UniqUe ideas. UniqUe solUtions. - CHT Gruppefile/Flyer_Bezaktiv_COSMOS_en.pdf · Required amount of...
Transcript of UniqUe ideas. UniqUe solUtions. - CHT Gruppefile/Flyer_Bezaktiv_COSMOS_en.pdf · Required amount of...
UniqUe ideas. UniqUe solUtions.
BezaKTIV CosmosDive into unimagined colour depths
eXTReme CoLoUR INTeNsITY eCoNomY Is UNIVeRsaL
The dimensions of the universe are almost inconceivable. stars, galaxies and black holes fascinate us and push our power of imagination to the limits. BezaKTIV Cosmos explores new worlds, where no-one has gone before. a new dimension of economical dyeing in dark shades opens up in front of your very eyes.
> Ultimate intensity
achieve an astounding colour depth in everyday applications with minimum dye quantities. even colour depths which have not been attainable for a long time with standard dyes can be achieved with BezaKTIV Cosmos. The illustrated inten-sive colours are already possible with a total dye concentration of 2 percent.
> the Darker, the more intensive
modern reactive dyes with several reactive anchors achieve fixing levels of 80 percent and higher for light to medium shades. If the colours are deepened further for dark shades, however, the fixing level drops dra-matically with standard dyes, and the dye quantity increases exponentially. Highest
fixing levels are achieved with BezaKTIV Cosmos, even with very dark colours. The illustration clearly shows this correlation. With light to medium shades around four times more C.I. Reactive Red 195 are needed to achieve the same colour depth as with BezaKTIV Cosmos Red s-C3). For dark shades the ratio is even more favourable with BezaKTIV Cosmos Red s-C3).
Considerably higher quantities of C.I. Reactive Red 195 in comparison to BezaKTIV Cosmos Red s-C3) for the same colour depth
standard depth
Mu
ch
hig
he
r q
ua
nti
tie
s
0.25 0.5 0.75 1 1.25 1.5 1.75
10
9
8
7
6
5
4
3
2
1
0
3) This offer is not valid in Japan.
Required amount of BeZaKtiV CosMos
seT NeW LImITs
While standard dyes quickly reach a limit at which the colour depth cannot be increased by adding more dye, the BezaKTIV Cosmos build-up just goes on.
> economy or ecology?
The awareness of responsibility for our planet and future generations motivates us to plan sustainably and ecologically. ecological solutions can, however, only win through if the economic calculations are right. With BezaKTIV Cosmos no compromises are necessary. The economy of working with a small amount of dye is obvious. Not only the dye quantity is much lower, but also the re-quired amounts of electrolytes and alkalis. In exhaust dyeing applications the salt and alkali quantities depend on the dye concen-tration used. a considerably lower dye con-
Commodity quantities
10.66 % not achievable not achievable not achievable
1.5 % 3.0 % 4.5 % 6.0 %
centration with BezaKTIV Cosmos there-fore means considerably lower salt and alkali quantities. This not only eases your cost cal-culation, but lowers your waste water freights.
With BezaKTIV Cosmos you can reconcile your economic needs with your environmen-tal conscience.
example: illustrated red-brown shade250 kg batch with a liquor ratio of 1:10
BezaKTIV Cosmos Commodities
10.66 % commodities
1.5 % BezaKTIV Cosmos
Colour of waste water from the dye liquor and four rinsing baths of the above-illustrated dyeing process with a liquor ratio of 1:10.
a 0.125 % BezaKTIV Cosmos orange s-C2)
1.250 % BezaKTIV Cosmos Red s-C3)
0.125 % BezaKTIV Cosmos Navy s-C
B 3.00 % C.I. Reactive Yellow 145 7.20 % C.I. Reactive Red 195 0.46 % C.I. Reactive Blue 194
> clean waste water
Dye houses are already threatened by clo-sure today because their waste water is too heavily polluted with electrolytes and dye hydrolysates. When dyeing with BezaKTIV Cosmos, highest fixing levels are possible, even with dark shades, which means a tre-mendous reduction in the amount of dye hy-drolysates in waste water. The colour and CoD values of the waste water are lowered considerably. as a result after-treatment of the residual liquors at the works is often not necessary.
a B
BeTWeeN KNoWLeDge aND ReasoN
quantities Total dye salt soda ashBezaKTIV Cosmos 3.75 kg 100 kg 37.5 kgCommodities 26.65 kg 225 kg 62.5 kg
Waste water Dye hydrolysate electrolyteBezaKTIV Cosmos 0.39 kg 137.5 kgCommodities 17.5 kg 287.5 kg
In comparison to other commercially available products, BezaKTIV Cosmos requires con-siderably lower quantities of dye, salt and sodi-um carbonate.as a positive effect the waste water values for electrolytes are cut by half, and the dye hydroli-zate values even by 45 times.as a result BezaKTIV Cosmos is kind to the environment and also your budget.
