Dystar and its partners launch innovative viscose melange yarn
DANUFIL ProShade is the name of an innovative new viscose melange yarn resulting from a development cooperation between the three industry partners Kelheim Fibres, Linz Textil and DyStar. What's new about Danufil ProShade? While usually a melange yarn is spun of differently coloured fibres, Danufil ProShade consists of a blend of standard viscose fibres and Kelheim's speciality viscose fibre Danufil Deep Dye and is only dyed as needed at a later stage in the process.
This is made possible by the particular properties of Kelheim's Danufil Deep Dye fibre: Due to its permanent cationic charge this speciality fibre has a significantly higher dye absorption capacity than standard viscose fibres. The difference in intensity and speed of the dye pick-up of the viscose fibres spun into Danufil ProShade allows a wide range of colours in melange dyeing of one and the same fibre material to be achieved.
Thus, Danufil ProShade melange yarn offers clear benefits for the dyeing process: a selected range of Levafix and Remazol dyes allows a salt-free dyeing process. Due to shorter dyeing cycles it is possible to save up to 30% in terms of water and energy, which is a clear advantage for the environment. At the same time productivity increases –a time saving of up to 40% speaks for itself!
Excellent reproducibility, levelness as well as a high level of light fastness and fastness to washing have been proven in numerous tests and commercial dyeing processes. Furthermore, DyStar offers comprehensive customer support – including support in developing dye recipes that ensure optimum results.
More benefits are obvious in terms of logistics and warehousing: Danufil ProShade can replace a stock of differently dyed yarns or fabrics and so reduces significantly the amount of capital required. The subsequent dyeing can be done in thousands of different melange tones according to the customer's specific needs and so allows a fast and flexible reaction to orders as well as production on demand – even of small melange lots.
Kelheim Fibres' expertise in the manufacturing of viscose speciality fibres, know-how and innovative spinning technology from Linz Textil and finally high-quality dyes and customer oriented support from DyStar are combined in an innovative product which delivers significantly more efficiency and a better ecological performance in melange production.
Danufil ProShade is exclusively available from Linz Textil. ProShade is available in all yarn technologies and is a registered brand name of Linz Textil GesmbH. The three partners are currently testing more fibre blends and dyeing possibilities. Kelheim Fibres and DyStar will be presenting this innovative solution at IA in Milan..
Dyewell-480 from Sarex Chemicals
THE extreme crystalline nature of polyester fibres create problem in obtaining dark shades by conventional dyeing methods even at high temperature. The leveling-diffusing agents are found to assist the disperse dyes to enter the polyester polymer, enabling dark shades to be produced. These agents will swell the polyester fibres, increase inter polymer space and let the dye molecules to enter the polymer system easily.
Sarex Chemicals has introduced a product Dyewell-480 which is highly efficient dispersing, leveling and diffusing agent for polyester dyeing..
- Low foaming dispersing, leveling and diffusing agent for high temperature polyester dyeings
- Accelerates the diffusion of disperse dyestuffs into the polyester fabric and hence enables a good dyestuff pick-up and improved dyestuff yield
- Supports the migration/ penetration of the dyestuff into the fibre
Exhaust dyeing of polyester tops, yarn, fibre and fabrics : 0.7- 1.5 g/l Dyewell-480 For correction of faulty dyeings and levelling : 1.0-2.0 g/l Dyewell-480 Further information from:
A Division of Saraf Chemicals Pvt. Ltd. Corporate Office: 501, Waterford Building, ‘C’ wing, C.D. Barfiwala Marg, Juhu Lane, Andheri (W), Mumbai - 400 058, India Phone: +91 (22) 6128 5566; Fax: +91 (22) 4218 4350 E-mail: firstname.lastname@example.org Web: www.sarex.com
Sensient raises the bar for sublimation ink performance with ElvaJet Punch
SENSIENT Imaging Technologies S.A. today announces the launch of a new range of digital sublimation printing inks for high performance decoration of polyester fabrics. The new range is suitable for fashion apparel, sportswear and flag & banner applications.
The ElvaJet Punch range of digital textile inkjet inks is designed to achieve the highest quality sublimation polyester fabric printing using both coated and uncoated transfer papers, delivering unsurpassed color vibrancy and printing performance. Sensient has designed a specific set, ElvaJet Punch EP, for use on all types of Epson-based systems, including both Epson DX- and Epson TFP-based printers.
“ElvaJet Punch delivers the ultimate sublimation printing performance for polyester textile decoration,” comments Dr Christophe Bulliard, Sensient's Marketing Director, “offering our customers maximum color performance combined with industrial reliability.” Dr Bulliard comments further: “With the recent acquisition of Xennia Technology, Sensient has expanded its product range and increased its innovation scope and power. ElvaJet Punch is the first fruit of that innovation, and we expect to launch further new products over the coming months.
