From the Sector

Reset
92 results
Archroma: New Formaldehyde-Free* Low Temperature Curing Binder © Archroma
Screen capture of Archroma’s video on Archroma's Cool Print system based on the new Helizarin® LTC New, a formaldehyde-free* low temperature curing liquid binder for pigment printing on all kinds of fibers.
22.07.2019

Archroma: New Formaldehyde-Free* Low Temperature Curing Binder

  • For Soft Vibrant And Durable Pigment Prints

Reinach, Switzerland - Archroma, a global leader in color and specialty chemicals towards sustainable solutions, has recently launched at the ITMA exhibition its new Helizarin® LTC New liq, a formaldehyde-free* low temperature curing binder for pigment printing on all kinds of fibers.

Prints are increasingly popular in apparel and interior textiles, as they allow us to express ourselves through vibrant colors and patterns. Consumers are especially drawn to the soft touch of an elegantly printed fabric.

Creating soft and vibrant prints can however be challenging for textile manufacturers: Pigment printing is usually applied to the fabric with a binder that often contains formaldehyde, needs a high temperature for curing, and can make the fabric harsh to the touch.

That is why Archroma developed its new Helizarin® LTC New to allow textile manufacturers to address these challenges.

  • For Soft Vibrant And Durable Pigment Prints

Reinach, Switzerland - Archroma, a global leader in color and specialty chemicals towards sustainable solutions, has recently launched at the ITMA exhibition its new Helizarin® LTC New liq, a formaldehyde-free* low temperature curing binder for pigment printing on all kinds of fibers.

Prints are increasingly popular in apparel and interior textiles, as they allow us to express ourselves through vibrant colors and patterns. Consumers are especially drawn to the soft touch of an elegantly printed fabric.

Creating soft and vibrant prints can however be challenging for textile manufacturers: Pigment printing is usually applied to the fabric with a binder that often contains formaldehyde, needs a high temperature for curing, and can make the fabric harsh to the touch.

That is why Archroma developed its new Helizarin® LTC New to allow textile manufacturers to address these challenges.

The innovation was developed in compliance with “The Archroma Way: safe, efficient, enhanced, it’s our nature”. The approach finds its origin in Archroma’s deep belief that it is possible to make the textile industry sustainable, economically and ecologically.

Helizarin® LTC New is a binder designed for low temperature curing or no curing. This allows to reduce the fixation temperature and time compared to conventional pigment printing processes. In addition, manufacturers will not experience the change of shades that sometimes occur with high temperature processes.

When using Helizarin® LTC New, textile manufacturers can therefore improve the productivity of their printing process and reduce their energy consumption.

Helizarin® LTC New is also a welcome solution for textile manufacturers who do not have curing equipment, since it offers similar to better fastness than commodity binders that have been treated through a full process, and excellent fastness on synthetic fibers such as polyester and polyamide.

When it comes to the final result on the fabric, Helizarin® LTC New allows the creation of soft and durable prints for premium quality articles.

The new product will be the core of Archroma's Cool Print, a complete formaldehyde-free* system that keeps printed textiles soft and durable, and the planet cooler.

The system, which combines Helizarin® LTC New with Luprintol® softening and fixing auxiliaries and Printofix® pigment preparations, allows manufacturers to realize potential savings of up to 30% in processing time, 45% in energy consumption and 44% CO2 emissions – compared to benchmark pigment printing.

Helizarin® LTC New, as well as the Cool Print system, is formaldehyde free* and registered under REACH. It can be used in line with the ZDHC & bluesign® requirements, is compliant with the Oeko-Tex Std 100 Class 1 standard for baby wear, and with the MRSL of the most major brands.

“Helizarin® LTC New was developed by Archroma’s R&D team together with experts at our Global Competence Center for Printing, based in Barcelona, Spain”, says Joaquin Femat, Head of Business Development for Printing, Brand & Performance Textile Specialties, at Archroma. “As The Archroma Way is based on Safe, Efficient and Enhanced as its three pillars, we designed an innovation that offers our customers a balanced combination of resource optimization, safe handling, and controlled effluent. Because it’s our nature!”
 

More information:
Archroma Helizarin Farben
Source:

EMG

archroma Photo: Archroma
15.07.2019

Archroma to introduce new water-based ultra-low VOC Coating Technology

Archroma has launched at the recent ITMA exhibition its new Lurapret® N5396 & N5392 liq, a water-based ultra-low VOC polyurethane (PU) polymer coating technology.

The innovation was developed in compliance with “The Archroma Way: safe, efficient, enhanced, it’s our nature”. The approach finds its origin in Archroma’s deep belief that it is possible to make the textile industry sustainable, economically and ecologically.

Coatings are used in the textile industry to achieve features such as waterproofness, flexibility, durability and UV resistance. With the growing demand for safer and more ecological products, water-based PU coatings are progressively prevailing as the preferred coating technology.

Archroma has launched at the recent ITMA exhibition its new Lurapret® N5396 & N5392 liq, a water-based ultra-low VOC polyurethane (PU) polymer coating technology.

The innovation was developed in compliance with “The Archroma Way: safe, efficient, enhanced, it’s our nature”. The approach finds its origin in Archroma’s deep belief that it is possible to make the textile industry sustainable, economically and ecologically.

Coatings are used in the textile industry to achieve features such as waterproofness, flexibility, durability and UV resistance. With the growing demand for safer and more ecological products, water-based PU coatings are progressively prevailing as the preferred coating technology.

More information:
Archroma ITMA 2019
Source:

Archroma

Borealis launches recycling technology Borcycle™ and new rPO compound at K 2019 © mtm plastics
25.06.2019

Borealis launches recycling technology Borcycle™ and new rPO compound at K 2019

  • Borealis’ EverMinds™ ambition moves industry one step closer to plastics circularity thanks to new recycling technology and improved recyclate
  • Borealis also announces significant material improvements to existing Purpolen® recyclate materials

Borealis, a leading provider of innovative solutions in the fields of polyolefins, base chemicals and fertilizers, announces the introduction of a new plastics recycling technology, Borcycle™. This evolving technology will be used to produce high-quality compounds made of recycled polyolefins (rPO) such as the newly-launched Borcycle™ MF1981SY, an rPO with over 80% recycled content intended for use in visible appliance parts. Borealis also announces a series of significant material improvements to existing recyclates in the established Purpolen™ brand portfolio. These market launches and product improvements are important technology advancements and thus accelerate the transformation to a circular economy of plastics. Borealis and its wholly-owned subsidiary, mtm plastics, will showcase the new Borcycle technology and recyclate innovations at the K 2019 in October.

  • Borealis’ EverMinds™ ambition moves industry one step closer to plastics circularity thanks to new recycling technology and improved recyclate
  • Borealis also announces significant material improvements to existing Purpolen® recyclate materials

Borealis, a leading provider of innovative solutions in the fields of polyolefins, base chemicals and fertilizers, announces the introduction of a new plastics recycling technology, Borcycle™. This evolving technology will be used to produce high-quality compounds made of recycled polyolefins (rPO) such as the newly-launched Borcycle™ MF1981SY, an rPO with over 80% recycled content intended for use in visible appliance parts. Borealis also announces a series of significant material improvements to existing recyclates in the established Purpolen™ brand portfolio. These market launches and product improvements are important technology advancements and thus accelerate the transformation to a circular economy of plastics. Borealis and its wholly-owned subsidiary, mtm plastics, will showcase the new Borcycle technology and recyclate innovations at the K 2019 in October.

Borealis is leading the industry by applying its Visioneering Philosophy™ to the development and implementation of novel polyolefins-based solutions that enable plastics reuse, recycling, and recovery, and by designing for circularity. These wide-ranging activities are gathered under the symbolic roof of EverMinds™, the Borealis platform dedicated to promoting a more circular mind-set in the industry. By capitalising on its profound expertise in virgin polyolefins and collaborating with value chain partners, Borealis keeps discovering new opportunities for business growth within the circular economy.

Advancing technology to bring about polyolefin circularity

The new technology, Borcycle, transforms polyolefin-based waste streams into recyclate material such as pellets. As a transformative technology, it complements the existing Borealis virgin polyolefins portfolio with a range of pioneering, circular solutions. It unites state-of-the-art technology with the profound Borealis polymer expertise gained over decades.

As a scalable and modular technology, Borcycle has been developed to meet growing market demand for high-quality recyclate. Leading appliance brand owners, for one, have pledged to increase the amount of recycled plastics in their goods. Yet until recently, producers have not been able to rely on a consistent supply of high-quality recyclate. The Borcycle technology will help address this challenge. Compounds made using the Borcycle technology deliver high performance, add value and offer versatility. Producers and brand owners in a range of industries will profit from the availability of high-quality recyclate that helps them meet environmental and regulatory challenges.

“Advancing technology is crucial if our aim is to implement value-creating solutions in the circular sphere,” claims Maurits van Tol, Borealis Senior Vice President, Innovation, Technology & Circular Economy Solutions. “‘Building tomorrow together’ means innovating, collaborating, focussing on the customer, and above all – taking action. The launch of our new recycling technology Borcycle is tangible proof of our commitment to achieving plastics circularity.”