2) This offer is not valid in the following countries: australia, Belgium, Canada, China, France, germany, great Britain, Hong Kong, Indonesia, Italy, Japan, Liechtenstein, Netherlands, New zealand, Portugal, spain, switzerland, Taiwan, Usa.
3) This offer is not valid in Japan.
the new dimension of economy and ecology
economy ecologyUnsurpassed colour depth with minimum dye quantities +++ ++Lower salt and alkali requirements +++ ++Less water consumption due to fewer rinsing baths ++ +++Higher productivity due to fewer rinsing baths ++ oLess water pollution with hydrolysate and electrolytes + +++metal-free o +++
+++ extremely relevant ++ very relevant + moderately relevant o irrelevant
DYeINg meTHoDs
BezaKTIV Cosmos dyes are universal-application reactive dyes and can be used in exhaust, semi-continuous and continuous dye processes. BezaKTIV Cosmos dyes can be combined with BezaKTIV V and BezaKTIV s dyes.
> exhaUst process for BeZaktiv cosmos
The optimal dyeing temperature is 60 °C. BezaKTIV Cosmos dyes can be used both on exhaust machines (jet, overflow) and also on exhaust apparatus (cross-pack-age or warp beam dyeing apparatus, beam dyeing apparatus). The recommended auxiliaries and the correct application amounts are listed in the process descrip-tions. The application amounts of salt and alkali depend on the fabric, the amount of dyes and the liquor ratio.
A1.0 – 2.0 g/l saraBiD lDr / mip
1.0 – 2.0 g/l Biavin Bpa
10.0 – 90.0 g/l common salt or glauber’s salt
B x % BeZaktiv cosmos dye
C5.0 – 10.0 g/l sodium carbonate
0 – 3.5 ml/l caustic soda solution 38 °Bé (add progressively within 45 min)
D 0.5 ml/l acetic acid 80 %
E 1.0 g/l cotoBlanc sel, ph 7 – 8 during soaping
temperature step process Process which is mainly used for dyeing on machines without a suitable dosing device. To prevent unlevelness the alkali should be added in portions. Furthermore this process can be used to improve the tone-in-tone dyeing of cotton/viscose blends.
A
1.0 – 2.0 g/l saraBiD lDr / mip
1.0 – 2.0 g/l Biavin Bpa
10.0 – 90.0 g/l common salt or glauber’s salt
5.0 – 10.0 g/l sodium carbonate
x ml/l caustic soda solution 38 °Bé (add 20 % of the total quantity)
B y % BeZaktiv cosmos dye
C z ml/l caustic soda solution 38 °Bé (add 80 % of the total quantity)
D 0.5 ml/l acetic acid 80 %
E 1.0 g/l cotoBlanc sel, ph 7 – 8 during soaping
A B
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20 40 60 80 100 120 140 160 180 200 220
time in minutes
tem
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C 45 – 60 minutes
E
D
isothermal processUniversal procedure to obtain excellent reproducibility and levelness. If the dosage is monitored, sodium carbonate and caustic soda can be added simultaneously. With progressive alkali dosing a steady increasing fixing curve and therefore the best possible levelness is reached. In addition, premature hydrolysis of the dye is prevented. This means the highest possible colour yield.
