes, direct dyes or VAT dyes)
Dye / Fabric type |
CIE L |
CIE a |
CIE b |
CIE C |
CIE h |
CIE Y |
Red reactive dye |
|
|
|
|
|
|
CLY Std. twill |
45.08 |
55.55 |
35.35 |
65.85 |
32.47 |
14.60 |
Cotton twill |
48.66 |
55.02 |
31.33 |
63.33 |
29.30 |
20.00 |
CLY Matte twill |
46.81 |
57.33 |
35.07 |
67.22 |
31.29 |
17.10 |
Black reactive dye |
|
|
|
|
|
|
CLY Std. twill |
14.53 |
0.35 |
-0.41 |
0.54 |
310.62 |
1.82 |
Cotton twill |
15.83 |
0.24 |
-1.51 |
1.53 |
310.13 |
3.52 |
CLY Matte twill |
15.79 |
0.17 |
-1.47 |
1.48 |
310.10 |
3.47 |
Blue reactive dye |
|
|
|
|
|
|
CLY Std. twill |
33.37 |
-0.66 |
-41.20 |
41.20 |
269.08 |
7.71 |
Cotton twill |
37.25 |
-3.28 |
-41.25 |
41.38 |
266.47 |
12.39 |
CLY Matte twill |
34.37 |
0.67 |
-42.25 |
42.25 |
267.67 |
9.68 |
Blue direct dye |
|
|
|
|
|
|
CLY Std. twill |
53.45 |
-29.49 |
-33.25 |
44.44 |
228.43 |
21.46 |
Cotton twill |
55.81 |
-29.75 |
-34.90 |
45.86 |
229.32 |
24.35 |
CLY Matte twill |
53.04 |
-29.94 |
-33.08 |
44.60 |
227.99 |
22.09 |
Green direct dye |
|
|
|
|
|
|
CLY Std. twill |
47.17 |
-44.10 |
17.31 |
47.37 |
158.57 |
16.15 |
Cotton twill |
49.16 |
-45.79 |
17.01 |
47.84 |
159.45 |
18.40 |
CLY Matte twill |
46.26 |
-46.43 |
15.83 |
49.05 |
160.76 |
19.06 |
Orange direct dye |
|
|
|
|
|
|
CLY Std. twill |
56.57 |
44.69 |
57.36 |
72.71 |
52.08 |
24.48 |
Cotton twill |
58.48 |
46.03 |
60.97 |
76.39 |
53.21 |
28.78 |
CLY Matte twill |
58.00 |
45.78 |
66.26 |
80.53 |
56.46 |
33.56 |
Yellow VAT dye |
|
|
|
|
|
|
CLY Std. twill |
81.38 |
4.65 |
87.48 |
87.61 |
86.96 |
59.16 |
Cotton twill |
83.55 |
1.95 |
88.03 |
88.06 |
89.68 |
62.67 |
CLY Matte twill |
83.09 |
0.88 |
87.80 |
87.81 |
90.74 |
63.31 |
Red VAT dye |
|
|
|
|
|
|
CLY Std. twill |
37.84 |
45.87 |
7.63 |
46.50 |
9.44 |
10.00 |
Cotton twill |
38.11 |
46.12 |
6.57 |
46.59 |
8.36 |
11.12 |
CLY Matte twill |
40.28 |
47.68 |
2.60 |
47.75 |
4.25 |
15.87 |
Reflection Measurements
[0068] Figures 3a-3d show the determination of the gloss value of fabrics according to Examples
1 and 2 at 60° and 85°, respectively. The gloss value was determined according to
DIN EN ISO 2813:2015-02 by means of a reflectometer REFO 3-D of Dr. Lange Company.
[0069] The test was carried out on the sample on the right side of the goods (marked by
the weaver). 10 measurements per angle setting were carried out on the sample material
on a non-reflective background (black spectrometer paper). The measurements were made
longitudinally, diagonally and transversely to the warp/weft direction of the material.
The sample was air-conditioned at 20 °C, 65 % relative humidity for at least 24 h
prior to the measurements
[0070] The higher the value given in Figures 3a-3d, the stronger the shine.
[0071] As can be clearly seen from Figs. 3a and 3b, white twill fabrics according to Example
1 made of the inventive lyocell matte fibres and from cotton fibres show very similar
reflection values, whereas values for fabrics made of lyocell standard fibres are
significantly higher, hence they have a stronger shine.
[0072] A similar observation can be made for denim fabrics according to Example 2 as depicted
in Figs. 3c and 3d. In all cases, reflection values of fabrics made of the inventive
lyocell matte fibres and of cotton fibres are lower than for fabrics made of lyocell
standard fibres, which again indicates a stronger shine.
Opacity property of the invention
[0073] Furthermore, the opacity of fabrics using the lyocell fibre containing matting agents
according to the present invention is analysed.
[0074] Opacity in the context of the present invention refers to the opacity or opaqueness
of the investigated textiles. The opacity is indicated as a unitless number between
0 and 1 (or 0% and 100%), whereby perfect transparency is present at 0, which decreases
with increasing value. At 1, the respective material is completely opaque.