New and improved recyclate for high-end applications

Borcycle™ MF1981SY is the first of several upcoming launches of rPO solutions made under the umbrella of the Borcycle technology. Borcycle™ MF1981SY will be available to Borealis customers in Europe. The compound is an exciting addition to the rPO portfolio because it is a 10% talc-filled compound that contains over 80% recycled material. It offers an ideal balance between stiffness and impact. The compound is especially suited for use in visible black parts, for example in small appliances.

Like its relatives in the mtm plastics family of recyclate materials, Borcycle™ MF1981SY is a truly sustainable offering. Recyclates from mtm save approximately 30% of CO2 emissions compared to virgin materials.

A number of significant improvements have been made to existing recyclate grades in the Purpolen portfolio.

“Mechanical recycling is presently a most eco-efficient method to implement the principles of the circular economy,” explains Guenter Stephan, Head of Mechanical Recycling, Borealis Circular Economy Solutions. “Borealis and mtm plastics are leveraging their respective areas of expertise to make significant progress in achieving polyolefin circularity by upscaling recycling output and ensuring the reliable supply of high-quality plastics recyclate for European producers, in particular.”

More information:
Recycling Borealis Borcycle
Source:

  Borealis AG

(c) Rieter
24.06.2019

Rieter Awarded Large Contract from Egypt

 

  • Contracts signed for seven projects
  • Contract comprises delivery of compact- and ring-spinning systems
  • Total amounts to roughly CHF 180 million
  • Order intakes are anticipated to be realized in 2019; sales posted in the 2020/2021 financial years

Rieter Group has signed contracts with the Cotton & Textile Industries Holding Company, Cairo (Egypt), at the ITMA 2019. These seven projects entail a total of 180 million Swiss francs. The contract comprises delivery of compact- and ring-spinning systems over the next two years. This order is part of a comprehensive modernization program of the Egyptian textile industry. The order intakes are anticipated to be realized in 2019 with sales posted in the 2020/2021 financial years.

The contracts were signed at the ITMA in Barcelona, Spain, by Dr. Ahmed Moustafa Mohamed, Chairman Cotton & Textile Industries Holding Company, and Dr. Norbert Klapper, CEO Rieter.

 

  • Contracts signed for seven projects
  • Contract comprises delivery of compact- and ring-spinning systems
  • Total amounts to roughly CHF 180 million
  • Order intakes are anticipated to be realized in 2019; sales posted in the 2020/2021 financial years

Rieter Group has signed contracts with the Cotton & Textile Industries Holding Company, Cairo (Egypt), at the ITMA 2019. These seven projects entail a total of 180 million Swiss francs. The contract comprises delivery of compact- and ring-spinning systems over the next two years. This order is part of a comprehensive modernization program of the Egyptian textile industry. The order intakes are anticipated to be realized in 2019 with sales posted in the 2020/2021 financial years.

The contracts were signed at the ITMA in Barcelona, Spain, by Dr. Ahmed Moustafa Mohamed, Chairman Cotton & Textile Industries Holding Company, and Dr. Norbert Klapper, CEO Rieter.

Dr. Klapper was very pleased at the formal signing of contracts: “We would like to thank our Egyptian business partners for the confidence they are placing in Rieter by awarding us this contract. Rieter has been the partner of choice of the Egyptian spinning industry for decades. We are delighted to be given the opportunity of making such an important contribution to the modernization of the Egyptian textile industry.”

Source:

Media Relations, Rieter Management AG

(c) Mayer&Cie
13.06.2019

Mayer & Cie: Made to map your body

Mayer & Cie.’s new MJ 3.2 E makes a tailor-made job of body mapping

Mayer & Cie. (MCT) is showcasing a mesh and body mapping specialist at this year’s ITMA in Barcelona. Specially developed for sporting use, the electronic single jersey machine MJ 3.2 E is a cornerstone of the manufacturer’s trade fair concept and its slogan “Stay a Winner: With Mayer & Cie.”. Because the new electronic jacquard flagship is based on a 3-in-1 concept it is capable of much more. Its 3-way technology enables the MJ 3.2 E to knit a wide range of patterns while its 2-way technology ensures high productivity.

Mayer & Cie.’s new MJ 3.2 E makes a tailor-made job of body mapping

Mayer & Cie. (MCT) is showcasing a mesh and body mapping specialist at this year’s ITMA in Barcelona. Specially developed for sporting use, the electronic single jersey machine MJ 3.2 E is a cornerstone of the manufacturer’s trade fair concept and its slogan “Stay a Winner: With Mayer & Cie.”. Because the new electronic jacquard flagship is based on a 3-in-1 concept it is capable of much more. Its 3-way technology enables the MJ 3.2 E to knit a wide range of patterns while its 2-way technology ensures high productivity.

More information:
Mayer & Cie
Source:

Mayer&Cie

Oerlikon feiert vier Weltpremieren zur ITMA Barcelona 2019 (c) Oerlikon
Oerlikon Shuttle ITMA 2019
08.05.2019

Oerlikon celebrates four world premieres at ITMA Barcelona 2019

  • Clean Technology. Smart Factory.

Remscheid – Oerlikon invites all visitors to this year's ITMA in Barcelona on a journey into the future of manmade fiber production. From 20 to 26 June 2019, the world market leader will show all its guests its vision of a sustainable and automated manmade fiber production in a virtual 4D showroom at its 1,000 m² stand in Hall 7, A101: "Clean Technology. Smart Factory." is the motto of the future. And this is only a stone's throw away from reality at the stand. Because today Oerlikon is presenting four world premieres for efficient machine and plant concepts in a new, innovative industrial design. Together with numerous other innovations, all this forms the new DNA of the Oerlikon Manmade Fibers segment.

The challenges for the manmade fiber industry are manifold and Oerlikon shows its customers solutions:

  • Clean Technology. Smart Factory.

Remscheid – Oerlikon invites all visitors to this year's ITMA in Barcelona on a journey into the future of manmade fiber production. From 20 to 26 June 2019, the world market leader will show all its guests its vision of a sustainable and automated manmade fiber production in a virtual 4D showroom at its 1,000 m² stand in Hall 7, A101: "Clean Technology. Smart Factory." is the motto of the future. And this is only a stone's throw away from reality at the stand. Because today Oerlikon is presenting four world premieres for efficient machine and plant concepts in a new, innovative industrial design. Together with numerous other innovations, all this forms the new DNA of the Oerlikon Manmade Fibers segment.

The challenges for the manmade fiber industry are manifold and Oerlikon shows its customers solutions:

1. Choosing the right business model
Price pressure on fiber and yarn manufacturers is growing due to global market consolidation. Here it is important to position oneself correctly. Are you producing polyester, nylon or polypropylene for the niche market and skimming off good margins with innovative products and ingenious material properties, or are you looking for business success through economies of scale in the volume market such as the constantly growing apparel sector? Oerlikon has the right answers for both business models. And the most important thing: the market leader supplies all solutions from a single source. See for yourself at the world premieres of the machine and system concepts of WINGS FDY PA6, BCF S8 Tricolor and the revolutionary eAFK Evo texturing machine.

2. Finding alternatives for good personnel
Finding good operators in the manmade fiber industry is becoming increasingly difficult, even in emerging industrial nations such as China, India and Turkey. The solution is obvious. What, for example, the automotive industry achieved years ago with the 3rd Industrial Revolution is now also taking its course in the textile industry. And at the same time it is even shifting up a gear. In the next step, automation in combination with digitization will lead to new, sustainable production. Oerlikon will be showing how automation and digitization interact at ITMA. Self-learning machines and systems, artificial intelligence (AI), remote services and edge computing are just a few of the key words in the digital half of the new Oerlikon Manmade Fibers DNA.

3. Guarantee quality and traceability
The qualities of the fibers and yarns must meet the highest demands and their production must be traceable throughout the textile value chain. This no longer only plays an important role in the automotive industry, where safety is of paramount importance. Other branches of industry that use fibers, yarns and nonwovens also want to know where the raw materials they produce for consumer articles come from. Legal regulations are demanding this more and more frequently. Oerlikon offers optimal solutions with its DIN ISO certified manufacturing processes. More than half of the world's manmade fiber producers are convinced every day that the qualities produced on Oerlikon Barmag, Oerlikon Neumag and Oerlikon Nonwoven equipment are right – and all visitors to ITMA can do the same on site.

4. Efficient and sustainable production
In the future, the materials produced from manmade fibers must become part of a further improved global recycling economy. The recycling of polyester – with over 80% market share the most frequently used manmade fiber in the world – has not only been on the agenda since today. Oerlikon already has solutions at hand: from PET bottles to fibers and filaments, to textiles and carpets. ITMA is the next step. With the VacuFil® Oerlikon in cooperation with the subsidiary company BBEngineering presents the world premiere No. 4 – a recycling solution within a running polyester production with a waste-free approach.