0
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20 40 60 80 100 120 140 160 180 200 220
time in minutes
tem
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A B C 45 – 60 minutes
E
D
A1.0 – 2.0 g/l saraBiD lDr
1.0 – 2.0 g/l Biavin Bpa
10.0 – 90.0 g/l common salt or glauber’s salt
B x % BeZaktiv cosmos dye
C5.0 – 10.0 g/l sodium carbonate
0 – 3.5 ml/l caustic soda solution 38 °Bé (add progressively within 45 min) or 0 – 7.0 ml/l egasol as new
D 0.5 ml/l acetic acid 80 %
E 1.0 g/l cotoBlanc sel, ph 7 – 8 during soaping
salt- and alkali requirement for BeZaKtiV CosMos dyes
For unmercerised cotton in liquor ratio 1:8 – 1:12
alkali mixture only soda ash
% dyestuff salt g/l soda ash g/lcaustic soda
solution 38 °Bé ml/lsoda ash g/l
< 0.1 % 10 5 – 5
0.1 – 0.5 % 20 10 – 10
0.5 – 1.0 % 30 5 1.0 15
1.0 – 2.0 % 40 5 1.5 15
2.0 – 4.0 % 60 5 2.0 20
4.0 – 6.0 % 80 5 3.0 25
> 6.0 % 90 5 3.5 25
For mercerised cotton and viscose in liquor ratio 1:8 – 1:12
alkali mixture only soda ash
% dyestuff salt g/l soda ash g/lcaustic soda
solution 38 °Bé ml/lsoda ash g/l
< 0.1 % 10 5 – 5
0.1 – 0.5 % 15 7.5 – 7.5
0.5 – 1.0 % 20 5 0.8 10
1.0 – 2.0 % 30 5 1.1 15
2.0 – 4.0 % 40 5 1.5 15
4.0 – 6.0 % 60 5 2.0 20
> 6.0 % 70 5 2.0 25
liquor ratio Factor
Conversion factors to determine the alkali requirements depending on the liquor ratio
1:51:101:151:20
1.301.000.800.65
liquor ratio Factor
Conversion factors to determine the salt requirements depending on the liquor ratio
1:51:101:151:20
– 10 g/l salt– standard
+ 10 g/l salt+ 20 g/l salt
Migration step process 80/60 °CProcess for critical articles with which level dyeing is difficult. excellent dye penetration and levelness, especially on dense yarn packages or cross-bobbins. With difficult medium colours, salt dosing is also possible after the dye has been added.
B
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time in minutes
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45 – 60 minutes
g/l BeZaktiv cosmos dye
ml/
l cau
stic
so
da
solu
tio
n 32
.5 %
(38
°B
é)
40
35
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25
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0 20 30 40 50 60 70 80 90 100
alkali concentration for the reduced sodium silicate process:
technical application notes for dyeing according to the CPB process
> semi-continUoUs process
Woven and knitted fabric made of cellulose or regenerated cellulose can be dyed very economically with the cold pad batch (CPB) process with BezaKTIV Cosmos dyes. When BezaKTIV Cosmos dyes are combined with BezaKTIV V or s it should be ensured that dyes with the same dyeing properties such as fibre affinity, liquor stability and fixing speed should be used. This information is given in the respective tables. To prevent tailing during padding, a high liquor exchange should be ensured. With lightweight fabrics dyeing should be per-formed with a low trough level and a high running speed. a low liquor stability can result in tailing. To ensure a high liquor stability it is highly recommended that the temperature of the padding liquor is not higher than 25 °C. Dye and alkali solution with a 4:1 ratio are combined just before the padder with a mixing pump or doser and added to the dye trough. The application amounts of dye, auxiliaries and fixing alkalis are based on the overall volume of the padding liquor. It is important that the fabrics have been cooled properly before padding to ensure reproducibility. If the fabric tempera-ture is too high, the liquor stability is lowered which results in a change of colour or its depth. a constant production speed should generally be ensured. Different speeds influence the liquor pick-up and result in tailing. During dyeing the fabric is rolled with a straight line fabric. In order to ensure optimum fixation of the dye, the dyed goods must be packed with an air-tight plastic film and left for a certain time at room tempera-ture. Packing the goods with an airtight package prevents carbon dioxide from the air partially neutralizing the fixing alkali. When dyeing with several dyes the dwelling time of the dye with the longest dwelling time should be taken.
Cold pad batch process with reduced sodium silicate quantityThe reduced silicate version is the standard version and has a high pad liquor stability in the temperature range of 20 – 30 °C. The application amount of sodium silicate 38 °Bé is generally 50 ml/l. addition of the dye with the fixing alkali is performed with a mixing pump with a ratio of 4:1. silicate de-posits can occur on the rollers if silicate is used. Furthermore the use of sodium silicate during the soaping process requires an in-tensive washing process before neutraliza-tion to prevent silicate precipitation.
Dye solution: x g/l BezaKTIV Cosmos dye 0 – 100 g/l Urea 1 – 3 g/l CoLoRCoNTIN saN/mCD
alkali solution: 50 ml/l sodium silicate 38 °Bé y ml/l Caustic soda solution
32.5 % (38 °Bé)
mixing ratio: The stated quantities g/l of dye, ml/l of sodi-um silicate and ml/l of caustic soda solution 32.5 % (38 °Bé) are based on the total vol-ume of the padding liquor. Dye and alkali solution are combined with a mixing pump with a normal mixing ratio of 4:1 and form the total padding liquor volume.
