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14.10.2021

Monforts: Automated finishing at Knopf’s Sohn

Knopf’s Sohn, a contract finisher of technical textiles, has installed a fully automated Montex stenter at its plant in Helmbrechts, Germany.
Knopf’s Sohn is processing technical textiles for the automotive, aerospace, home furnishings and workwear markets, based on wool, cellulose, polyamide and polyester fabrics, along with elastane blends, in weights of 80-800gsm.

The Montex machinery range is constantly being upgraded to meet evolving customer needs for greater automation, ease of operation and energy optimisation. The latest ten chamber line at Knopf’s Sohn, with a working width of up to 2.0 metres, was engineered to specific requirements in order to accelerate the company’s move to fully automatic control of its production, and high scaffolding was required for its installation.

The line benefits from two integrated ECO Booster modules to provide high energy savings. These compact, air-to-air heat exchangers, installed within the roof structure of the line, exploit energy from the exhaust gas to preheat up to 60% of the incoming fresh air entering the stenter.

Knopf’s Sohn, a contract finisher of technical textiles, has installed a fully automated Montex stenter at its plant in Helmbrechts, Germany.
Knopf’s Sohn is processing technical textiles for the automotive, aerospace, home furnishings and workwear markets, based on wool, cellulose, polyamide and polyester fabrics, along with elastane blends, in weights of 80-800gsm.

The Montex machinery range is constantly being upgraded to meet evolving customer needs for greater automation, ease of operation and energy optimisation. The latest ten chamber line at Knopf’s Sohn, with a working width of up to 2.0 metres, was engineered to specific requirements in order to accelerate the company’s move to fully automatic control of its production, and high scaffolding was required for its installation.

The line benefits from two integrated ECO Booster modules to provide high energy savings. These compact, air-to-air heat exchangers, installed within the roof structure of the line, exploit energy from the exhaust gas to preheat up to 60% of the incoming fresh air entering the stenter.

The use of a single ECO Booster unit has been calculated to save up to 35% in energy costs, based on fixation processes. Fully automatic operation, set at the Monforts Qualitex control unit, ensures there is no additional burden on the machine operator.

The line is powered by Exxotherm indirect heating, which practically eliminates the yellowing which can be experienced during the treatment of certain polyamide and elastane-based fabrics, and is also equipped with a Conticlean circulating air filter system for constant high drying capacity.

Software
The latest Qualitex visualisation software offers operators reliability and easy control with its full HD multi-touch monitor and slider function, dashboard function with individual adaptation to operating states and faster access to comprehensive recipe data management.

With the Monformatic control system, the exact maintenance of the dwell time in combined treatment processes (drying and heat-setting) can be monitored. When the heat-setting point is reached, the fan speed is automatically adjusted, keeping energy consumption fully under control.

Source:

A. Monforts Textilmaschinen GmbH & Co. KG / AWOL Media

New EFI Fiery Platform for Production Print (c) EFI
14.10.2021

New EFI Fiery Platform for Production Print

Electronics For Imaging, Inc. announces its newest digital front end (DFE) server solution for digital printing – the EFI™ Fiery® FS500 Pro platform. Fiery FS500 Pro will help print providers meet the challenges of shorter runs, faster turnaround times, less experienced staff, increased security standards and the need to reduce cost. The new Fiery DFE platform brings innovation to an extensive line-up of new digital printers coming for office, commercial, in-plant, packaging, and textile printing.  

The Fiery FS500 Pro platform features five key areas:

Electronics For Imaging, Inc. announces its newest digital front end (DFE) server solution for digital printing – the EFI™ Fiery® FS500 Pro platform. Fiery FS500 Pro will help print providers meet the challenges of shorter runs, faster turnaround times, less experienced staff, increased security standards and the need to reduce cost. The new Fiery DFE platform brings innovation to an extensive line-up of new digital printers coming for office, commercial, in-plant, packaging, and textile printing.  

The Fiery FS500 Pro platform features five key areas:

  • Faster job processing. Print providers will benefit from faster job processing time and up to 40% faster application launch time to produce more jobs per shift.
  • Faster turnaround time for short runs. Advanced Fiery features speed up administration and production of print jobs in fast moving print shops.
  • More sellable print, less waste. Fiery FS500 Pro has more tools available for detecting potential errors in files, reducing both production time and waste.
  • More-accurate brand colors. A new Fiery TrueBrand solution for corporate users makes it easy to ensure accurate printing of brand colors from Microsoft Word or PowerPoint.
  • Advanced security. Fiery FS500 Pro provides new features for high security environments, ensuring compliance with customer security requirements and industry standards.
Visionary building – with composite textiles by vombaur (c)vombaur
From the H-profile to the chamber structure – vombaur offers individually developed composite textiles with complex shapes
13.10.2021

Visionary building – with composite textiles by vombaur

  • Hightech textiles for future-oriented construction projects

Building shells, bridges, staircases, façades ... construction projects are exposed to enormous mechanical loads. Often there are also considerable climatic or environmental influences. This has prompted the increasing use of fibre-reinforced materials in construction projects. After all, besides many other exciting properties, they offer high mechanical rigidity, low weight and excellent corrosion resistance.

Tapes, tubulars, sections and 3D woven textiles by vombaur form the perfect basis for these innovative building materials. The seamless round or shaped woven narrow textiles made of high-performance fibres are extremely loadable because they have neither seams nor welds – and therefore no undesirable breaking points. Their surface properties are identical over the entire length. In challenging tasks, composite textiles by vombaur offer a lightweight solution that is as reliable as it is durable.

  • Hightech textiles for future-oriented construction projects

Building shells, bridges, staircases, façades ... construction projects are exposed to enormous mechanical loads. Often there are also considerable climatic or environmental influences. This has prompted the increasing use of fibre-reinforced materials in construction projects. After all, besides many other exciting properties, they offer high mechanical rigidity, low weight and excellent corrosion resistance.

Tapes, tubulars, sections and 3D woven textiles by vombaur form the perfect basis for these innovative building materials. The seamless round or shaped woven narrow textiles made of high-performance fibres are extremely loadable because they have neither seams nor welds – and therefore no undesirable breaking points. Their surface properties are identical over the entire length. In challenging tasks, composite textiles by vombaur offer a lightweight solution that is as reliable as it is durable.

Safe and durable solutions for challenging applications
The potential applications for lightweight components in the construction industry are as numerous as the project ideas of the planning and construction teams.
•    Ropes and tensioning elements made of carbon fibre reinforced plastic (CFRP)
•    Reinforcement of building structures made of concrete, steel, wood or other materials
•    Sustainable restructuring of constructions and urban districts for bridges and buildings
•    CFC slats as reinforcements in case of repairs
•    (Filled) GRP pipes made of seamless round woven tubes by vombaur as columns/pillars
•    CFRP sections as steel girder substitutes
•    Hollow profiles with individually designed cross-sections
•    Glass fibre reinforced connecting elements for glazing to minimise expansion differences between the connecting element and the glass
•    Individual light wells

Implementing visions – with composite textiles by vombaur
As your development partner, vombaur facilitates innovative composites projects for challenging applications. In innovative and safety-sensitive industries such as automotive and aviation, chemical and plant engineering.  The composites experts at vombaur develop, create samples of and manufacture woven tapes and seamless round or shaped woven textiles by vombaur – in collaboration with the customer's enterprise development teams and individually for the respective projects. This is how novel and unique lightweight components made of high-performance textiles are created for visionary lightweight construction projects.