Vision becomes reality
The Oerlikon Manmade Fibers segment thus demonstrates what the ITMA in Barcelona promises as the world's leading trade fair for textile machinery and plant construction: "Innovating the world of textiles – sourcing for a sustainable future". In Hall 7, A101, this is already reality.

More information:
ITMA Oerlikon Fibers Automation
Source:

Oerlikon

(c) AWOL Media
06.05.2019

The new Vandewiele RCE2+ digital carpet weaving machine at ITMA 2019

A wide range of new technologies will be demonstrated by Vandewiele at the ITMA 2019 textile machinery show in Barcelona from June 20-26, including the latest RCE2+ digital carpet weaving machine.

All Vandewiele technologies are now being equipped for machine-to-machine interaction and learning, as part of the company’s comprehensive TEXconnect programme.

Meeting new industry needs
As a leader in complete carpet manufacturing systems – including BCF extrusion lines, heat setting systems and carpet weaving and tufting machines – Vandewiele has rapidly responded to the evolving needs of the textile industry for smaller and customised production runs, the most challenging of designs, and faster and more sustainable manufacturing.

A wide range of new technologies will be demonstrated by Vandewiele at the ITMA 2019 textile machinery show in Barcelona from June 20-26, including the latest RCE2+ digital carpet weaving machine.

All Vandewiele technologies are now being equipped for machine-to-machine interaction and learning, as part of the company’s comprehensive TEXconnect programme.

Meeting new industry needs
As a leader in complete carpet manufacturing systems – including BCF extrusion lines, heat setting systems and carpet weaving and tufting machines – Vandewiele has rapidly responded to the evolving needs of the textile industry for smaller and customised production runs, the most challenging of designs, and faster and more sustainable manufacturing.

The company’s sensors, software programmes and servers have become increasingly sophisticated as part of the TEXconnect program, and the real-time data from different machines – across connected manufacturing sites and across different countries and even continents – can be collected and shared. Digital models of both machines and production processes can be created and analysed for the optimisation of production settings, to vastly improve scheduling and planning and also make considerable savings in raw materials and energy consumption.

Virtual and remote control now allows for the Big Data analysis that is propelling the industry forward and will pave the way for AI applications. For carpet manufacturers, all of this is leading to the creation of truly Smart Factories.

RCE2 carpet weaving
The new RCE2+ Rug and Carpet Expert weaving machine is a truly digital workhorse, with all yarns continuously controlled and measured and the difficult bobbin changes of the past completely eliminated. This is as a result of Vandewiele’s latest Fast Creel, with the feed and tension of each pile yarn controlled by individual servomotors.

The pile yarns are now fed directly into the machine without having to pass pile-stop motions, to both increase efficiency and eliminate any waste yarns, while achieving previously unreachable industrial speeds.

The filling enters the machine smoothly via the latest IRO X3 winders, heavy duty filling brakes with multi lamellas, an active yarn recuperator and a high speed weft mixer, where again, all tensions are set electronically. Vandewiele’s servo-driven heddle frames (Smart Frames) are meanwhile already well proven in the industry.

TEXconnect further provides readily-available data on all yarn consumption, tension and threading, and then will supply the predictive maintenance that is paving the way to self-learning carpet weaving machines.

All of this would be unnecessary, if it didn’t result in allowing manufacturers to make the highest quality carpets at the most economic prices ever, with savings on the highest-bulk pile yarns from the Vandewiele extrusion lines, reduced waste yarns in the creel and industrial production speeds that have never before been attained.

 

More information:
TEXconnect
Source:

AWOL Media

(c) TMAS by AWOL Media
29.04.2019

Baldwin Technology to launch the TexCoat G4 at ITMA 2019

Revolutionizing textile finishing by enhancing sustainability and total process control

Baldwin Technology Company Inc., a member of TMAS, the Swedish textile machinery association, is pleased to announce the launch of the TexCoat G4 at the ITMA trade show in Barcelona from June 20-26, 2019. The TexCoat G4 is the next generation of the company’s revolutionary non-contact precision application system for fabric finishing.

The system enables a continuously high quality and productive textile finishing process with zero chemistry waste and drastically reduced water and energy consumption. TexCoat G4 will be demonstrated by Baldwin in Hall H2, stand A204.

“We are immensely proud to launch the TexCoat G4 at ITMA 2019,” said Eric Norling, Vice President Precision Application Segment, Baldwin Technology. “This is an opportunity to experience an innovation that drastically improves both the process and product quality, while saving time, valuable resources and contributing to a sustainable future.”

Revolutionizing textile finishing by enhancing sustainability and total process control

Baldwin Technology Company Inc., a member of TMAS, the Swedish textile machinery association, is pleased to announce the launch of the TexCoat G4 at the ITMA trade show in Barcelona from June 20-26, 2019. The TexCoat G4 is the next generation of the company’s revolutionary non-contact precision application system for fabric finishing.

The system enables a continuously high quality and productive textile finishing process with zero chemistry waste and drastically reduced water and energy consumption. TexCoat G4 will be demonstrated by Baldwin in Hall H2, stand A204.

“We are immensely proud to launch the TexCoat G4 at ITMA 2019,” said Eric Norling, Vice President Precision Application Segment, Baldwin Technology. “This is an opportunity to experience an innovation that drastically improves both the process and product quality, while saving time, valuable resources and contributing to a sustainable future.”

The non-contact spray technology brings numerous advantages compared to conventional methods of applying finishing chemistry. The chemistry is uniformly distributed across the textile surface and is applied only where it is required – on one or both sides of the fabric. This is highly beneficial e.g. when applying water repellants on laminated fabrics, as it eliminates the problem of chemistry affecting the quality of the adhesion layer. Furthermore, the non-contact technology eliminates chemistry dilution in wet-on-wet processes, allowing full control of maintaining consistent chemistry coverage rates. Additionally, with no bath contamination during the finishing process, there is zero downtime during colour or fabric changeovers.

 

(c) FONG’s Europe
29.04.2019

Innovations in long tube dyeing from FONG’S Europe

At ITMA 2019 in Barcelona from June 20-26 FONG’S Europe, a member of CHTC FONG’S International Group, will be providing details of its new THEN Supratec LTM hydraulic long-tube dyeing machine.


This machine is distinguished by the ability to vary the angle of the Then Flexkier for either dry (jet) or wet (overflow) mode dyeing, in order to optimise the dye liquor ratio – from 1:15 down to 1:4 – depending on the materials being dyed.

This translates into considerable savings in auxiliaries, water and energy.

The Supratec LTM is suitable for the treatment of both woven and knitted fabrics ranging from the most sensitive articles to heavyweight materials within the weight range of 25 g/lm to 380 g/lm, and operates at very low tension due to the extremely low lifting height between the variable nozzle and the plaited fabric.

At ITMA 2019 in Barcelona from June 20-26 FONG’S Europe, a member of CHTC FONG’S International Group, will be providing details of its new THEN Supratec LTM hydraulic long-tube dyeing machine.


This machine is distinguished by the ability to vary the angle of the Then Flexkier for either dry (jet) or wet (overflow) mode dyeing, in order to optimise the dye liquor ratio – from 1:15 down to 1:4 – depending on the materials being dyed.

This translates into considerable savings in auxiliaries, water and energy.

The Supratec LTM is suitable for the treatment of both woven and knitted fabrics ranging from the most sensitive articles to heavyweight materials within the weight range of 25 g/lm to 380 g/lm, and operates at very low tension due to the extremely low lifting height between the variable nozzle and the plaited fabric.

“Existing Supratec machines on the market are providing excellent performance for a wide range of delicate synthetic fabrics, from polyester to polyamide with high content of elastane,” says FONG’S Europe Director of Sales and Marketing Richard Fander. “Heat-setting can often can be avoided, which improves the handle of the material and saves costs and the lengthwise-elongation of the fabric being treated is lower than on winch-driven machines.”

14.11.2018

Oerlikon Manmade Fibers Segment at the OpenStack Summit in Berlin

"Datacenter in a box" is the new powerful, flexible and secure IT infrastructure solution for the textile industry of the future

Remscheid/Berlin – Oerlikon Manmade Fibers Segment Industrie 4.0 solutions for the production of polyester, nylon and polypropylene are based on the digitalization of the production landscape and the intelligent processing of the flood of data generated in this way. In the future, the segment will offer its customers a new powerful, flexible and, above all, secure IT infrastructure. The "Datacenter in a box" was presented for the first time at the OpenStack Summit in Berlin, Germany, to a broad specialist audience. The compact datacenter works on the basis of the open operating system OpenStack, which enables virtual computing in a secure private cloud environment.

"Datacenter in a box" is the new powerful, flexible and secure IT infrastructure solution for the textile industry of the future

Remscheid/Berlin – Oerlikon Manmade Fibers Segment Industrie 4.0 solutions for the production of polyester, nylon and polypropylene are based on the digitalization of the production landscape and the intelligent processing of the flood of data generated in this way. In the future, the segment will offer its customers a new powerful, flexible and, above all, secure IT infrastructure. The "Datacenter in a box" was presented for the first time at the OpenStack Summit in Berlin, Germany, to a broad specialist audience. The compact datacenter works on the basis of the open operating system OpenStack, which enables virtual computing in a secure private cloud environment.