Padding liquor temperature:20 – 25 °C
Dwelling time:6 – 24 hours, up to 40 hours no colour loss-es or shifts in shade occur.
Dye designationfibre
affinityliquor
stabilityfixation speed
minimum fixing time
BeZaktiv cosmos yellow s-c medium low fast 8 hours
BeZaktiv cosmos golden yellow s-c1) *) medium low fast 6 hours
BeZaktiv cosmos orange s-c2) medium medium fast 6 hours
BeZaktiv cosmos red s-c3) medium high fast 6 hours
BeZaktiv cosmos Blue s-c medium low fast 6 hours
BeZaktiv cosmos navy s-c high medium fast 6 hours
*) not suitable/recommended for cpB
table information: The given dye specifications were deter-mined with use of the reduced sodium silicate method (50 ml/l) and caustic soda solution 38 °Bé with a dye application amount of 30 g/l at a padding temperature of 25 °C and a dwelling temperature of 25 °C.
1) This offer is not valid in mexico.2) This offer is not valid in the following countries: australia, Belgium, Canada, China, France, germany, great Britain,
Hong Kong, Indonesia, Italy, Japan, Liechtenstein, Netherlands, New zealand, Portugal, spain, switzerland, Taiwan, Usa.3) This offer is not valid in Japan.
Fibre affinity:The fibre affinity was determined by adding alkali and characterises the specific exhaus-tion properties of a dye. To counter tailing problems, the use of dyes with the same fibre affinity is advantageous.
Padding liquor stability:The padding liquor stability is given in minutes. a period of time for hydrolysis of 10 % of the employed dye is determined. This theoretical value cannot be implemented directly in practice, as the dye and alkali solution are constantly added to the trough. For this reason the actual value of the liquor replacement in the trough should not exceed three minutes. The values of the BezaKTIV Cosmos dyes were determined at a temperature of 25 °C and with the use of the reduced sodium silicate variant. a higher temperature and different alkali systems influence the liquor stability.
The BezaKTIV dyes are categorised as follows:Low < 10 minutesmedium 10 – 20 minutesHigh > 20 minutes
Fixation speed:The speed of fixation depends greatly on the dwelling temperature. a regular temperature of the dyed fabric, liquor and environment is a requirement for regular fixation. The stated values of the BezaKTIV Cosmos dyes are based on an ambient temperature of 25 °C during dwelling. If the ambient temperature is lower, the dye is fixed more slowly. For this reason it is necessary to adapt the dwelling time accordingly.
slow > 16 hoursmedium 8 – 16 hoursFast < 8 hours
> continUoUs Dyeing process
Pad dry pad steam processThe pad dry pad steam process is the classic continuous process for dyeing woven fabrics. It is primarily used for cellulose articles with a high yardage. This process is characterised by a high productivity, a good fabric appearance as well as a good colour yield. The use of a dosing pump is not necessary with this process.
Dye pad: x g/l BezaKTIV Cosmos dye 1.0 – 3.0 g/l CoLoRCoNTIN saN/mCD 1.0 – 5.0 g/l meRoPaN XR gRaNULaTe 5.0 – 10.0 g/l mIgRasoL saP
Pick up: 60 – 80 %
Padding temperature: 20 – 30 °C
Pre-drying to a residual moisture content of 30 – 35 % in the IR zone
Drying: 110 – 120 °C
Padding of chemicals: 250 g/l Common salt 20 g/l sodium carbonate7.5 – 15 g/l Caustic soda solution 38 °Bé
Pick up: 80 – 100 %
Padding temperature: 20 – 30 °C
Fixation: steaming with 102 °C saturated steam for 60 – 90 seconds.
alkali requirements
Dye g/l < 20 20 – 40 > 40
caustic soda solution 38 °Bé ml/l 7.5 10 15
Remarks:Regular pre-drying is necessary to ensure optimum reproducibility and a level fabric appearance.
Pad dry thermofix processThe pad dry thermofix process is a single-bath and salt-free continuous process. Particularly suitable for light to medium shades. a lower light fastness level is achieved than with the pad dry pad steam process. No dosing pump is required for this process. Fixation is performed with hot air. sodium bicarbonate is recommended as a fixing alkali, because of higher liquor stability than sodium carbonate.