"Fibre-reinforced composites are the ideal material for future-oriented construction projects," explains Dr.-Ing. Sven Schöfer, Head of Development and Innovation at vombaur. "Their outstanding technical properties and design possibilities open up new and fascinating perspectives for construction projects. From building construction to civil engineering, from bridge construction to interior design. As an experienced development partner for sophisticated lightweight components, we at vombaur contribute our seamless solutions to these kinds of future-oriented projects."

More information:
vombaur Composites carbon fibers
Source:

vombaur GmbH & Co. KG

Composite textiles by vombaur for innovations in architecture and the construction industry (c) vombaur
Low effort, low weight: Maintenance with fibre-reinforce materials
13.10.2021

Composite textiles by vombaur for innovations in architecture and the construction industry

  • Composites in the construction industry - The lightweight construction material of the future

Building with fibre-reinforced materials opens up completely new possibilities. In terms of engineering, design, and organisation. This is due, on the one hand, to the excellent properties of fibre-reinforced materials (FRM) and, on the other hand, to the fact that the material – unlike wood or brick, for example – is not machined or processed for its use, but custom-produced.

Excellent properties – in terms of engineering, design, and organisation
Fibre-composite materials offer a whole range of technical properties for innovative and sustainable building:
•    High mechanical rigidity
•    Low weight
•    High corrosion resistance
•    Low material fatigue
•    Low heat transfer coefficient of the plastic matrix
•    Resistance to frost and de-icing salt
•    Good draping capability

  • Composites in the construction industry - The lightweight construction material of the future

Building with fibre-reinforced materials opens up completely new possibilities. In terms of engineering, design, and organisation. This is due, on the one hand, to the excellent properties of fibre-reinforced materials (FRM) and, on the other hand, to the fact that the material – unlike wood or brick, for example – is not machined or processed for its use, but custom-produced.

Excellent properties – in terms of engineering, design, and organisation
Fibre-composite materials offer a whole range of technical properties for innovative and sustainable building:
•    High mechanical rigidity
•    Low weight
•    High corrosion resistance
•    Low material fatigue
•    Low heat transfer coefficient of the plastic matrix
•    Resistance to frost and de-icing salt
•    Good draping capability

In addition, fibre composites offer numerous design options for novel and exceptional new building and maintenance projects:
•    Unique variety of shapes
•    Different structures of the textiles
•    Large spectrum of colours and colour combinations
•    Translucency of the plastic matrix
Thanks to these properties, composites can be used to produce coloured, phosphorescent, thermochromic or – through the use of LEDs or light-conducting fibres permanently integrated into the matrix – luminescent components.

In addition, there are organisational benefits for planning, construction and maintenance work with fibre-reinforced materials:
•    Easier handling and assembly of the far lighter and more flexible components – compared with steel, concrete or wood
•    Faster installation
•    Shorter construction site times in road and bridge maintenance
•    Shorter delivery times
•    Ability to integrate electronic monitoring systems

Individual composite textiles – for every lightweight engineering project
The composites experts at vombaur develop and manufacture woven tapes and seamless round or shaped woven textiles from carbon, glass, flax or other high-performance fibres on special weaving lines for individually specified round and shaped woven textiles – and can therefore offer you the best possible fibre base for every lightweight construction project.

"Regardless of whether it's a new construction or a renovation project, a façade design, a bridge or a staircase – as your development partner for composite textiles, we have plenty of experience with composites for demanding tasks," emphasises Dr.-Ing. Sven Schöfer, Head of Development and Innovation at vombaur. "We develop, create samples and manufacture woven tapes and seamless round or shaped woven textiles – in collaboration with the customer enterprise development teams and individually for the respective projects." This is how novel and unique lightweight components made of high-performance textiles are created for visionary projects.

13.10.2021

Launch of EFI Reggiani TERRA Silver

  • EFI Reggiani TERRA Silver Makes Debut at Fespa Global Print Expo 2021 for a Short, Smart and Green Process
  • The new, industrial, entry-level EFI™ Reggiani TERRA Silver textile printer from Electronics For Imaging, Inc. is making its debut at the Fespa Global Print Expo 2021 tradeshow, 12-15 October at RAI Amsterdam.
  • The EFI Reggiani TERRA Silver uses unique TERRA pigment ink for high-quality, highly sustainable direct-to-textile printing without steaming or washing.       

“This is one of the first trade shows to return after the pandemic, and we are very excited to again meet customers in person and showcase an innovative offering that delivers superior printing results while using less time, water and energy,” said EFI Reggiani Vice President and General Manager Adele Genoni. “We are introducing this advanced EFI Reggiani TERRA Silver solution to the many print service providers at Fespa, presenting them with an ideal path to enter the industrial textile segment with a short, smart and green production process.”

  • EFI Reggiani TERRA Silver Makes Debut at Fespa Global Print Expo 2021 for a Short, Smart and Green Process
  • The new, industrial, entry-level EFI™ Reggiani TERRA Silver textile printer from Electronics For Imaging, Inc. is making its debut at the Fespa Global Print Expo 2021 tradeshow, 12-15 October at RAI Amsterdam.
  • The EFI Reggiani TERRA Silver uses unique TERRA pigment ink for high-quality, highly sustainable direct-to-textile printing without steaming or washing.       

“This is one of the first trade shows to return after the pandemic, and we are very excited to again meet customers in person and showcase an innovative offering that delivers superior printing results while using less time, water and energy,” said EFI Reggiani Vice President and General Manager Adele Genoni. “We are introducing this advanced EFI Reggiani TERRA Silver solution to the many print service providers at Fespa, presenting them with an ideal path to enter the industrial textile segment with a short, smart and green production process.”

The new-version TERRA Silver printer is part of EFI’s complete TERRA line-up of pigment ink printer solutions. It is a 180-cm wide printer that can print up to 190 sqm per hour with eight dual-channel printheads. The printer also features:

•    A new recirculating ink system for superior reliability and minimum maintenance
•    Several printing modes to ensure maximum flexibility in terms of design capability
•    New, real-time image processing that eliminates time spent in image pre-calculations
•    A user friendly, intuitive interface
•    A more-efficient polymerisation process that takes place as printed textile goes through the printer’s on-board dryer.

In Fespa stand 1-G71, attendees can see the EFI Reggiani TERRA Silver print smoothly and precisely on knitted and woven fabrics. The printer’s quality is evident in its high-uniformity printing modes, and it delivers numerous features that enhance the production process, including an accurate WYSIWYG interface and flexible queue management.
 
EFI Reggiani is also a leading developer of textile inks. The EFI Reggiani TERRA pigment inks used on the Silver model deliver excellent wet and dry fastness properties and remarkable sharpness in detail. Designed to leverage EFI Reggiani digital printers’ market-proven industrial performance capabilities, these eco-friendly, water-based inks provide an extraordinary level of print durability and yield longer print head life with reduced maintenance costs. The high-performance digital pigment inks also use an innovative binder technology for fast, sustainable, and cost-competitive industrial textile printing on the widest range of fabrics. Users also gain superior print definition and colour intensity.
 