Externally, the datacenter looks unspectacular: The box contains standard hardware such as server rack, network components, batteries for reliability, monitoring sensors and a few more things. But what counts are the inner values. The Open Source software OpenStack consists of many different services and allows the virtualization of a large pool of computing, storage and network resources in a flexible, scalable private cloud. This brings two central advantages: On the one hand, virtual operation reduces costs and simplifies configuration, adaptation and expansion of the IT infrastructure today and tomorrow. On the other hand, long-cherished wishes for high data protection are fulfilled, because a private cloud maintains secure, highly encrypted data connections away from the World Wide Web.

"The functional diversity of a cloud, operation and hardware in one's own four walls at the same time – our customers immediately understood these advantages" reports Mario Arcidiacono, specialist for Business Intelligence & Data Warehouse at the Oerlikon Manmade Fibers Segment. The IT architecture also guarantees infrastructure management without downtime, the system and virus protection are automatically kept up to date at all times. Another major advantage is the scalability of the hardware and software, which can be adapted to changing requirements.

OpenStack Summit: Project example with yarn manufacturer from Vietnam presented

With these trump cards and a project example, the Group segment confidently presented itself to a genuine specialist audience in mid-November. At this year's OpenStack Summit in Berlin, where thousands of cloud professionals met, Oerlikon Manmade Fibers Segment CEO Georg Stausberg presented the customer installation at Century Synthetic Fibre Corporation, which supplies many well-known sporting goods manufacturers. The Vietnamese producer of high-quality yarns not only uses the new datacenter, but also the connection to the new "Common Service Platform (CSP)" of the Oerlikon Manmade Fibers Segment as well as an innovative new dashboard solution in prototype status. In this case, the digital instrument panel supports employee communication during shift changes in the yarn factory and introduces agile methods into the work process. The board visualizes the progress of central key figures and operating parameters from the current production process. Based on this, the employees of the successive shifts can now exchange important process and quality information and possible instructions for action within a few minutes in a structured stand-up meeting. "For the customer this means an immediate improvement of the processes, and he can significantly increase the efficiency and quality of his employees' work," assures Joerg Gross, Senior Manager in the IT-architecture team at the Oerlikon Manmade Fibers Segment.

New IT-basis for the Plant Operation Center (POC) already successful established on the market

The fixed connection to the "Common Service Platform (CSP)" of the Oerlikon Manmade Fibers Segment plays a pioneering role in such solutions. This enables services and software updates to be provided smoothly, quickly and automatically. In this way, service applications can transform collected data into instructions or automated commands to secure and improve processes. For example, the secure availability of management solutions such as the Plant Operation Center (POC) for process monitoring can be increased and possible errors can be rectified very quickly. The new digital solution AIM4DTY (AIM = Artificial Intelligence Manufacturing), which was unveiled at the ITMA ASIA + CITME 2018 in Shanghai, China, a few weeks ago, can also be implemented in this way. AIM4DTY uses methods of machine learning, determines probable causes of errors in texturing and helps to improve quality during production.

Launch at ITMA Barcelona 2019

The Oerlikon Manmade Fibers Segment offers such remote-supported services on request. Data will therefore only be transferred to the “Common Service Platform (CSP)” with the customer's consent. In addition, all data is processed in accordance with the new European General Data Protection Regulation (GDPR) and all other international data protection standards. Against this backdrop, the Oerlikon Manmade Fibers Segment plans to provide its datacenter with graded or customer-specific solutions: from complete service to provision with customer training for its own operations. After initial practical experience with several pilot customers, the segment intends to launch its offering on the market next year and officially present it to the textile industry at ITMA 2019 in Barcelona, Spain.

Source:

Oerlikon Marketing, Corporate Communications & Public Affairs

 

(c) BASF Venture Capital GmbH
06.11.2018

BASF invests in Chinese 3D printing specialist Prismlab

  • Unique, patented 3D printing process enables production of large-scale components
  • First direct investment by BASF Venture Capital in a company in China

BASF Venture Capital GmbH is investing in Prismlab, a leading provider of 3D printing processes and 3D printers, headquartered in Shanghai, China. Prismlab has developed a patented printing process that is characterized by a very high printing speed, high level of precision and lower printing costs. BASF’s venture investment will enable Prismlab to further accelerate its product development and innovation while strengthening its market reach to the global market.

“This is our first direct investment in a Chinese company,” said Markus Solibieda, Managing Director of BASF Venture Capital GmbH. “The trailblazing technology from Prismlab allows large and stable components, such as medical braces and anatomical models, to be 3D printed for the first time. This investment supports BASF’s strategy of actively advancing our technologies and expanding our product offering in the 3D printing sector.”

  • Unique, patented 3D printing process enables production of large-scale components
  • First direct investment by BASF Venture Capital in a company in China

BASF Venture Capital GmbH is investing in Prismlab, a leading provider of 3D printing processes and 3D printers, headquartered in Shanghai, China. Prismlab has developed a patented printing process that is characterized by a very high printing speed, high level of precision and lower printing costs. BASF’s venture investment will enable Prismlab to further accelerate its product development and innovation while strengthening its market reach to the global market.

“This is our first direct investment in a Chinese company,” said Markus Solibieda, Managing Director of BASF Venture Capital GmbH. “The trailblazing technology from Prismlab allows large and stable components, such as medical braces and anatomical models, to be 3D printed for the first time. This investment supports BASF’s strategy of actively advancing our technologies and expanding our product offering in the 3D printing sector.”

“China is transforming from a manufacturing-driven to an innovation-driven economy. This investment in Prismlab reflects our commitment to further expanding our innovation capabilities in China, and BASF Venture Capital plays an important role in helping us identifying potential partners that lead us to success,” said Dr. Zheng Daqing, BASF’s Senior Vice President, Business and Market Development Greater China.

“The 3D printing technology must continue to evolve before it is set to change the world. At Prismlab, we aim to spearhead and accelerate that change by providing solutions through specialized customization. The investment allows us to stay laser-focused on our R&D capability, a key factor to achieve that goal,” said Mr. Hou Feng, Founder and Chairman of Prismlab.

Prismlab has developed a patented 3D printing process, “Pixel Resolution Enhanced Technology”, based on stereolithography (SLA). SLA allows comparatively large components to be produced using light-curing resins. Prismlab’s technology increases the printing resolution without compromising printing speed. In order to increase the amount of energy brought into a pixel, Prismlab’s technology divides each pixel in the resin into several small sections, which can be cured individually by exposure to LCD light. This makes the energy input into each pixel significantly higher than similar processes that expose each pixel to light once. This allows comparatively large and stable components or numerous parts to be printed in the same production step. With the use of LCD light, it also reduces process costs. This advantage opens opportunities in the footwear and furniture industry.

Along with this patented process, Prismlab also markets 3D printers and other related services. The Prismlab technology can be used in various key customer applications, including invisible braces, and anatomical models for medical, and education and training purposes.

SLA uses a laser for layer-by-layer curing of a photopolymer solution to shape the required workpiece. SLA and LCD based printing processes determinate the size, stability, and usability of the components to be produced as they are limited by the size of the light spot and the intensity of the light.

More information:
BASF prismlab
Source:

BASF Venture Capital GmbH

Die Carbonfaser revolutionieren – RCCF eröffnet Technikum (c) TU Dresden
05.11.2018

Die Carbonfaser revolutionieren – RCCF eröffnet Technikum

  • Mit einem Festakt haben Dr. Eva-Maria Stange, Staatsministerin für Wissenschaft und Kunst des Freistaates Sachsen, Prof. Gerhard Rödel, Prorektor für Forschung der Technischen Universität Dresden, Prof. Hubert Jäger und Prof. Chokri Cherif am 02.11.2018 das Carbonfaser-Technikum des Research Center Carbon Fibers (RCCF) eröffnet.

Das RCCF, eine gemeinsame wissenschaftliche Einrichtung des Instituts für Leichtbau und Kunststofftechnik (ILK) und des Instituts für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM) der TU Dresden, wurde gegründet, um die Carbonfasern vom Faserrohstoff bis zum fertigen Bauteil zu erforschen und neue Eigenschaften und Anwendungsmöglichkeiten zu entdecken.

  • Mit einem Festakt haben Dr. Eva-Maria Stange, Staatsministerin für Wissenschaft und Kunst des Freistaates Sachsen, Prof. Gerhard Rödel, Prorektor für Forschung der Technischen Universität Dresden, Prof. Hubert Jäger und Prof. Chokri Cherif am 02.11.2018 das Carbonfaser-Technikum des Research Center Carbon Fibers (RCCF) eröffnet.

Das RCCF, eine gemeinsame wissenschaftliche Einrichtung des Instituts für Leichtbau und Kunststofftechnik (ILK) und des Instituts für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM) der TU Dresden, wurde gegründet, um die Carbonfasern vom Faserrohstoff bis zum fertigen Bauteil zu erforschen und neue Eigenschaften und Anwendungsmöglichkeiten zu entdecken.