[0075] In all measurements, opacity has been determined at a wavelength of 570 nm with a
Konica Minolta CM600d spectrophotometer (Q425F168, Inv. No. 71559) including accessory
set for calibration. Enclosed computer (laptop) with SpectramagicNX software was used
for evaluation. Measurements have been calibrated using TQC-Test (Chart Art. No. VF2345
Batch No. 227270) and Green tile CM-A101GN.
[0076] Opactiy values were determined with the above setup following NWSP060.4.R0.20 (defined
for measuring opacity of nonwovens).
[0077] In Table 3, the measured opacity-values for undyed twill fabrics according to Example
1, as described above, are shown. Therein it can be discerned, that the twill fabric
made from the inventive lyocell matte fibres has the highest opacity, similar to the
twill fabric made from cotton. Both have a significantly higher opacity than the fabric
made from lyocell std. fibres.
Table 3: Opacity-values for undyed twill fabrics according to Example 1
Fabric type |
Opacity |
CLY Std. twill |
0.74 ± 0.01 |
Cotton twill |
0.81 ± 0.01 |
CLY Matte twill |
0.83 ± 0.01 |
[0078] Furthermore, in Table 4, the measured opacity-values for single knit jersey fabrics
(Ne 20/1 ring spun, 110 gsm) made from the lyocell matte fibre according to the invention
and from lyocell standard fibre are shown, whereby the fabrics have been dyed with
different dyes.
[0079] Dyeing of the fabrics was performed at different dye baths using the same recipes
so that there is no difference between fibres regarding dye uptake.
[0080] As can be discerned from Table 4, coloured jersey knit fabrics from lyocell matte
fibres show consistently higher opacity values than similar jersey knit fabrics made
from lyocell standard fibres.
Table 4: Opacity-values for dyed jersey knit fabrics
Dye / Fabric type |
Opacity |
Yellow color (Novacron Yellow FN-2R) |
|
CLY Std. knit |
0.58 ± 0.01 |
CLY Matte knit |
0.72 ± 0.01 |
Orange color (Novacron Orange FN-R) |
|
CLY Std. knit |
0.76 ± 0.01 |
CLY Matte knit |
0.82 ± 0.01 |
Red color (Novacron Brilliant red FN-3GL) |
|
CLY Std. knit |
0.83 ± 0.01 |
CLY Matte knit |
0.86 ± 0.01 |
Blue color (Novacron Brilliant Blue FN-G) |
|
CLY Std. knit |
0.81 ± 0.01 |
CLY Matte knit |
0.90 ± 0.01 |
Blue Color (Novacron Marine F-G) |
|
CLY Std. knit |
0.76 ± 0.01 |
CLY Matte knit |
0.89 ± 0.01 |
Fibre smoothness
[0081] In Figs. 4a - 4d, SEM (scanning electron microscopy) images of the surface (Fig.
4a, 4b) and cross-section (Fig. 4c, 4d) of the lyocell matte fibres according to the
present invention are depicted.
[0082] In Fig. 4e an SEM image of the surface of lyocell standard fibres is shown, and in
Fig. 4e, the cross-section of a cotton fibre is depicted.
[0083] The SEM images clearly show that the fibre surface is smooth without any visible
defects caused by the incorporation of matting agents. This can also be discerned
from the cross-section images, which show a smooth regular shape and cross-section
without visible defects, as would be expected from lyocell fibres. Thus, the matting
agent is finely dispersed in the fibre matrix and does not form agglomerations or
the like.
Mechanical properties (strength, elongation)
[0084] Further, tensile strength and elongation of the lyocell matte fibres according to
the invention and comparative lyocell standard fibres were tested according to the
BISFA standard ("Testing methods for viscose staple fibers).
[0085] Strength- and elongation values of the fibres are shown in Table 5. Thereby it can
be discerned, that lyocell matte fibres have fibre strength and elongation similar
to lyocell standard fibres without matting agents. Only a 6 % decrease in fibre strength
can be observed.
Table 5: Fibre strength and elongation values
Fibre type |
Fibre strength (cN/tex) |
Fibre elongation (%) |
CLY Std. fibre |
34.8 ± 0.5 |
12.7 ± 0.5 |
CLY Matte fibre |
32.6 ± 0.6 |
11.0 ± 0.5 |
[0086] Furthermore, the strength and elongation of yarns made from lyocell matte fibres
according to the present invention and comparative lyocell standard and cotton fibres
is evaluated. Yarn configurations for all fibres were: Ne 20 (Nm 34, 300 dtex), 661T/m.
Strength- and elongation-values are given in Table 6, respectively.
Table 6: Yarn strength and elongation values
Yarn type |
Yarn strength (cN/tex) |
Yarn elongation (%) |
CLY Std. yarn |
28.1 ± 0.5 |
6.9 ± 0.5 |
Cotton yarn |
15.8 ± 0.5 |
6.3 ± 0.5 |
CLY Matte yarn |
16.4 ± 0.5 |
10.0 ± 0.5 |
[0087] From the values it can be clearly discerned, that yarn strength and elongation of
the lyocell fibres containing matting agents still remain high and exceed that of
cotton.