This year, EFI Reggiani celebrates 75 years of heritage and innovation in the textile world. Always committed to deliver to the market new cutting-edge technologies, EFI Reggiani has world-class products offering boosted uptime and reliability, high performance throughput, and remarkable printing uniformity and accuracy – all while helping customers increase the sustainability of their textile manufacturing activities. Green EFI Reggiani processes give users fast, complete and sustainable solutions across a broad range of textile applications.
 
In this 75th anniversary year, EFI Reggiani has also launched several other ground-breaking solutions, such as EFI Reggiani HYPER, the fastest scanning digital printer on the market, and the EFI Reggiani BLAZE, an industrial entry-level, easy-to-use printer designed to give new textile companies the opportunity to adopt digital inkjet production with a compact solution to blaze a successful path into the industry.

Source:

Electronics For Imaging, Inc.

Projekt futureTEX präsentiert Highlights aus sieben Jahren Textilforschung (c) P3N MARKETING GMBH
In der Labtour durch die „Textilfabrik der Zukunft“ konnten die Vor-Ort-Teilnehmer Industrie 4.0 in der Textilindustrie live erleben
11.10.2021

Projekt futureTEX präsentiert Highlights aus sieben Jahren Textilforschung

Als interdisziplinäres Kompetenznetzwerk aus Industrie- und Forschungspartnern ist futureTEX 2014 gestartet, um den Wandel der traditionsreichen Textilbranche im Zeitalter der Digitalisierung zu einem zukunftsfähigen Industrieplayer – mit Technischen Textilien (TechTex) als Fundament – zu gestalten. In dieser Zeit ist das Konsortium auf mehr als 300 involvierte mittelständische Unternehmen, wissenschaftliche Einrichtungen und textile Branchenverbände angewachsen, die sich in insgesamt 34 Vorhaben der textilen Zukunft verschrieben haben. Das erklärte Ziel der Akteure bestand darin, die Position Deutschlands als Weltmarktführer im Textilmaschinenbau zu stärken sowie den Weg zu einer globalen Spitzenposition bei den Technischen Textilien bis 2025 zu ebnen.

Nun befindet sich das Projekt auf der Zielgeraden: Über 20 der insgesamt 34 Vorhaben wurden bereits erfolgreich abgeschlossen – Die noch in Arbeit befindlichen werden in den kommenden Monaten folgen.

Als interdisziplinäres Kompetenznetzwerk aus Industrie- und Forschungspartnern ist futureTEX 2014 gestartet, um den Wandel der traditionsreichen Textilbranche im Zeitalter der Digitalisierung zu einem zukunftsfähigen Industrieplayer – mit Technischen Textilien (TechTex) als Fundament – zu gestalten. In dieser Zeit ist das Konsortium auf mehr als 300 involvierte mittelständische Unternehmen, wissenschaftliche Einrichtungen und textile Branchenverbände angewachsen, die sich in insgesamt 34 Vorhaben der textilen Zukunft verschrieben haben. Das erklärte Ziel der Akteure bestand darin, die Position Deutschlands als Weltmarktführer im Textilmaschinenbau zu stärken sowie den Weg zu einer globalen Spitzenposition bei den Technischen Textilien bis 2025 zu ebnen.

Nun befindet sich das Projekt auf der Zielgeraden: Über 20 der insgesamt 34 Vorhaben wurden bereits erfolgreich abgeschlossen – Die noch in Arbeit befindlichen werden in den kommenden Monaten folgen.

Um die erreichten Ziele der vergangenen Projektjahre Revue passieren zu lassen sowie einen Ausblick zu geben, wie es nach Projektende weitergeht, hatte der Konsortialführer – das Sächsische Textilforschungsinstitut e.V. (STFI) – zur hybriden Abschlussveranstaltung geladen. Rund 50 Teilnehmer folgten online und vor Ort dem abwechslungsreichen Rahmenprogramm.*

 

*Weitere Informationen finden Sie im Anhang.

Picanol introduces online plattform for weaving (c) Picanol
08.10.2021

Picanol introduces online platform for weaving

With PicConnect, a new fully digital platform, Picanol is offering a wide range of features, from industrial IoT to service-related applications. PicConnect is a web-based application that can be accessed through a web browser on any device and it functions as the gateway to all Picanol’s digital services. The platform is cloud-based and it allows connecting the Picanol weaving machines to the platform in order to leverage its full extent of possibilities.

“PicConnect enables weavers to quickly react to changes in the weaving room, and it will have an immediate impact on the performance of the weaving machines. It will not only change how weavers interact with their machines but also the way they interact with Picanol. For this reason, Picanol can boldly state that PicConnect is bringing weavers into the era of intuitive weaving,” comments Johan Verstraete, Vice President Weaving Machines.

The first four applications that will be launched as part of PicConnect are: production monitoring, energy monitoring, style administration, and PartsLine, which is Picanol’s new online webshop.

With PicConnect, a new fully digital platform, Picanol is offering a wide range of features, from industrial IoT to service-related applications. PicConnect is a web-based application that can be accessed through a web browser on any device and it functions as the gateway to all Picanol’s digital services. The platform is cloud-based and it allows connecting the Picanol weaving machines to the platform in order to leverage its full extent of possibilities.

“PicConnect enables weavers to quickly react to changes in the weaving room, and it will have an immediate impact on the performance of the weaving machines. It will not only change how weavers interact with their machines but also the way they interact with Picanol. For this reason, Picanol can boldly state that PicConnect is bringing weavers into the era of intuitive weaving,” comments Johan Verstraete, Vice President Weaving Machines.

The first four applications that will be launched as part of PicConnect are: production monitoring, energy monitoring, style administration, and PartsLine, which is Picanol’s new online webshop.

Source:

Picanol

Virtual RISE Conference Highlights (c) INDA
RISE 2021 Award Winner Canopy
06.10.2021

Virtual RISE Conference Highlights

  • Next-Gen Technologies for Nonwovens/Engineered Materials
  • Canopy Respirator from Canopy Wins Innovation Award

145 professionals in product development, material science, and new technologies convened for the 11th conference edition of RISE®—Research, Innovation & Science for Engineered Fabrics, held virtually, Sept. 28-30. The event was co-organized by INDA, the Association of the Nonwoven Fabrics Industry, The Nonwovens Institute, and North Carolina State University.

The program focused on Nonwoven Material Science Developments, Sustainability, Increasing Circularity, Promising Innovations, Process Innovations, Material Innovations, Government/NGO Challenges to Single-Use Plastics, Machine-Assisted-Learning Development of Biopolymers, and Market Intelligence and Economic Insights.

Participants praised the high-quality program content, in-depth round table discussions, networking and Q&A’s where participants ask expert speakers questions pertaining to their focused presentations.

Highlights among the 26 presentations included

  • Next-Gen Technologies for Nonwovens/Engineered Materials
  • Canopy Respirator from Canopy Wins Innovation Award

145 professionals in product development, material science, and new technologies convened for the 11th conference edition of RISE®—Research, Innovation & Science for Engineered Fabrics, held virtually, Sept. 28-30. The event was co-organized by INDA, the Association of the Nonwoven Fabrics Industry, The Nonwovens Institute, and North Carolina State University.