Dye pad: x g/l BezaKTIV Cosmos dye 1.0 – 3.0 g/l CoLoRCoNTIN saN/mCs 1.0 – 5.0 g/l meRoPaN XR gRaNULaTe 5.0 – 10.0 g/l mIgRasoL saP 0 – 150 g/l Urea x g/l sodium bicarbonate
Pick up: 60 – 80 %
Padding temperature: 20 – 30 °C
Pre-drying to a residual moisture content of 30 – 35 % in the IR zone
Drying: 110 – 120 °C
Thermofixation: 60 – 180 seconds at 150 °C
alkali requirements (sodium bicarbonate)
Dye g/l 5 10 20 30 > 30
sodium bicarbonate g/l 10 15 20 25 30
Remarks:Regular pre-drying is necessary to ensure optimum reproducibility and a level fabric appearance. The dyes should be preselected due to the specific conditions during thermofixation.
0.17 % 1.0 %
BEzaktiv COSMOS Yellow S-C
BEzaktiv COSMOS Golden Yellow S-C1)
BEzaktiv COSMOS Orange S-C2)
BEzaktiv COSMOS Red S-C3)
BEzaktiv COSMOS Blue S-C
BEzaktiv COSMOS Navy S-C
0.23 % 1.4 %
0.17 % 1.0 %
0.12 % 0.7 %
0.35 % 2.1 %
1.2 % 2.4 %
BEzAktivCOSMOS S-CDyes advancEd
Improved and adjusted ranges for varying and cost saving applications that meet high requirements.
A
Products comply with the strict ecological and toxicological requirements of the bluesign® criteria.
1) This offer is not valid in mexico.2) This offer is not valid in the following countries: australia, Belgium, Canada, China, France, germany, great Britain,
Hong Kong, Indonesia, Italy, Japan, Liechtenstein, Netherlands, New zealand, Portugal, spain, switzerland, Taiwan, Usa.3) This offer is not valid in Japan.
data about fastness properties:
The fastness properties indicated in this shade card were determined on 1/1 standard depth dyeings on bleached mercerised cotton, except for BezaKTIV Cosmos Navy s-C which was determined on 2/1.
Fastness to light DIN eN Iso 105-B02Fastness to washing at 60 °C DIN eN Iso 105-C06/C2sFastness to washing at 95 °C DIN eN Iso 105-C06/e2sFastness to water DIN eN Iso 105-e01Fastness to perspiration DIN eN Iso 105-e04Fastness to washing with hypochlorite DIN eN Iso 105-C06/D3sFastness to chlorinated water DIN eN Iso 105-e03(swimming pool water) Dischargeability + suitable for white discharge (+) suitable for coloured discharge – not dischargeable n.d. not determined
neutral
100
100
100
100
100
100
CPB
70
–
60
60
70
80
2/11/1
1/25
n.d.53
n.d.5-64-5
n.d.4-53-4
n.d.4-53-4
n.d.5-65
4-54
n.d.
CCCOCV
35
4-5
4-555
4-54-54-5
544
4-55
4-5
44-54-5
35
4-5
455
444
4-53
3-4
34-54
444
CCCOPA
3-455
3-455
54-54-5
4-54-54-5
4-555
4-54-54-5
CCCOPA
3-455
3-455
4-555
4-555
3-455
54
4-5
CCCOPA
4-555
455
4-555
4-555
455
545
CC
1
1
3
3
1-2
2
CC
1-2
2-3
3-4
4-5
3
4
1/11/25
++
++
++
++
––
++
CPB°C
+50-60
–50-60
+50-60
+50-80
+50-60
+50-60
–
–
–
–
–
–
Solubility
25 °c
in g/l
Light Washing
°c
Perspiration
chlo
rine
was
hing
Water 20 ppm
chlo
rina
ted
wat
er
disc
harg
eabi
lity
Suita
bilit
y fo
r cP
BEx
haus
tion
tem
p.
Met
al c
ompl
ex
alkal.acid
60 95
B e Z e M a a G | Kriessernstrasse 20 | CH-9462 Montlingen | Tel +41 71 763 88 11Fax +41 71 763 88 88 | www.bezema.com | [email protected]
C H t R . B e i t l i C H G M B H | Bismarckstraße 102 | D-72072 Tübingen | Tel +49 7071 154-0Fax +49 7071 154-290 | www.cht.com | [email protected]
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08/1
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