Fabric Softness
[0088] Softness and surface properties (roughness/smoothness) of undyed woven twill fabrics
(Ne 20/1, 110 gsm) using the lyocell matte fibre (CLY Matte) according to the present
invention and comparative fabric using standard lyocell fibre (CLY Std.) and cotton
fibre were measured by a Tissue Softness Analyzer (TSA type B0458) device manufactured
by Emtec Electronic (Germany). The analysis of fabrics by use of TSA is well known
to the skilled person (see e.g.:
Abu-Rous et al., J Fashion Technol Textile Eng 2018, S4).
[0089] The rotating part of the TSA generates noise while moving over the fabric surface,
which is captured by a microphone and analysed into its amplitude signals. In the
resulting sonic spectrum, the signal peak (in dB V
2 rms) at 750 Hz (TS750) is a measure for the fabric vibration under the rotating part
and should correlate with fabric smoothness, while the peak at 6500 Hz (TS7) occurs
through the vibration on the rotating part itself while moving above the fabric surface
and is considered a measure for the softness of surface fibres. The lower the generated
noise, the smoother resp. softer is the fabric (higher TS750 peak means higher roughness,
lower TS7 peak means higher softness).
[0090] Fig. 5 shows measured TSA spectra of the undyed woven twill fabrics for Cotton, CLY
Std. and inventive CLY Matte fibres. The results extracted from the spectra are also
summarised in Table 8. Higher TS750 and TS7 peaks correspond to lower smoothness and
lower softness, respectively. From both Fig. 5 and Table 8 it can be clearly discerned,
that the twill fabrics made of matte lyocell fibres according to the present invention
show very similar (high) smoothness and softness as standard lyocell fibres without
matting agent. Twill fabrics made from cotton fibres on the other hand show increased
roughness and reduced softness.
[0091] Thus, it is demonstrated, that the inventive lyocell fibres comprising the matting
agent according to the claims can maintain the high softness and smoothness as usually
expected for lyocell fibres.
Table 8: Tissue Softness Analyser Test (TSA) results for undyed woven twill fabrics
Fabric type |
TS7 |
TS750 |
D (mm/N) |
CLY Std. twill |
13.325 ± 0.4 |
32.592 ± 2.9 |
1.76 ± 0.03 |
Cotton twill |
18.915 ± 1.6 |
73.543 ± 6.4 |
1.41 ± 0.05 |
CLY Matte twill |
11.651 ± 1.2 |
34.874 ± 2.5 |
1.42 ± 0.02 |
1. Lyocell fibre comprising a matting agent, characterized in that the matting agent comprises between 2 wt.-% and 5 wt.-% BaSO4 and less than 1 wt.-% TiO2, with respect to fibre weight, whereby the matting agent is incorporated in the fibre
matrix in the form of particulates.
2. Lyocell fibre according to claim 1, characterized in that the matting agent comprises between 3 wt.-% and 5 wt.-% BaSO4 and between 0.5 wt.-% and 0.9 wt.-% TiO2, with respect to fibre weight.
3. Lyocell fibre according to claim 1 or 2, characterized in that the BaSO4 particulates having a particle size distribution defined by an x50 lower than 1,5 µm and an x99 lower than 4 µm.
4. Lyocell fibre according to any of claims 1 to 3, characterized in that the TiO2 particulates having a particle size distribution defined by an x50 lower than 1 µm and an x99 lower than 2 µm.
5. Lyocell fibre according to any of claims 1 to 4, characterized in that the fibre exhibits a titre from 1.1 dtex to 2.5 dtex, preferably from 1.3 dtex to
2.0 dtex.
6. Use of a lyocell fibre according to any of claims 1 to 5 for the manufacture of a
textile fabric.
7. Use according to claim 6, characterized in that the manufacture of the fabric comprises spinning a yarn using the lyocell fibre and
dyeing at least a part of the yarn, more particularly with an indigo dye.
8. Textile fabric, having at least a first yarn comprising lyocell fibres according to
any of claims 1 to 5 and a second yarn, whereby the first and second yarn are interweaved
to form the textile fabric.
9. Textile fabric according to claim 8, characterized in that the second yarn comprises lyocell fibres according to any of claims 1 to 5.
10. Textile fabric according to claim 8 or 9, characterized in that the fabric has a wrinkle recovery rate of 60 % or greater.
11. Textile fabric according to any of claims 8 to 10, characterized in that the fabric has an opacity of 0.75 or greater, more preferably of 0.8 or greater.
12. Textile fabric according to any of claims 8 to 11, characterized in that the fabric is a denim fabric and the first yarn comprises an indigo dye on its surface.
13. Textile fabric according to any of claims 8 to 11, characterized in that the first and or second yarn are reactive dyed, direct dyed or vat dyed.
14. Textile article comprising a textile fabric according to any of claims 8 to 12.