The program focused on Nonwoven Material Science Developments, Sustainability, Increasing Circularity, Promising Innovations, Process Innovations, Material Innovations, Government/NGO Challenges to Single-Use Plastics, Machine-Assisted-Learning Development of Biopolymers, and Market Intelligence and Economic Insights.

Participants praised the high-quality program content, in-depth round table discussions, networking and Q&A’s where participants ask expert speakers questions pertaining to their focused presentations.

Highlights among the 26 presentations included

  • Sustainable Solutions for our Plastic Planet Predicament, by Marc A. Hillmyer, Ph.D., McKnight Presidential Endowed Chair, University of Minnesota;
  • Closed-Loop Recycling Pilot of Single-Use Face Masks by Peter Dziezok, Ph.D., Director of Open Innovation, Proctor & Gamble;
  • Innovating a Sustainable Future for Nonwovens: A European Perspective, by Matt Tipper, Ph.D., CEO, Nonwovens Innovation & Research Institute (NIRI);
  • Phantom Platform: The Polyolefin-cellulose Coformed Substrates Technology, by Fabio Zampollo, CEO and Founder of Teknoweb Materials; 
  • Guiding Environmentally Sustainable Innovations – From Reactive to Proactive Life Cycle Management, by Valentina Prado, Ph.D., Senior Sustainability Analyst, EarthShift Global LLC;  
  • High-Loft, Ultra-Soft Hygiene Solutions, Paul E. Rollin, Ph.D., Senior Principal Scientist – Global Hygiene, Propylene-Vistamaxx-Adhesion (PVA) Global Technology, ExxonMobil Chemical Company;
  • Canadian Plastic Policy Update, by Karyn M. Schmidt, Senior Director, Regulatory & Technical Affairs, American Chemistry Council (ACC).

Other highlights included the announcement of Canopy Respirator as the winner of this year’s RISE® Innovation Award winner. The annual award recognizes innovation in areas within and on the periphery of the nonwovens industry which use advanced science and engineering principles to develop unique or intricate solutions to problems and advance the usage of nonwovens.

RISE® Innovation Award Winner
The RISE® Innovation Award was presented to Canopy for their Canopy Respirator. The productis an innovative respirator that is fully mechanical, non-electrostatic, with a filter designed for superior breathability while offering the wearer facial transparency. The breakthrough respirator features 5.5mm water column resistance at 85 liters (3 cubic feet) per minute, 2-way filtration, and a pleated filter that contains over 500 square centimeters of surface area. The patented Canopy respirator resists fluids, and eliminates fogging of eyeglasses.

Source:

INDA, Association of the Nonwoven Fabrics Industry

PrimaLoft senkt Emissionen um bis zu 70 Prozent dank Weiterentwicklung der PrimaLoft® P.U.R.E.™ Fertigungstechnologie (c) PrimaLoft
PrimaLoft® P.U.R.E.™ Fertigungstechnologie
05.10.2021

Mit neuen Prozessen zu einer besseren CO2-Bilanz

  • PrimaLoft senkt Emissionen um bis zu 70 Prozent dank Weiterentwicklung der PrimaLoft® P.U.R.E.™ Fertigungstechnologie

Der weltweit führende Anbieter innovativer Isolations- und Funktionsmaterialien PrimaLoft, hat weiter an seinen Produktionsprozessen gefeilt und die PrimaLoft® P.U.R.E.™ Fertigungstechnologie aktualisiert. Mit der Weiterentwicklung der firmeneigenen Technologie werden die CO2-Emissionen in der Produktion nun um bis zu 70 Prozent gesenkt – zuvor lagen die Einsparungen bereits bei beachtlichen 48 Prozent. Die ersten Produkte mit der neuen Version von PrimaLoft® P.U.R.E.™ von Markenpartnern wie beispielsweise Stone Island oder Patagonia, werden ab der Saison Herbst/Winter 2022 im Handel sein.

PrimaLoft® P.U.R.E.™ wurde erstmals im Jahr 2019 vorgestellt und steht für „Produced Using Reduced Emissions“. Die innovative Herstellungstechnik ist ein zentraler Bestandteil im Bestreben von PrimaLoft nach dem Motto Relentlessly Responsible™ möglichst nachhaltige Produkte zu entwickeln, ohne dabei Kompromisse in Sachen Leistung und Langlebigkeit einzugehen.

  • PrimaLoft senkt Emissionen um bis zu 70 Prozent dank Weiterentwicklung der PrimaLoft® P.U.R.E.™ Fertigungstechnologie

Der weltweit führende Anbieter innovativer Isolations- und Funktionsmaterialien PrimaLoft, hat weiter an seinen Produktionsprozessen gefeilt und die PrimaLoft® P.U.R.E.™ Fertigungstechnologie aktualisiert. Mit der Weiterentwicklung der firmeneigenen Technologie werden die CO2-Emissionen in der Produktion nun um bis zu 70 Prozent gesenkt – zuvor lagen die Einsparungen bereits bei beachtlichen 48 Prozent. Die ersten Produkte mit der neuen Version von PrimaLoft® P.U.R.E.™ von Markenpartnern wie beispielsweise Stone Island oder Patagonia, werden ab der Saison Herbst/Winter 2022 im Handel sein.

PrimaLoft® P.U.R.E.™ wurde erstmals im Jahr 2019 vorgestellt und steht für „Produced Using Reduced Emissions“. Die innovative Herstellungstechnik ist ein zentraler Bestandteil im Bestreben von PrimaLoft nach dem Motto Relentlessly Responsible™ möglichst nachhaltige Produkte zu entwickeln, ohne dabei Kompromisse in Sachen Leistung und Langlebigkeit einzugehen.

Für die neueste Version von PrimaLoft® P.U.R.E.™ hat das Entwicklerteam die Materialien, das Produktdesign und den Produktionsprozess selbst im Detail analysiert und jeden Bereich optimiert, um die während der Herstellung entstehenden CO2-Emissionen drastisch zu reduzieren. PrimaLoft hat damit die Fertigung synthetischer Isolationen, die seit Jahrzehnten auf fossilen Brennstoffen wie Kohle und Erdgas basiert, grundlegend verändert. PrimaLoft® P.U.R.E.™ ist ein ganzheitlicher Ansatz, der Materialien, technische Abläufe, Anlagen und Energieerzeugung perfekt aufeinander abstimmt, womit eine signifikante Senkung des CO2-Ausstoßes möglich ist. Die hauseigene Produktionstechnik spart bis zu 70 % der CO2-Emissionen im Vergleich zu den in der Branche immer noch weit verbreiteten traditionellen Methoden.

„PrimaLoft® P.U.R.E.™ ist in unserem Unternehmensziel ein großer Schritt nach vorn und ein wichtiger Baustein unserer Relentlessly Responsible™ Mission, der die Art und Weise, wie wir unsere Produkte herstellen, in den Fokus rückt. Wir nehmen jedes Material, jede Rezeptur, jeden Prozess und jede Ausrüstung genau unter die Lupe mit dem Ziel, CO2-Emissionen zu reduzieren und gleichzeitig unsere Produktqualität und Leistungsmerkmale zu erhalten,“ sagte Mike Joyce, Präsident und CEO von PrimaLoft.