„Sachsen verfügt in der Schlüsseltechnologie Werkstoff-, Material- und Nanowissenschaft über hervorragende Rahmenbedingungen und hoch motivierte Wissenschaftler an Hochschulen und Forschungseinrichtungen, die in dieser Spezialisierung weltweit ihresgleichen suchen“, erklärt dazu Staatsministerin Dr. Stange. „Beinahe alle Materialklassen von Metallen, Polymeren, Keramiken bis hin zu Verbund- und Naturwerkstoffen werden auf international hohem Niveau bearbeitet. Dabei greifen Grundlagen- und Angewandte Forschung in zahlreichen Feldern eng ineinander und bilden geschlossene Entwicklungsketten bis zu einem Transfer in die Wirtschaft – regional, national und international.“

Der Prorektor für Forschung der TU Dresden, Prof. Gerhard Rödel, ergänzt: „Mit dem Carbonfaser-Technikum ist im Research Center Carbon Fibers eine weltweit einzigartige Anlage entstanden, die völlig neue Möglichkeiten eröffnet. Es geht darum, Fasern mit einem möglichst hohen Individualisierungsgrad zu designen – je nach Bedarf und Einsatzbereich.“

Auf der derzeit installierten, einzigartigen Anlage erforschen Wissenschaftler des RCCF unter Reinraum-Bedingungen die Grundlagen für maßgeschneiderte Kohlenstofffasern und erschließen deren hohes Innovationspotential. Dabei greifen die Forscher auf einzelne Anlagenmodule zur Stabilisierung und Carbonisierung mit industrienahem Ofendesign und individuell einstellbaren Parameterkombinationen zurück. Durch den außerordentlichen Reinheitsgrad sind die Carbonfasern für die Anforderungen der Luft-/Raumfahrt- und der Automobilindustrie maßgeschneidert.

„Die Carbonfaser ist der Stahl des 21. Jahrhunderts“, führt Prof. Hubert Jäger, Sprecher des Instituts für Leichtbau und Kunststofftechnik (ILK), aus. „Ganze Branchen erfinden sich derzeit durch diesen Werkstoff neu und erreichen mit ihren Produkten nie gedachte Dimensionen. Das Problem ist jedoch die Verfügbarkeit. Wir werden mit dem Carbonfaser-Technikum einen Beitrag dazu leisten, dass aus Sachsen heraus dieser Werkstoff nicht nur leichter verfügbar, sondern auch besser und maßgeschneidert einsetzbar wird für Anwendungen in der Luft- und Raumfahrt, Fahrzeugbau, Architektur und Hochleistungselektronik.“

„Mit der Inbetriebnahme des Carbonfaser-Technikums unter Reinraumbedingungen am RCCF gelingt es uns, die Prozesskette zur Fertigung maßgeschneiderter Kohlenstofffasern signifikant zu erweitern. Die notwendigen Maschinentechniken des ITM einschließlich der bereits gewonnenen Erfahrungen bei Prozessoptimierungen zur Herstellung von Precursorfasern, dem Ausgangsmaterial für die neuen Stabilisierungs- und Carbonisierungslinien, stehen in künftigen Forschungsvorhaben den Wissenschaftlern des RCCF zur Verfügung. Somit geben wir am exzellenten Forschungsstandort Dresden die Initialzündung für die weiterführende Grundlagen- und anwendungsorientierte Forschung auf dem Gebiet der Kohlenstofffasern“, ergänzt Prof. Chokri Cherif, Direktor des ITM und Inhaber der Professur für Textiltechnik.

Das Carbonfaser-Technikum umfasst einen mehr als 300 m² großen Reinraum der Klasse ISO 8. Neben den beiden auf etwa 30 Metern aufgestellten Stabilisierungs- und Carbonisierungslinien sind weitere Flächen für künftige Erweiterungen der Gesamtanlage vorgesehen, zum Beispiel ein weiterer Hochtemperaturofen, in dem Carbonfasern bis zu Temperaturen über 2000°C graphitierbar sind oder unikale Beschichtungsanlagen zur Oberflächenaktivierung.

Die RCCF-Wissenschaftler ergründen die Wechselwirkungen zwischen Prozessparametern, Faserstruktur und weiteren mechanischen, thermischen und elektrischen Eigenschaften bei der Herstellung von Carbonfasern, um die Fähigkeiten des Hightech-Werkstoffes weiter zu steigern. Zusätzlich nehmen die Forscher die Entwicklung multifunktionaler Fasern mit neuartigen Eigenschaftsprofilen wie hohe Leitfähigkeit bei hoher Festigkeit oder ausgeprägter Verformbarkeit sowie die Nutzung erneuerbarer Ausgangsstoffe in den Fokus ihrer Arbeiten.

Ein weiterer Schwerpunkt der RCCF-Aktivitäten ist die tiefgreifende studentische Ausbildung im Bereich der Carbonfaser-Herstellung. Den Studierenden werden dabei fundierte Kenntnisse in Herstellung und Weiterverarbeitung von Carbonfasern vermittelt, damit sie in diesem Bereich der Zukunftstechnologien dem sächsischen und deutschen Arbeitsmarkt zur Verfügung stehen. Etwa 15 Studierende werden pro Jahr in Forschungsbereiche wie die Prozessführung, -modellierung und -überwachung sowie die Entwicklung, Fertigung und Charakterisierung neuer Carbonfasern und Verbundwerkstoffe einbezogen.

More information:
TU Dresden Carbonfaser
Source:

Technische Universität Dresden  - Fakultät Maschinenwesen   
Institut für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM)

 

(c) Messe Frankfurt / Yarn Expo Autumn edition
31.10.2018

Final report: Yarn Expo Autumn wraps up with 501 exhibitors and over 19,000 visitors

More exhibitors than ever joined Yarn Expo Autumn 2018, which was held concurrently with ITMA ASIA + CITME from 15 – 17 October at the National Exhibition Convention Centre (Shanghai). 501 suppliers from 14 countries & regions participated, with new countries to the show including France. This international diversification, as well as strong domestic numbers, demonstrated Yarn Expo’s increasing recognition as a top show in the industry. What’s more, almost 80% of exhibitors were returning from successful past editions, showing their support of the fair.

More exhibitors than ever joined Yarn Expo Autumn 2018, which was held concurrently with ITMA ASIA + CITME from 15 – 17 October at the National Exhibition Convention Centre (Shanghai). 501 suppliers from 14 countries & regions participated, with new countries to the show including France. This international diversification, as well as strong domestic numbers, demonstrated Yarn Expo’s increasing recognition as a top show in the industry. What’s more, almost 80% of exhibitors were returning from successful past editions, showing their support of the fair.

“Although Yarn Expo was unable to be held concurrently with Intertextile Apparel this year, more industry players recognise this fair as a top show for yarn and this is why the turnout remained very strong,” explained Ms Wendy Wen, Senior General Manager of Messe Frankfurt (HK). “Our product range was more diverse than ever as exhibitors increasingly see China as the ideal market to introduce their latest innovations. For example, this year we’ve welcomed premium French linen and advanced Italian chemical fibres. Yarn Expo is a platform that promises to gather all of the top suppliers under one roof for genuine buyers.”

With demand rising within the Chinese market for fancy & specialty yarns, suitable for stand-out fashion trends, the trade potential for this product category was high. Business for eco-friendly and natural yarns was also reported to remain steady this edition, reflected by the India Pavilion which increased in size by around 40% this year.

 

Source:

Messe Frankfurt (HK) Ltd

(c) Technische Universität Dresden
Frau Dr. Fazeli
23.10.2018

Wissenschaftlerin vom ITM der TU Dresden mit dem Innovationspreis des Industrieclubs Sachsen geehrt

Frau Dr.-Ing. Monireh Fazeli¬ Zoghalchali vom Institut für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM) der TU Dresden wird am 23. Oktober 2018 für ihre Dissertation "Technologieentwicklung für gewebte Knotenstrukturen mit komplexer Geometrie in Integralbauweise für Faserverbundanwendungen“ mit dem Innovationspreis des Industrieclubs Sachsen 2017 ausgezeichnet. Der Preis ist mit 5.000 Euro dotiert und wird jährlich an einen Absolventen der TU Dresden verliehen.

Die Entscheidung zur Vergabe des Innovationspreises des Industrieclubs Sachsen 2017 erfolgte im Juni 2018 durch ein Preisgericht. Am 23. Oktober findet nun die feierliche Verleihung durch den Industrieclub Sachsen in Dresden statt. Frau Dr. Fazeli absolviert derzeit bis Ende März 2019 im Rahmen des DAAD-Förderprogramms P.R.I.M.E. (Postdoctoral Researchers International Mobility Experience) einen internationalen Forschungsaufenthalt am Centre for Advanced Composite Materials (CACM), University of Auckland in Neuseeland. Deshalb wird Herr Professor Chokri Cherif, Institutsdirektor des ITM und Doktorvater von Frau Dr. Fazeli, den Preis stellvertretend entgegennehmen.