“In benchmark testing against other market inks ElvaJet Punch shows superior color vibrancy and gamut, enhanced transfer efficiency from a wide range of coated and uncoated sublimation papers and exceptional jetting performance. The ink is also ideal for direct printing onto fabrics, with no image bleed and good print-through. Such a combination of benefits makes a compelling case for switching to this premium ink.”
Sensient will be demonstrating the performance of ElvaJet Punch at the SGIA Expo, Atlanta, GA, USA, 4-6 November 2015, in booth 3763 and at IA, Milan, Italy, 12-19 November 2015, in Hall 18, booth A105.
METTLER TOLEDO announces FastTrack UV/VIS spectroscopy to speed up measurements
THE new UV/VIS Excellence product portfolio includes four models that provide outstanding optical performance: UV5, UV7, UV5Bio and UV5Nano. The UV5 provides simplicity in UV/VIS spectroscopy with easy direct measurement applications. The UV7 performance complies with strict EU and US Pharmacopeia requirements and provides advanced automation possibilities. The UV5Bio is the ideal instrument for Life Science UV/VIS applications that are based on cuvette measurement. With the UV5Nano, only 1 mL of sample is needed thanks to the innovative LockPath technology.
FastTrack UV/VIS technology
The new UV/VIS Excellence instruments from METTLER TOLEDO integrate robust, state-of-the-art components into a unique spectroscopic system design: FastTrack UV/VIS technology, which comprises modern fiber optics in combination with array detection and a Xenon flash lamp. A full spectrum scan is performed within just one second. Instrument specifications are compliant with Pharmacopeia regulations; stray light and accuracy requirements are even exceeded. A robust design ensures measurement stability and contributes to result accuracy and repeatability. No warm up time is needed for the Xenon flash lamp to reach stability, so the instrument is always ready to use and its lifetime is greatly increased.
Spectrum scans, fixed wavelength absorption, quantification with calibration curves and kinetic analyses are ready to use as direct measurements. Simply enter parameters, define the workflow, store as a shortcut and start the measurement with One Click. Users also have the option to choose one of the predefined, industry-specific METTLER TOLEDO methods for an immediate start.
As easy as it gets
UV/VIS Excellence instruments include the One Click user interface, an easy and intuitive way to run tasks right from the terminal. A large, seven-inch high-resolution terminal provides clear color representation of spectra and results at a glance. The user is always securely guided by step-by-step instructions.
Minimize sample, maximize performance on the UV5Nano
Micro-volume UV/VIS measurement is the method of choice for small sample amounts or high absorption samples. On the UV5Nano, only 1 µL of the pure sample is pipetted onto the glass surface and LockPath technology makes sure that the available path lengths of 0.1 and 1 mm are accurately defined. Measurement errors are avoided and wide concentration ranges can be measured without further dilutions, saving precious time.
Streamline the UV/VIS workflow with LabX UV/VIS PC Software
LabX UV/VIS PC software expands the UV/VIS Excellence instrument with a comprehensive graphical editor for spectra evaluation and advanced automation possibilities, as well as enhanced data analysis and management possibilities fully compliant with 21 CFR part 11/EU annex 11. Beyond this, LabX fosters seamless UV/VIS instrument integration into a METTLER TOLEDO based instrument network.
Clothes will soon store energy from body movement
RESEARCHERS have created stretchable and electrically conductive fibres that can be braided and knitted using traditional techniques to create wearable garments that monitor human movement.
The ability to arrange different types of fibres with predetermined spatial organisation gives us the colour, vibrancy and comfort we encounter in traditional textiles.
By replacing conventional fibres with those that can conduct electricity, researchers can allow for monitoring of human movement using wearable garments, and even to store the energy required to power such a function.
Australian Research Council (ARC) Centre of Excellence for Electromaterials Science researchers have created new fibre structures and used traditional knitting and braiding techniques to introduce both of these capabilities to wearable structures.
A knitted textile based on the polymeric composite fibres, produced at the Australian National Fabrication Facility, is highly sensitive, stable and able to detect a wide range of human movement.
The team demonstrated a working device with remote sensing capabilities using a knee sleeve prototype of the fabric that 'talks' to a commercial wireless receiver.
These fibres are not only stretchable but also conduct electricity. This combination of properties allows the fibres to respond to body movement. For energy storage the materials that make up a battery have been braided into appropriate arrangements to deliver energy storage capabilities, researchers said.