Drei neue Produkte stehen mit der neuesten Version der PrimaLoft® P.U.R.E.™-Herstellungstechnologie für Markenpartnern zur Verfügung und werden in deren Kollektionen voraussichtlich ab der Saison Sommer bzw. Winter 2022 verwendet werden. PrimaLoft® Gold Insulation P.U.R.E.™, PrimaLoft® Silver

Insulation P.U.R.E.™ und PrimaLoft® Black Insulation P.U.R.E.™. Alle neuen Isolationsprodukte werden aus 100 % recyceltem Polyester hergestellt.

Joyce weiter: „Diese bedeutende Veränderung unserer Fertigungstechnik ist allerdings nicht der einzige Bereich, in dem wir CO2-Emissionen einsparen. Seit 1997 verwenden wir für die Herstellung von PrimaLoft-Produkten, wo immer möglich, recyceltes Post-Consumer-Material anstelle von Virgin Polyester, ohne die Leistung zu beeinträchtigen. Das trägt, unabhängig von PrimaLoft® P.U.R.E.™, schon erheblich zur Senkung unserer Emissionen bei. Wir haben ermittelt, dass wir allein dadurch seit 2015 rund 16.000 Tonnen CO2 eingespart haben. Wir gehen davon aus, dass sich unser gesamter CO2-Fußabdruck weiter drastisch reduzieren wird, wenn wir die PrimaLoft® P.U.R.E.™ Technologie Stück für Stück auf unsere gesamte Produktpalette erweitern.“

Die neue Fertigungstechnologie ermöglicht es Herstellern besonders umweltschonende Produkte zu fertigen, deren CO2-Fußabdruck durch PrimaLoft® P.U.R.E.™ drastisch reduziert werden kann. Bereits zum kommenden Herbst-Wintersaison 2021/22 sind erste Produkte mit der ursprünglichen Version von PrimaLoft® PURE™ (knapp 50 Prozent CO2-Reduktion) im Handel erhältlich. Darunter Modelle von Marken wie Patagonia, Alpkit, Bergans of Norway, Kodiak, PYUA und Viking. Die bekannte Menswear-Fashionbrand Stone Island hat ebenfalls angekündigt, PrimaLoft® P.U.R.E.™ ab Herbst 2022 zu verwenden.

Einen weiteren wichtigen Schritt in Richtung Reduktion von Kohlenstoffdioxidemissionen plant PrimaLoft® durch die Zusammenarbeit mit dem US-Firma Origin Materials zu machen, die sich auf die Entwicklung CO2-negativer Materialien spezialisiert hat. Das gemeinsame Programm arbeitet an Hochleistungsisolationsfasern für die Bekleidungsbranche, basierend auf CO2-negativem PET und Next-Generation-Polymeren, die aus Holzabfällen gefertigt werden. Die Zusammenarbeit wurde im April 2021 verkündet.

(c) Trützschler
Ralf Helbig, R & D Engineer for Air Technology (left) and Christian Freitag, Head of Air Technology at Trützschler (right).
27.09.2021

Trützschler: TC 19i sets the benchmark for energy-efficient carding

Global energy consumption reached a record high in 2019, following a 40-year trend for rapidly increasing energy demand that was only halted by the Coronavirus pandemic. It’s estimated that more than 80 % of this energy is still generated from fossil fuels that produce CO2 emissions and contribute to climate change. Renewable energy offers a solution to this problem, but saving energy whenever possible is an even more effective approach. That are the motives for Trützschler to develop the intelligent card TC 19i, which sets a new benchmark for energy-efficient carding.

The intelligent Trützschler card TC 19i features the unique T-GO gap optimizer, which continuously and automatically monitors and adjusts the carding gap to an ideal position during production. Innovative drive- and air technology further reduce energy consumption of the TC 19i.

Global energy consumption reached a record high in 2019, following a 40-year trend for rapidly increasing energy demand that was only halted by the Coronavirus pandemic. It’s estimated that more than 80 % of this energy is still generated from fossil fuels that produce CO2 emissions and contribute to climate change. Renewable energy offers a solution to this problem, but saving energy whenever possible is an even more effective approach. That are the motives for Trützschler to develop the intelligent card TC 19i, which sets a new benchmark for energy-efficient carding.

The intelligent Trützschler card TC 19i features the unique T-GO gap optimizer, which continuously and automatically monitors and adjusts the carding gap to an ideal position during production. Innovative drive- and air technology further reduce energy consumption of the TC 19i.

The most energy-intensive elements in a carding machine are the drive, the dust suction process and the compressed air system. Permanent suction is needed to remove dust and cotton waste in key places. Smart optimization of these areas has made the intelligent card TC 19i a benchmark for energy efficiency in carding because it uses less electricity, lower suction pressure and less compressed air than other machines, while providing the highest production rates currently available on the market.

In a head-to-head comparison between the TC 19i and a high-performance card from a competitor, the TC 19i consumed at least 10 % less energy per kilogram of material produced when manufacturing rotor yarn from a cotton and cotton waste mix. The compared energy values included electric power consumption and energy required for suction and compressed air and were measured in both cards at the same production of 180 kg/h. A 10 % reduction in energy per kilogram of sliver produced, as proven here by TC 19i, can have a significant impact on a spinning mill’s profitability; annual savings worth a five-digit sum are frequently possible, depending on factors such as the output of the mill. The customer trial also showed TC 19i’s excellent reliability at the customer’s usual production rate of 180 kg/h, and even demonstrated stable performance at 300 kg/h in the same application. Because the TC 19i with T-GO gap optimizer realizes maximum production rates at no compromise in quality, manufacturers can reduce their energy demand and investment costs drastically: Less machines are needed to achieve the desired output, and energy consumption per production is reduced.

This improvement was made possible by a long and sometimes challenging innovation process involving mathematical models of air flows, as well as flow simulations and prototypes. By combining the final flowoptimized parts in the TC 19i, Trützschler’s experts have developed a card that operates with suction pressure of just -740 Pa and with an air requirement of only 4200 m³/h. This translates into 40 % less energy demand for air technology compared to the latest high-performance competitor model.

More information:
Trützschler carding technology
Source:

Trützschler

(c) FET by AWOL Media
27.09.2021

FET at INDEX 2020 with new lab-scale spunbond system

The UK’s Fibre Extrusion Technology (FET) will introduce its new lab-scale spunbond system at the forthcoming INDEX 2020 nonwovens exhibition taking place in Geneva, Switzerland, from October 19-22.

The new spunbond range provides unprecedented opportunities for the scaled development of new nonwoven fabrics based on a wide range of fibres and polymers, including bicomponents.

FET has already supplied one of these new spunbond lines to University of Leeds in the UK, and a second, in combination with a metlblown line, to the University of Erlangen-Nuremberg in Germany.

“Our new spunbond technology is unique in providing the ability to process a wide range of polymers, including those normally not considered appropriate for the spunbond process, at the scale required to fully explore material combinations and bring new products to market,” says FET Managing Director Richard Slack. “FET has built on its melt spinning expertise to develop a true laboratory scale spunbond system.”

The UK’s Fibre Extrusion Technology (FET) will introduce its new lab-scale spunbond system at the forthcoming INDEX 2020 nonwovens exhibition taking place in Geneva, Switzerland, from October 19-22.

The new spunbond range provides unprecedented opportunities for the scaled development of new nonwoven fabrics based on a wide range of fibres and polymers, including bicomponents.