Frau Dr.-Ing. Monireh Fazeli¬ Zoghalchali vom Institut für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM) der TU Dresden wird am 23. Oktober 2018 für ihre Dissertation "Technologieentwicklung für gewebte Knotenstrukturen mit komplexer Geometrie in Integralbauweise für Faserverbundanwendungen“ mit dem Innovationspreis des Industrieclubs Sachsen 2017 ausgezeichnet. Der Preis ist mit 5.000 Euro dotiert und wird jährlich an einen Absolventen der TU Dresden verliehen.

Die Entscheidung zur Vergabe des Innovationspreises des Industrieclubs Sachsen 2017 erfolgte im Juni 2018 durch ein Preisgericht. Am 23. Oktober findet nun die feierliche Verleihung durch den Industrieclub Sachsen in Dresden statt. Frau Dr. Fazeli absolviert derzeit bis Ende März 2019 im Rahmen des DAAD-Förderprogramms P.R.I.M.E. (Postdoctoral Researchers International Mobility Experience) einen internationalen Forschungsaufenthalt am Centre for Advanced Composite Materials (CACM), University of Auckland in Neuseeland. Deshalb wird Herr Professor Chokri Cherif, Institutsdirektor des ITM und Doktorvater von Frau Dr. Fazeli, den Preis stellvertretend entgegennehmen.

Im Rahmen ihrer Dissertation, die Frau Dr. Fazeli im Dezember 2016 mit der Bestnote „summa cum laude“ abschloss, wurde eine CAE-gestützte Prozesskette zur effizienten automatisierten Fertigung komplexer gewebter Knotenelementhalbzeuge aus Carbonfasern für Rahmentragwerke in Fahrzeugen, Flugzeugen, Maschinen und Anlagen sowie der Architektur realisiert. Für diese Rahmentragwerke in Leichtbauweise steht derzeit bereits ein umfangreiches Sortiment aus faserverstärkten Profilen zur Verfügung. Die erforderlichen Knotenelemente zur Verbindung der Profile sind entweder nach wie vor aus Metall oder müssen extrem aufwändig und somit kostenintensiv gefertigt werden.

Mit der neuen automatisierten Technologie ist es möglich, hochkomplexe, in mehreren Raumrichtungen verzweigte Knotenelemente webtechnisch in einem Stück zu fertigen. Damit entfallen die Prozesse des Zuschnittes und sehr aufwändigen Fügens von Teilflächen. Die Bauteilperformance wird deutlich gesteigert. Am ITM wird in enger Zusammenarbeit mit der Firma MAGEBA International GmbH und durch die finanzielle Förderung von Forschungsprojekten über die AiF im Rahmen des Programms zur Förderung der Industriellen Gemeinschaftsforschung (IGF) vom Bundesministerium für Wirtschaft und Energie (BMWi) die gesamte Prozesskette vom CAD-Entwurf, über die strukturelle Entwicklung, die Erstellung der Maschinensteuerprogramme, die textiltechnische Umsetzung und die Bauteilkonsolidierung erfolgreich erarbeitet.

Source:

Technische Universität Dresden

© ITM/TU Dresden
Erste Ausführung eines multimodalen eGloves: Maßgeschneidertes Musikinstrument mit integrierter Sensorik zur Gestenerkennung und drahtlos angekoppeltem Tonwiedergabesystem sowie integrierter Leuchtfunktion für visuelles Feed-Back.
12.10.2018

ITM in einem Exzellenzcluster der TU Dresden maßgeblich involviert

Wissenschaftler des Instituts für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM) der TU Dresden in einem der drei bewilligten Exzellenzcluster der TU Dresden maßgeblich involviert   
 
Ende September erfolgte die Bekanntgabe der Förderentscheidung über Exzellenzcluster durch die Deutschen Forschungsgemeinschaft (DFG) im Exzellenz-Wettbewerb. Drei der insgesamt sechs beantragten Exzellenzcluster der TUD wurden im Rahmen der Exzellenzstrategie des Bundes und der Länder bewilligt. Das ITM war im Vorfeld bei der Beantragung der Exzellenzcluster-Vollanträge mehrere Monate sehr stark eingebunden, so dass die Freude bei den Wissenschaftlern am ITM ausgesprochen groß ist, dass das Cluster „Centre for Tactile Internet with Human-in-the-Loop” (CeTI) bewilligt wurde.   
 

Wissenschaftler des Instituts für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM) der TU Dresden in einem der drei bewilligten Exzellenzcluster der TU Dresden maßgeblich involviert   
 
Ende September erfolgte die Bekanntgabe der Förderentscheidung über Exzellenzcluster durch die Deutschen Forschungsgemeinschaft (DFG) im Exzellenz-Wettbewerb. Drei der insgesamt sechs beantragten Exzellenzcluster der TUD wurden im Rahmen der Exzellenzstrategie des Bundes und der Länder bewilligt. Das ITM war im Vorfeld bei der Beantragung der Exzellenzcluster-Vollanträge mehrere Monate sehr stark eingebunden, so dass die Freude bei den Wissenschaftlern am ITM ausgesprochen groß ist, dass das Cluster „Centre for Tactile Internet with Human-in-the-Loop” (CeTI) bewilligt wurde.   
 
Das „Zentrum für taktiles Internet mit Mensch-Maschine-Interaktion“ der TU Dresden will die Zusammenarbeit zwischen Mensch und Maschine auf eine neue Stufe heben. Menschen sollen künftig in der Lage sein, in Echtzeit mit vernetzten automatisierten Systemen in der realen oder virtuellen Welt zu interagieren. Ab Anfang 2019 arbeiten für dieses Ziel im Exzellenzcluster CeTI Wissenschaftler der TU Dresden aus den Fachgebieten Elektro- und Kommunikationstechnik, Informatik, Maschinenwesen, Psychologie, Neurowissenschaften und Medizin mit Forschern der TU München, des Deutschen Zentrums für Luft- und Raumfahrt und der Fraunhofer-Gesellschaft sowie internationalen Wissenschaftseinrichtungen zusammen. Interdisziplinär erforschen sie Schlüsselbereiche der menschlichen Kontrolle in der Mensch-Maschine-Kooperation, im Soft- und Hardware-Design, bei Sensor- und Aktuatortechnologien sowie bei den Kommunikationsnetzen. Die Forschungen sind Grundlage für neuartige Anwendungen in der Medizin, der Industrie (Industrie 4.0, Co-working) und dem ‘Internet der Kompetenzen‘ (Bildung, Rehabilitation).   
 
Sprecher von CeTI ist Herr Professor Frank Fitzek, Inhaber der Deutschen Telekom Professur für Kommunikationsnetze am Institut für Nachrichtentechnik der TU Dresden.
 
Das ITM wird innerhalb von CeTI seine umfassenden Expertisen auf dem Gebiet der Entwicklung maßgeschneiderter Funktionsmaterialien und -textilien einbringen. Hierbei werden sogenannte eGloves und eBodySuits, also elektronische Handschuhe und Anzüge, entwickelt, die strukturintegrierte faserbasierte Sensor-, Aktor- und Leitungssysteme sowie Verbindungselemente zu weiteren elektronischen Komponenten beinhalten. Derartige eGloves und eBodySuits bilden dabei eine neuartige multimodale Schnittstelle zwischen Mensch und Maschine, indem sie visuelle, akustische und haptische Informationen aufnehmen, interpretieren und zurückgegeben können.  

 

More information:
ITM
Source:

Technische Universität Dresden
Institut für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM)

HUNTSMAN and the CHEMOURS Company Expand Longstanding Alliance CHEMOURS & HUNTSMANN
Logos HUNTSMAN and CHEMOURS
12.10.2018

HUNTSMAN and the CHEMOURS Company Expand Longstanding Alliance

  • Huntsman Textile Effects and The Chemours Company FC, LLC (‘Chemours’) have agreed to expand their long-term alliance in the area of durable water repellence (DWR).

Singapore – By combining the strengths of both companies in innovation, technical support and marketing, the expanded co-operation unlocks the full potential of the alliance to develop and deliver new, sustainable DWR solutions and chemistry.  This historical alliance that was established in the early 1990s has been at the forefront of delivering state-of-the-art solutions to the textile industry for durable water repellent effects. In addition to
fluorinated solutions, the expanded alliance will now be able to offer non-fluorinated alternatives as well. The alliance will cover different aspects of the value chain including research, marketing, technical support and manufacturing.

  • Huntsman Textile Effects and The Chemours Company FC, LLC (‘Chemours’) have agreed to expand their long-term alliance in the area of durable water repellence (DWR).

Singapore – By combining the strengths of both companies in innovation, technical support and marketing, the expanded co-operation unlocks the full potential of the alliance to develop and deliver new, sustainable DWR solutions and chemistry.  This historical alliance that was established in the early 1990s has been at the forefront of delivering state-of-the-art solutions to the textile industry for durable water repellent effects. In addition to
fluorinated solutions, the expanded alliance will now be able to offer non-fluorinated alternatives as well. The alliance will cover different aspects of the value chain including research, marketing, technical support and manufacturing.