FET has already supplied one of these new spunbond lines to University of Leeds in the UK, and a second, in combination with a metlblown line, to the University of Erlangen-Nuremberg in Germany.

“Our new spunbond technology is unique in providing the ability to process a wide range of polymers, including those normally not considered appropriate for the spunbond process, at the scale required to fully explore material combinations and bring new products to market,” says FET Managing Director Richard Slack. “FET has built on its melt spinning expertise to develop a true laboratory scale spunbond system.”

Source:

FET / AWOL Media

(c) Brückner Trockentechnik GmbH & Co. KG
23.09.2021

WEIDMANN and BRÜCKNER: New standards in stenter technology

WEIDMANN GmbH in Süßen is known worldwide as a specialist for the finishing of fiber and down-proof articles and woven industrial fabrics. Customers particularly appreciate the company's reliability and flexibility with regard to their individu-al requirements, and consistently high quality of its products. The Swabian textile manufacturer finishes premium fabrics, mainly for the bedding industry, using the latest technology and in an environmentally conscious manner.

WEIDMANN GmbH in Süßen is known worldwide as a specialist for the finishing of fiber and down-proof articles and woven industrial fabrics. Customers particularly appreciate the company's reliability and flexibility with regard to their individu-al requirements, and consistently high quality of its products. The Swabian textile manufacturer finishes premium fabrics, mainly for the bedding industry, using the latest technology and in an environmentally conscious manner.

The complex production and finishing processes for high-quality fabrics require a reliable and efficient machine technology. With this in mind, WEIDMANN has always relied on the proven stenter technolo-gy from BRÜCKNER. For many decades, the German textile machinery manufacturer has been a world leader in the con-struction of production lines for the finishing of classical textiles, woven industrial  fabrics, nonwovens, glass fabrics and floor coverings. In addition to stenters, the company's production program also in-cludes coating lines, relaxation dryers, sanfor lines, continuous dyeing lines as well as ovens for the bonding of nonwovens and other special lines. All machines are produced 100% in-house in Germany.

Both companies continuously invest in new and innovative technology in order to be successful and competitive today and in the future. Only Recently, a completely newly developed BRÜCKNER stenter was installed in the ultra-modern plant at WEIDMANN. During the intensive project engineering phase it soon became clear which features are of special importance for their daily production requirements:

  • uniform moisture distribution in the machine entry and during pick-up of the specialized   chemicals in the finishing padder before the thermoprocess
  • weft-straight fabric flow with minimized residual distortion
  • very good accessibility for maintenance and daily cleaning
  • sensor technology and automation of setting parameters for energy optimization
  • heat-recovery with hot water generation for the dye house
  • the line must be fully Industry 4.0 capable
Source:

Brückner Trockentechnik GmbH & Co. KG

Truetzschler-Voith CP Line (c)Truetzschler
On display at INDEX: composite nonwovens from the first CP line world-wide
22.09.2021

Truetzschler: Towards sustainable nonwovens

  • At this year’s INDEX from October 19th to October 22nd, Truetzschler Nonwovens, Truetzschler Card Clothing and Voith introduce new solutions for manufacturing a broad range of sustainable nonwovens for wipes, hygiene or medical textiles at booth 2327.

Plastic-free initiatives worldwide affect everyone: consumers, product developers, nonwoven producers and finally nonwoven machinery suppliers.

Truetzschler Nonwovens and Voith address the quest for more sustainable and affordable nonwovens in the wipes segment by two proven technologies for manufacturing pulp-based nonwovens. Firstly, WLS (Wet-Laid/Spunlaced) lines. More than a handful are in service worldwide and mainly target the flushable wipes market. At INDEX we’ll introduce our latest nextLevel/WLS baby and body wipes, a joint development by Voith and Truetzschler.

  • At this year’s INDEX from October 19th to October 22nd, Truetzschler Nonwovens, Truetzschler Card Clothing and Voith introduce new solutions for manufacturing a broad range of sustainable nonwovens for wipes, hygiene or medical textiles at booth 2327.

Plastic-free initiatives worldwide affect everyone: consumers, product developers, nonwoven producers and finally nonwoven machinery suppliers.

Truetzschler Nonwovens and Voith address the quest for more sustainable and affordable nonwovens in the wipes segment by two proven technologies for manufacturing pulp-based nonwovens. Firstly, WLS (Wet-Laid/Spunlaced) lines. More than a handful are in service worldwide and mainly target the flushable wipes market. At INDEX we’ll introduce our latest nextLevel/WLS baby and body wipes, a joint development by Voith and Truetzschler.

The second focus is on carded/pulp (CP) products. A CP line – including a TWF-NCT card placed between the HydroFormer and the AquaJet is already running to full capacity at customer site. Various CP materials, including innovative nextLevel/CP wipes, will be on display at the booth and invite visitors to discuss characteristics, benefits, line concepts and equipment.

When talking sustainable nonwovens, solutions for efficiently manufacturing biodegradable nonwovens from virgin cotton fibers, comber noils and viscose/lyocell fibers must not be missing. Visitors can look forward to directly comparing cotton nonwovens to a broad range of cellulose-based material.

Truetzschler Card Clothing, our in-house competence center with respect to card clothings and comprehensive service, presents its latest development, the Z wire for high-speed roller cards. A new geometry minimizes fiber fly and allows for better carding and more stable web forming.

Source:

Trützschler Nonwovens & Man Made Fibers GmbH

LOVE HERO uses Kornit Digital for sustainable Fashion (c) Kornit Digital Europe GmbH / LOVE HERO
17.09.2021

LOVE HERO uses Kornit Digital for sustainable Fashion

Kornit Digital announced that the London-based LOVE HERO fashion label uses Kornit’s sustainable, digitized, on-demand production capabilities to deliver its complete line of nature-themed apparel.

All fabrics are traceable and certified via their blockchain platform, Retraced, to minimize their eco footprint. Cut-and-sew operations take place in Portugal.

LOVE HERO is currently engaged with Kornit on the mechanics of imprinting silk, biodegradable nylon, and other diverse materials. One such application involves two-sided fabrics—nylon on top, with cotton on the reverse.

“Kornit is committed to becoming the operating system for sustainable fashion fulfillment, on demand,” says Chris Govier, KDEU Managing Director. “With visionary creators like Joshua and LOVE HERO ready to test the bounds of our design and color capabilities, and our growing network of digitized producers ready to make those visions tangible with speed, economy, and quality from all corners of the globe, we’re changing the public percetion of what digital can do—meeting the global sustainability imperative, without demanding compromise from any actor in that value chain.”

Kornit Digital announced that the London-based LOVE HERO fashion label uses Kornit’s sustainable, digitized, on-demand production capabilities to deliver its complete line of nature-themed apparel.

All fabrics are traceable and certified via their blockchain platform, Retraced, to minimize their eco footprint. Cut-and-sew operations take place in Portugal.

LOVE HERO is currently engaged with Kornit on the mechanics of imprinting silk, biodegradable nylon, and other diverse materials. One such application involves two-sided fabrics—nylon on top, with cotton on the reverse.