“Strengthening the partnership between Huntsman Textile Effects and Chemours unlocks the full potential of both companies to shape technology and product offerings in sustainable durable water repellency. Our cooperation, which has stood the test of time, has clearly demonstrated that strong environmental credentials and performance can co-exist in equal measure. We are excited to move forward with a broader alliance as we strengthen our position as the industry leader in DWR textile solutions,” said Jay Naidu, Vice President, Strategic Marketing and Planning, Huntsman Textile Effects.

“Chemours is excited to expand our partnership with Huntsman Textile Effects. This partnership reinforces our commitment to take a leadership role in the innovation and development of more sustainable and high performing products that address the rapidly evolving needs of the textile industry and the consumers that use these products,” said Jesal Chopra, Vice President, Chemours Fluoropolymers.

Together, Huntsman Textile Effects and Chemours have worked to lead the textile industry’s transition  from long-chain water repellent products to more environmentally friendly short-chain chemistry and, more recently, non-fluorinated chemistry. The collaboration has resulted in new, market-leading DWR solutions that deliver on performance and sustainability. Chemours introduced Teflon EcoElite™ with Zelan™ R3 technology in 2015, a renewably sourced, non-fluorinated water repellent finish. Containing 60% plant-based materials* and complying with all key industry standards, Zelan™ R3 repellent offers excellent water repellency and durability while preserving fabric breathability. It meets or exceeds performance levels possible with fluorinated technologies. Teflon™ Eco Dry with Zelan™ R2 PLUS technology, which compliments Teflon EcoElite™, was recently introduced. Zelan™ R2 PLUS contains 30% renewably sourced plant-based raw materials* and is focused on delivering a high level of durable water repellency for all substrates.

In 2017, Huntsman Textile Effects introduced PHOBOTEX® RSY non-fluorinated durable water repellent, which was developed to specifically meet extreme protection, comfort and durability requirements for both synthetic and cellulosic fibers, delivering an enhanced environmental profile for brands. PHOBOTEX® RSY durable water repellent raises the bar in performance on synthetics, allowing brands to offer high-performance weather protection with an assurance of eco-friendly sustainability. Providing effective protection in extreme environments together with breathable comfort, PHOBOTEX® RSY durable water repellent repulses rain, sleet, and snow, ideal for highperformance outerwear fabrics.

Both companies bring a rich and established heritage firmly centered on research and innovation. Through their expanded alliance, joint research and development efforts in DWR enable Huntsman and Chemours to stay at the forefront of industry trends and regulatory changes for a more sustainable textile industry.

More information:
Huntsman Chemours
Source:

Huntsman Textile Effects

Dissertation and Creativity Award of the German Textile Machinery Foundation 2018 to go to Aachen (c) VDMA. Eric Otto, Susanne Fischer, Dr. Benjamin Weise, Peter D. Dornier (Chairman Walter Reiners-Stiftung), Alon Tal, Jan Merlin Abram (left to right)
01.10.2018

Dissertation and Creativity Award of the German Textile Machinery Foundation 2018 to go to Aachen

The Mechanical Engineering Industry Association (VDMA) has awarded two prizes to graduates of the Institut für Textiltechnik (ITA) of RWTH Aachen University - the dissertation prize and the creativity prize of the Walter Reiners Foundation of German Textile Machinery 2018. ITA alumnus Dr Benjamin Weise was awarded the dissertation prize for the development of novel fibres for textile charge storage devices. For their work on a guide to 4D product design, Jan Merlin Abram and Aalon Tal (both ITA students) were honoured with the creativity prize. The dissertation prize is endowed with €5,000 whilst the creativity prize contains a one-year scholarship of €250 per month. Peter D. Dornier, President of the Walter Reiners Foundation and Chairman of the Management Board of Lindauer DORNIER, presented the awards on the 18 September 2018 at the 18th Textile Machinery Forum in the Digital Capability Center in Aachen, Germany.

Graphene revolutionizes all-in-one - supercaps, reduction of terahertz radiation and antistatics

The Mechanical Engineering Industry Association (VDMA) has awarded two prizes to graduates of the Institut für Textiltechnik (ITA) of RWTH Aachen University - the dissertation prize and the creativity prize of the Walter Reiners Foundation of German Textile Machinery 2018. ITA alumnus Dr Benjamin Weise was awarded the dissertation prize for the development of novel fibres for textile charge storage devices. For their work on a guide to 4D product design, Jan Merlin Abram and Aalon Tal (both ITA students) were honoured with the creativity prize. The dissertation prize is endowed with €5,000 whilst the creativity prize contains a one-year scholarship of €250 per month. Peter D. Dornier, President of the Walter Reiners Foundation and Chairman of the Management Board of Lindauer DORNIER, presented the awards on the 18 September 2018 at the 18th Textile Machinery Forum in the Digital Capability Center in Aachen, Germany.

Graphene revolutionizes all-in-one - supercaps, reduction of terahertz radiation and antistatics

In his dissertation "Development of graphene-modified multifilament yarns for the production of textile charge storage devices", laureate Dr Benjamin Weise developed novel fibres made of polyamide and graphene and further processed them into textile surfaces. The newly developed polyamide graphene fibres are featuring a multitude of advantages:

  • Due to their high performance in the charge storage area, they are predestined for use in double-layer capacitors, so-called super capacitors, or supercaps in short. Compared to lithium-ion batteries, supercaps offer significantly higher power density and a longer lifetime as no chemical reactions are taking place. towing to the graphene platelets in the filaments, it is now possible for the first time to integrate a charge storage device directly into a textile without having to sew in a rechargeable battery. This new fibre is therefore suitable for prospective use in smart textiles, for instance in a textile defibrillator.
  • The new graphene-modified polyamide fibres can attenuate inident terahertz radiation up to 25 % of their original intensity. Terahertz radiation, for example, offers transmission rates of 100 Mbit/sec and is therefore of high interest for high-performance wireless communication. However, the radiation could damage sensible electronics as in aircrafts if this technology will be used widespread. Consequently, the shielding of the radiation is of high importance, e.g. in the form of fibre composite components in the aircraft, which protect the on-board electronics.
  • As the fibres are showcasing a dissipative electrical conductivity, personal protective equipment is another prospective field of application.  

The development of a pilot process for graphene-modified fibres and the production of textile demonstrators are novel and disruptive attainments of Dr Weise’s PhD thesis and the reason for the award ceremony to him. Due to its outstanding properties, the European Union is funding research on graphene within the frame of the "Graphene Flagship" with an overall budget of one billion Euro (source: http://graphene-flagship.eu/project/Pages/About-Graphene-Flagship.aspx).

Modular product design of 4D products is now possible in simplified form

How can three-dimensional products change their shape over time and thus become "four-dimensional"? The students Jan Merlin Abram and Aalon Tal provide answers to this question in their project work "Leitfaden zur Auslegung hybrider morphender Textilien am Beispiel eines Scharniers" (Guidelines for the Design of Hybrid Morphing Textiles Using the Example of a Hinge), for which they were awarded the creativity prize. In their work, the students offer a guideline for the development of a four-dimensional textile from the idea to the demonstrator. Four-dimensional textiles, for example, consist of a hybrid material of elastic textile on which three-dimensional structures are printed. The fourth dimension describes the change in shape and/or a property over a defined period of time (= morphing).  This change is caused by external influences such as light and heat.

Every year, the Foundation of the German Textile Machinery awards prizes for the best dissertation, diploma or master's thesis and the creativity prize for the smartest student research project. Further prizes were awarded to Eric Otto, ITM Dresden, and Susanne Fischer, Reutlingen University.

Source:

Institut für Textiltechnik of RWTH Aachen University

ITA

Borealis strengthens its commitment to plastics recycling and further develops mechanical recycling capabilities (c) Borealis
29.08.2018

Borealis strengthens its commitment to plastics recycling and further develops mechanical recycling capabilities

  • Successful acquisition of Austrian plastics recycling company Ecoplast Kunststoffrecycling GmbH

Borealis, a leading provider of innovative solutions in the fields of polyolefins, base chemicals and fertilizers, announces today that it has fully acquired the Austrian plastics recycler Ecoplast Kunststoffrecycling GmbH (“Ecoplast”). Based in Wildon, Austria, Ecoplast processes around 35,000 tonnes of post-consumer plastic waste from households and industrial consumers every year, turning them into high-quality LDPE and HDPE recyclates, primarily but not exclusively for the plastic film market.

  • Successful acquisition of Austrian plastics recycling company Ecoplast Kunststoffrecycling GmbH

Borealis, a leading provider of innovative solutions in the fields of polyolefins, base chemicals and fertilizers, announces today that it has fully acquired the Austrian plastics recycler Ecoplast Kunststoffrecycling GmbH (“Ecoplast”). Based in Wildon, Austria, Ecoplast processes around 35,000 tonnes of post-consumer plastic waste from households and industrial consumers every year, turning them into high-quality LDPE and HDPE recyclates, primarily but not exclusively for the plastic film market.

The expectation of Borealis is that the recycled PO market will grow substantially by 2021, which is the strategic rationale behind the acquisition. The company has made PO recycling a key element of its overall PO strategy because of its potential to support both growth and sustainability. Borealis has been an industry frontrunner in making polyolefins more circular. In 2014, it began offering high-end compound solutions to the automotive industry, consisting of 25% and 50% post-consumer recycled content. Borealis was also the first virgin PO producer to explore the possibilities of mechanical recycling, by acquiring one of Europe's largest producers of post-consumer polyolefin recyclates - mtm plastics GmbH and mtm compact GmbH – in July 2016. Since then it has continued to invest into the development of technology and new products in the area of circular polyolefins.

“Borealis recognises the increasing need for plastic recycling and sees the Circular Economy as a business opportunity. Borealis already has a long-term collaboration with Ecoplast and this acquisition is the next logical step in building our mechanical recycling capabilities. As an important complement to mtm in Germany, Ecoplast will help us address critical sustainability challenges and become a polyolefin recycling leader. Eventually, we want to use our experience to develop an effective blueprint for the end-of-use phases for plastics that can be applied in other parts of the world,” says Borealis Chief Executive Alfred Stern.

“We are very happy that the transaction with a strong and reliable partner such as Borealis has been successfully concluded and are looking forward to our common future activities on the recycling market. We have located potential synergies in many operative and strategic areas, especially in product quality R&D and future applications of polyethylene-film-recyclates. The combination of Ecoplast and Borealis holds the potential to be groundbreaking for the market,” says Ecoplast’s Managing Director Lukas Intemann.

29.06.2018

Kenner Louisiana’s Ventura Uniform Services Recertified Hygienically Clean

Emphasis on Process, Third-party Validation and Outcome-based Testing

Ventura Uniform Services of Kenner, Louisiana has had their certification renewed for Hygienically Clean Healthcare, reflecting their commitment to best management practices (BMPs) in laundering as verified by on-site inspection and their capability to produce hygienically clean textiles as quantified by ongoing microbial testing.

The laundry was first certified in 2014. Recertification confirms the organization’s continuing dedication to infection prevention, compliance with recognized industry standards and processing healthcare textiles using BMPs as described in its quality assurance documentation, a focal point for Hygienically Clean inspectors’ evaluation. The independent, third-party inspection must also confirm essential evidence that:

Emphasis on Process, Third-party Validation and Outcome-based Testing

Ventura Uniform Services of Kenner, Louisiana has had their certification renewed for Hygienically Clean Healthcare, reflecting their commitment to best management practices (BMPs) in laundering as verified by on-site inspection and their capability to produce hygienically clean textiles as quantified by ongoing microbial testing.

The laundry was first certified in 2014. Recertification confirms the organization’s continuing dedication to infection prevention, compliance with recognized industry standards and processing healthcare textiles using BMPs as described in its quality assurance documentation, a focal point for Hygienically Clean inspectors’ evaluation. The independent, third-party inspection must also confirm essential evidence that:

  • Employees are properly trained and protected
  • Managers understand regulatory requirements
  • OSHA-compliant
  • Physical plant operates effectively

To achieve certification initially, laundries pass three rounds of outcome-based microbial testing, indicating that their processes are producing Hygienically Clean Healthcare textiles and diminished presence of yeast, mold and harmful bacteria. They also must pass a facility inspection. To maintain their certification, they must pass quarterly testing to ensure that as laundry conditions change, such as water quality, textile fabric composition and wash chemistry, laundered product quality is consistently maintained. Re-inspection occurs every two to three years.

This process eliminates subjectivity by focusing on outcomes and results that verify textiles cleaned in these facilities meet appropriate hygienically clean standards and BMPs for hospitals, surgery centers, medical offices, nursing homes and other medical facilities.

Hygienically Clean Healthcare certification acknowledges laundries’ effectiveness in protecting healthcare operations by verifying quality control procedures in linen, uniform and facility services operations related to the handling of textiles containing blood and other potentially infectious materials.

Certified laundries use processes, chemicals and BMPs acknowledged by the federal Centers for Disease Control and Prevention (CDC), Centers for Medicare and Medicaid Services, Association for the Advancement of Medical Instrumentation, American National Standards Institute and others. Introduced in 2012, Hygienically Clean Healthcare brought to North America the international cleanliness standards for healthcare linens and garments used worldwide by the Certification Association for Professional Textile Services and the European Committee for Standardization.

Objective experts in epidemiology, infection control, nursing and other healthcare professions work with Hygienically Clean launderers to ensure the certification continues to enforce the highest standards for producing clean healthcare textiles.

“Congratulations to Ventura Uniform Services on their recertification,” said Joseph Ricci, TRSA president and CEO. “This achievement proves their ongoing commitment to infection prevention and that their laundry takes every step possible to prevent human illness.”

28.06.2018

COOPERATION BY BOREALIS AND HENKEL PRODUCES PLASTIC BOTTLE AND NOZZLE COMPOSED 100% OF POST-CONSUMER RECYCLED MATERIAL

Packaging solution made of 100% plastic recyclate delivers circular economy proof point
Borealis, a leading provider of innovative solutions in the fields of polyolefins, base chemicals and fertilizers, announces the successful launch of a new packaging solution produced entirely with post-consumer recycled (PCR) material. Developed in close collaboration with the German consumer and industrial goods company Henkel and two additional value chain partners, this truly sustainable packaging solution is further evidence of how mtm plastics GmbH, a member of the Borealis Group, is helping increase the circularity of plastics. The launch has significance for the consumer goods industry because the robustness of this new packaging solution provides further evidence that plastic recyclate is indeed suitable for a variety of demanding packaging applications, in this case a popular adhesive brand marketed by Henkel.

Value chain collaboration yields plastic bottle and nozzle composed of 100% PCR material

Packaging solution made of 100% plastic recyclate delivers circular economy proof point
Borealis, a leading provider of innovative solutions in the fields of polyolefins, base chemicals and fertilizers, announces the successful launch of a new packaging solution produced entirely with post-consumer recycled (PCR) material. Developed in close collaboration with the German consumer and industrial goods company Henkel and two additional value chain partners, this truly sustainable packaging solution is further evidence of how mtm plastics GmbH, a member of the Borealis Group, is helping increase the circularity of plastics. The launch has significance for the consumer goods industry because the robustness of this new packaging solution provides further evidence that plastic recyclate is indeed suitable for a variety of demanding packaging applications, in this case a popular adhesive brand marketed by Henkel.

Value chain collaboration yields plastic bottle and nozzle composed of 100% PCR material
In 2016, Borealis acquired leading German recycler mtm plastics GmbH, which is now a member of the Borealis Group. By leveraging their respective areas of expertise and decades of experience as a virgin polyolefins producer and “upcycler”, respectively, Borealis and mtm plastics are exploring new growth opportunities with joint forces.

A success story originating from this exploration is a recently completed pilot project with Henkel, the global leader for adhesives, sealants and functional coatings. The companies have worked to develop a new packaging solution based on recycled material for the Made-at-Home all-purpose glue bottle and cap, which Henkel is marketing under its well-known Pattex brand.  The aim was to replace the virgin plastic material traditionally used for this packaging with a recyclate-based resin. The resin, however, had to fulfil the diverse material demands for packaging of an adhesive product.

After extensive and joint application development, a new bottle was developed with the proprietary mtm product Purpolen® PE, a high-quality polyethylene regranulate produced by mtm at its facilities in Niedergebra, Germany. Value chain partner KKT Kaller Kunststoff Technik GmbH, a plastics processor also based in Germany, manufactured the bottles. For the three separate components of the adjustable applicator nozzle, which is used for both filigree and wide-area gluing, high-quality Purpolen® PP polypropylene regranulate produced by mtm was identified as the ideal solution. German plastic components manufacturer bomo trendline Technik GmbH produced the applicator nozzles.

The new Pattex Made-at-Home packaging solution successfully passed extensive application tests, including a three-month storage test and other tests of mechanical properties. It was launched on the European market in 2018.

“Our commitment to leadership in sustainability is deeply embedded in our companies´ values,” explained Matthias Schaefer, Project Manager for Global Packaging Engineering at Henkel Adhesive Technologies. “We are at the forefront of the industry when it comes to new sustainability strategies in packaging.  Thus, we identified Pattex Made-at-Home as a candidate for exploring the use of recyclate instead of virgin plastics. This constructive collaboration with our partners proves the viability of 100% PCR material for an adhesive product like Made-at Home. It also underscores our efforts at Henkel to drive leadership in sustainability in the consumer goods sector.”

“As a virgin polyolefins producer, Borealis is thrilled to be among the pioneers in using plastic recyclate in new applications,” says Günter Stephan, Head of Borealis Circular Economy Solutions. “Even though momentum is gaining in the drive to increase the circularity of plastics, we still need to prove without a doubt within the industry that using recyclates – and even 100% PCR – is a suitable and effective option, even for demanding applications. Thanks to this successful value chain cooperation with our partners Henkel, KKT and bomo, we are giving plastics a second life and are thus one step closer to the goal of a more circular economy of plastics.”
 

Source:

Borealis Group