“Kornit is committed to becoming the operating system for sustainable fashion fulfillment, on demand,” says Chris Govier, KDEU Managing Director. “With visionary creators like Joshua and LOVE HERO ready to test the bounds of our design and color capabilities, and our growing network of digitized producers ready to make those visions tangible with speed, economy, and quality from all corners of the globe, we’re changing the public percetion of what digital can do—meeting the global sustainability imperative, without demanding compromise from any actor in that value chain.”

Source:

Kornit Digital Europe GmbH / pr4u

16.09.2021

Tufropes is partnering with Truetzschler Nonwovens and Voith for pentamerous technology

Indian Tufropes is partnering with Truetzschler Nonwovens and Voith to install its unique pentamerous technology. The company’s first nonwovens production line will be capable to produce 5 different eco-friendly, hydroentangled products.

Truetzschler Nonwovens and Voith are thrilled to be the technology partner for Tufropes’ (patent pending) unique nonwoven line based on pentamerous technology. The new installation relies heavily on Truetzschler/Voith core components for wet-laying, carding and hydroentangling. Proprietary refinements will allow Tufropes to produce any possible hydroentangled nonwoven material, including bio-degradable, natural fibre, eco-friendly high-performance nonwovens. Globally this would be a first industrial-scale pentamerous technology-based nonwoven project. Based in Gujarat, India, the line is expected to be commissioned next year.

Indian Tufropes is partnering with Truetzschler Nonwovens and Voith to install its unique pentamerous technology. The company’s first nonwovens production line will be capable to produce 5 different eco-friendly, hydroentangled products.

Truetzschler Nonwovens and Voith are thrilled to be the technology partner for Tufropes’ (patent pending) unique nonwoven line based on pentamerous technology. The new installation relies heavily on Truetzschler/Voith core components for wet-laying, carding and hydroentangling. Proprietary refinements will allow Tufropes to produce any possible hydroentangled nonwoven material, including bio-degradable, natural fibre, eco-friendly high-performance nonwovens. Globally this would be a first industrial-scale pentamerous technology-based nonwoven project. Based in Gujarat, India, the line is expected to be commissioned next year.

Source:

Truetzschler Nonwovens & Man Made Fibers GmbH

16.09.2021

EFI Reggiani: Neuer digitaler Textildrucker mit Scanfunktion

Electronics For Imaging, Inc. bringt heute seinen dritten neuen digitalen Textildrucker des Jahres 2021 auf den Markt, der einen hohen realen Produktionsdurchsatz für einen digitalen Textildrucker mit Scanfunktion liefert. Mit einer Konfiguration von bis zu acht Farben druckt der EFI Reggiani HYPER bis zu 13 laufende Meter pro Minute im Produktionsmodus mit zwei Durchgängen und ist damit einer der schnellsten Textildruckern mit Scanfunktion auf dem Markt. Der neue Drucker eignet sich für die Produktion auf gestrickten oder gewebten Textilien und ist mit einer intelligenten Technologie ausgestattet, die es ermöglicht, ihn in Industrie 4.0 Projekte zu integrieren.

EFI präsentiert den neuen EFI Reggiani HYPER Drucker auf der Messe TME Exhibition Textile Machinery Fair, die vom 8. bis zum 11. September im Istanbul Expo Center stattfindet.

Electronics For Imaging, Inc. bringt heute seinen dritten neuen digitalen Textildrucker des Jahres 2021 auf den Markt, der einen hohen realen Produktionsdurchsatz für einen digitalen Textildrucker mit Scanfunktion liefert. Mit einer Konfiguration von bis zu acht Farben druckt der EFI Reggiani HYPER bis zu 13 laufende Meter pro Minute im Produktionsmodus mit zwei Durchgängen und ist damit einer der schnellsten Textildruckern mit Scanfunktion auf dem Markt. Der neue Drucker eignet sich für die Produktion auf gestrickten oder gewebten Textilien und ist mit einer intelligenten Technologie ausgestattet, die es ermöglicht, ihn in Industrie 4.0 Projekte zu integrieren.

EFI präsentiert den neuen EFI Reggiani HYPER Drucker auf der Messe TME Exhibition Textile Machinery Fair, die vom 8. bis zum 11. September im Istanbul Expo Center stattfindet.

Source:

EFI GmbH

Starlinger recoSTAR universal 165 H-VAC iV+ (c) Starlinger & Co Gesellschaft m.b.H.
15.09.2021

Recycled polyester filament yarn made in Turkey

Korteks, one of the world’s biggest yarn producers based in Bursa, Turkey, has started the production of recycled polyester filament yarn in its production facility using a Starlinger recycling line.

With the new recycling facility, which comprises a total closed area of 17,000 m² and has a monthly production capacity of 600 tons, Korteks was able to reduce the production waste at its virgin PES yarn site to zero.

The Starlinger recoSTAR universal 165 H-VAC iV+, which is part of Korteks’ 10 million dollars investment in a new polymer recycling facility, took up operation in May 2021. It has a production capacity of 7,200 tons per year and currently processes clean in-house polyester fibers from production scrap together with washed post-consumer PET flakes at a ratio of 50/50. Korteks uses the polyester regranulate at a share of 100 % for its new polyester filament yarn line it is going to market under the name “TAÇ Reborn”. With this investment, the company has made an important step towards establishing a circular economy in the Turkish textile industry.

Korteks, one of the world’s biggest yarn producers based in Bursa, Turkey, has started the production of recycled polyester filament yarn in its production facility using a Starlinger recycling line.

With the new recycling facility, which comprises a total closed area of 17,000 m² and has a monthly production capacity of 600 tons, Korteks was able to reduce the production waste at its virgin PES yarn site to zero.

The Starlinger recoSTAR universal 165 H-VAC iV+, which is part of Korteks’ 10 million dollars investment in a new polymer recycling facility, took up operation in May 2021. It has a production capacity of 7,200 tons per year and currently processes clean in-house polyester fibers from production scrap together with washed post-consumer PET flakes at a ratio of 50/50. Korteks uses the polyester regranulate at a share of 100 % for its new polyester filament yarn line it is going to market under the name “TAÇ Reborn”. With this investment, the company has made an important step towards establishing a circular economy in the Turkish textile industry.

The Starlinger recycling line is the first of its kind in Turkey and is equipped with special components for filament yarn recycling. A RSC (Rapid Sleeve Changer) candle filter developed by Starlinger ensures finest melt filtration down to 15 μm. It has been specially designed for polyester recycling and reaches an output of 1000 kg/h. For continuous operation the filter elements are changed “on the fly” without interrupting production, which significantly limits melt loss.

The viscoSTAR SSP unit at the end of the recycling process guarantees consistent IV increase according to the first-in-first-out principle. This makes sure that the produced regranulate has the ideal properties required for filament yarn production. The technical configuration of the line does not only allow the processing of a polyester fiber/PET flake mix as input materials, but also 100 % polyester filament scrap or 100 % PET bottle flakes.

Korteks expects the recycling market in general to grow as there is increased acceptance for recycled products in the society, and predicts the need for recycling solutions also for other synthetic and natural fibers.

Source:

Starlinger & Co Gesellschaft m.b.H.

(c) FET
FET meltspinning system for biomedical applications
15.09.2021

FET: Further Gains in the Biomedical sector

Fibre Extrusion Technology of Leeds, UK has delivered nine meltspinning systems to clients in the biomedical sector since the onset of the Covid-19 pandemic, with a similar number currently on order for 2021/22. This way FET could confirm the position as an acknowledged world leader in meltspinning equipment for the production of precursor materials used in medical devices and as a default supplier for absorbable suture production systems, with orders virtually doubling year on year.

Recent installations include a multi-functional system that can produce both multifilament and monofilament pre-cursor fibres, but nonwoven systems have been particularly prominent, driven by the burgeoning demand for FFP3 masks, gowns and other medical products required during the pandemic. These have been sold to medical device manufacturing companies across the globe, including the Far East, USA and Europe. Research organisations have also invested in FET systems for biomedical applications, the most recent being the University of Leeds in a laboratory scale Spunbond system.

Fibre Extrusion Technology of Leeds, UK has delivered nine meltspinning systems to clients in the biomedical sector since the onset of the Covid-19 pandemic, with a similar number currently on order for 2021/22. This way FET could confirm the position as an acknowledged world leader in meltspinning equipment for the production of precursor materials used in medical devices and as a default supplier for absorbable suture production systems, with orders virtually doubling year on year.

Recent installations include a multi-functional system that can produce both multifilament and monofilament pre-cursor fibres, but nonwoven systems have been particularly prominent, driven by the burgeoning demand for FFP3 masks, gowns and other medical products required during the pandemic. These have been sold to medical device manufacturing companies across the globe, including the Far East, USA and Europe. Research organisations have also invested in FET systems for biomedical applications, the most recent being the University of Leeds in a laboratory scale Spunbond system.

The FET in-house Process Development Laboratory and ongoing collaboration with biomaterial polymer suppliers has helped to optimise the biomedical melt spinning technology. The Laboratory is at the disposal of customers for all aspects of confidential testing and evaluation. To further increase this competitive edge, FET will be opening a new Process Development Laboratory and Visitor Centre in early 2022.

More information:
meltspinning FET
Source:

Projectmarketing for FET

14.09.2021

Kornit Digital: 2020 Impact and Environmental, Social, and Governance Report released

Kornit Digital Ltd., a worldwide market leader in digital textile production technologies, released its 2020 Impact and Environmental, Social, and Governance (“ESG”) Report. This inaugural report affirms Kornit’s commitment to achieving specific ESG goals. This includes the way Kornit conducts business, creates meaningful impact in local communities, and achieves environmental sustainability, in addition to how Kornit will continue to build a diverse and inclusive company culture, foster employee growth and development, and empower fair and safe labor practices globally.
 

Kornit Digital Ltd., a worldwide market leader in digital textile production technologies, released its 2020 Impact and Environmental, Social, and Governance (“ESG”) Report. This inaugural report affirms Kornit’s commitment to achieving specific ESG goals. This includes the way Kornit conducts business, creates meaningful impact in local communities, and achieves environmental sustainability, in addition to how Kornit will continue to build a diverse and inclusive company culture, foster employee growth and development, and empower fair and safe labor practices globally.
 
In addition to enabling eco-friendly production processes with technology and consumables that use less water, reduce waste, and minimize the carbon footprint, Kornit technology solutions enable sustainable production on demand, which eliminates overproduction of apparel and other textile goods. A 2021 Life Cycle Assessment conducted on two flagship products, the Kornit Atlas MAX and Kornit Presto S, demonstrated that relative to traditional analog processes, Kornit’s digital production systems used up to 95% less water and 94% less energy, and produced up to 83% less greenhouse gas (GHG) emissions for the Presto S system and up to 93% less water and 66% less energy, and produced up to 82% less greenhouse gas (GHG) emissions for the Atlas MAX system.


Based on this study, in addition to past sustainability performance results and strategic projections for business growth and market expansion, by 2026 Kornit Digital’s sustainable on-demand solutions are expected to enable the production of approximately 2.5 billion apparel items in a responsible manner to deliver:

  • Zero overproduction: By moving the industry to on-demand manufacturing, Kornit will help eliminate the estimated 1.1 billion apparel items overproduced using traditional production methods, based on an industry average of 30% overproduction. This is about 1 apparel item for each and every person living in Europe and North America – saved.
  • Zero water waste: In addition to eliminating overstocks, Kornit-enabled production on demand will support saving an estimated 4.3 trillion liters (1.1 trillion gallons) of water. This is the estimated amount of drinking water needed for the entire U.S. population for 11 years.
  • Reduced CO2 emissions: By enabling sustainable on-demand production, consuming less energy, and generating less waste, Kornit will prevent an estimated 17.2 billion kilograms (37.9 billion pounds) of greenhouse gas emissions, compared to traditional manufacturing methods. This is equivalent to the estimated amount of carbon dioxide emitted from circumnavigating the entire planet with a car nearly 2,400 times.

Furthermore, the report outlines Kornit’s commitment to achieving KPIs that address waste, chemicals, GHG emissions, energy, product development, employee training, diversity and inclusion, and the company’s supply chain.

Source:

pr4u

08.09.2021

EFI Reggiani Launches the Fastest High-Quality Scanning Digital Textile Printer in the Market

  • New HYPER model produces extraordinary printing quality at unparalleled speed, approaching single-pass throughput

Electronics For Imaging, Inc. is launching its third new digital textile printer of 2021, delivering the world’s highest real production throughput for a scanning digital textile printer. The EFI™ Reggiani HYPER is a scanning printer available in 1.8-metre, 2.4-metre or 3.4-metre widths. With an up to eight-colour configuration, the EFI Reggiani HYPER prints at up to 13 linear metres per minute in two-pass production mode, making it the fastest textile scanning printer on the market. The new printer is suitable for high-quality production on knitted or woven fabrics and is designed with smart technology that enables it to be integrated into Industry 4.0 projects.

  • New HYPER model produces extraordinary printing quality at unparalleled speed, approaching single-pass throughput

Electronics For Imaging, Inc. is launching its third new digital textile printer of 2021, delivering the world’s highest real production throughput for a scanning digital textile printer. The EFI™ Reggiani HYPER is a scanning printer available in 1.8-metre, 2.4-metre or 3.4-metre widths. With an up to eight-colour configuration, the EFI Reggiani HYPER prints at up to 13 linear metres per minute in two-pass production mode, making it the fastest textile scanning printer on the market. The new printer is suitable for high-quality production on knitted or woven fabrics and is designed with smart technology that enables it to be integrated into Industry 4.0 projects.

The new EFI Reggiani HYPER targets the industrial high-speed segment of the multi-pass textile printing sector. Not only is it the fastest multi-pass printer that EFI Reggiani has ever developed, but the fastest of its kind in the market, offering extraordinary printing quality with unmatched productivity.
 
The HYPER’s superfast carriage with 72 printheads can print two passes with production quality at speeds up to 13 metres per minute for a 1.5-metre-wide roll, or up to 10 metres per minute for a 3-metre-wide roll. On a 3.4-metre Reggiani HYPER printer, users can print a pair of 1.5-metre-wide rolls in parallel, delivering a total throughput of up to 20 metres per minute, which is comparable to some single-pass printers currently in the market.
 
The printer is powered by EFI Reggiani genuine inks, with high-quality formulas developed to ensure the best performance in terms of runnability and longer printhead life while producing astonishing colour depth and brightness, as well as excellent fastness properties.