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23.07.2021

FET installs new Spunbond system at University of Leeds

Fibre Extrusion Technology Ltd, UK has completed the installation and commissioning of a new FET Laboratory Spunbond system for the University of Leeds.

Fibre Extrusion Technology Ltd, UK has completed the installation and commissioning of a new FET Laboratory Spunbond system for the University of Leeds.

This FET spunbond system is now an integral part of the research facilities of the CCTMIH (Clothworkers’ Centre for Textile Materials Innovation for Healthcare), led by Prof. Stephen Russell based in the School of Design, University of Leeds, who commented “The new spunbond system is perfectly suited to our academic research work, and is already proving itself to be extremely versatile and intuitive to use”.
 
This spunbond system complements existing research lab facilities at the university, which covers all areas of fibre and fabric processing, physical testing and characterisation. It forms part of a wider investment in facilities to support fundamental, academic research on ‘future manufacturing’ for medical devices, where the focus is on studying small-scale processing of unconventional polymers and additive mixes to form spunbond fabrics with multifunctional properties.
 
Key to this research is developing the underlying process-structure-performance relationships, based on the measured data, to provide detailed understanding of how final fabric performance can be controlled during processing.

As a rule, many exciting materials developed in academic research struggle to progress beyond the bench, because of compatibility issues with key manufacturing processes such as spunbond. By leveraging mono, core-sheath and island-in-the-sea bicomponent technology, the Leeds University team is working with polymer and biomaterial research scientists, engineers and clinicians to explore the incorporation of unusual materials in spunbond fabrics, potentially widening applications.
 
FET has built on its melt spinning expertise to develop a true laboratory scale spunbond system and is currently working on a number of other such projects globally with research institutions and manufacturers.

Source:

Fibre Extrusion Technology Ltd / Project Marketing Ltd

21.07.2021

Devan: Supporting elite sport with ‘cool comfort technology’ Moov&Cool.

Devan Chemicals has been supporting high performance sport in the UK and Belgium with its ‘cool comfort technology’ Moov&Cool.

Worldwide, hot temperatures are a new reality that brings extra challenges for athletes. Thermoregulation technology is becoming more and more important in order for athletes to perform at their best on the pinnacle of sports.

Working alongside the English Institute for Sport (EIS) and Sally Cowan Ltd, the technology is being applied to garments with the aim of improving the thermal comfort of elite athletes.

Moov&Cool consists of a multi-functional polymer technology that proposes to absorb heat during performance and improve the moisture management properties of the fabric. The treatment has been designed to simultaneously react to sweat build up and heat emission.

Devan Chemicals has been supporting high performance sport in the UK and Belgium with its ‘cool comfort technology’ Moov&Cool.

Worldwide, hot temperatures are a new reality that brings extra challenges for athletes. Thermoregulation technology is becoming more and more important in order for athletes to perform at their best on the pinnacle of sports.

Working alongside the English Institute for Sport (EIS) and Sally Cowan Ltd, the technology is being applied to garments with the aim of improving the thermal comfort of elite athletes.

Moov&Cool consists of a multi-functional polymer technology that proposes to absorb heat during performance and improve the moisture management properties of the fabric. The treatment has been designed to simultaneously react to sweat build up and heat emission.

In Belgium, Devan has been involved in the Gold2Gold project carried out by Sport Vlaanderen. Gold2Gold is a unique collaboration between sports, government and the industry to prepare Belgian athletes to perform better in hot environments during world-level championships. Thermoregulating technology is increasingly becoming a key aspect of endurance performance for elite athletes. At that top level, small differences in body core temperature can make the difference between being on the podium or sometimes not even finishing the race.

Source:

Devan Chemicals NV / Marketing Solutions NV

16.06.2021

Closed-loop recycling pilot project for single-use facemasks

  • Fraunhofer, SABIC, and Procter & Gamble join forces
  • The Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE and its Institute for Environmental, Safety and Energy Technology UMSICHT have developed an advanced recycling process for used plastics.
  • The pilot project with SABIC and Procter & Gamble serves to demonstrate the feasibility of closed-loop recycling for single-use facemasks.

Due to COVID-19, use of billions of disposable facemasks is raising environmental concerns especially when they are thoughtlessly discarded in public spaces, including - parks, open-air venues and beaches. Apart from the challenge of dealing with such huge volumes of essential personal healthcare items in a sustainable way, simply throwing the used masks away for disposal on landfill sites or in incineration plants represents a loss of valuable feedstock for new material.

  • Fraunhofer, SABIC, and Procter & Gamble join forces
  • The Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE and its Institute for Environmental, Safety and Energy Technology UMSICHT have developed an advanced recycling process for used plastics.
  • The pilot project with SABIC and Procter & Gamble serves to demonstrate the feasibility of closed-loop recycling for single-use facemasks.

Due to COVID-19, use of billions of disposable facemasks is raising environmental concerns especially when they are thoughtlessly discarded in public spaces, including - parks, open-air venues and beaches. Apart from the challenge of dealing with such huge volumes of essential personal healthcare items in a sustainable way, simply throwing the used masks away for disposal on landfill sites or in incineration plants represents a loss of valuable feedstock for new material.

“Recognizing the challenge, we set out to explore how used facemasks could potentially be returned into the value chain of new facemask production”, says Dr. Peter Dziezok, Director R&D Open Innovation at P&G. “But creating a true circular solution from both a sustainable and an economically feasible perspective takes partners. Therefore, we teamed up with Fraunhofer CCPE and Fraunhofer UMSICHT’s expert scientists and SABIC’s Technology & Innovation specialists to investigate potential solutions.”

As part of the pilot, P&G collected used facemasks worn by employees or given to visitors at its manufacturing and research sites in Germany. Although those masks are always disposed of responsibly, there was no ideal route in place to recycle them efficiently. To help demonstrate a potential step change in this scenario, special collection bins were set up, and the collected used masks were sent to Fraunhofer for further processing in a dedicated research pyrolysis plant.

“A single-use medical product such as a face mask has high hygiene requirements, both in terms of disposal and production. Mechanical recycling, would have not done the job”, explains Dr. Alexander Hofmann, Head of Department Recycling Management at Fraunhofer UMSICHT. “In our solution, therefore, the masks were first automatically shredded and then thermochemically converted to pyrolysis oil. Pyrolysis breaks the plastic down into molecular fragments under pressure and heat, which will also destroy any residual pollutants or pathogens, such as the Coronavirus. In this way it is possible to produce feedstock for new plastics in virgin quality that can also meet the requirements for medical products”, adds Hofmann, who is also Head of Research Department “Advanced Recycling” at Fraunhofer CCPE.

The pyrolysis oil was then sent to SABIC to be used as feedstock for the production of new PP resin. The resins were produced using the widely recognized principle of mass balance to combine the alternative feedstock with fossil-based feedstock in the production process. Mass balance is considered a crucial bridge between today’s large scale linear economy and the more sustainable circular economy of the future, which today is operated on a smaller scale but is expected to grow quickly.

“The high-quality circular PP polymer obtained in this pilot clearly demonstrates that closed-loop recycling is achievable through active collaboration of players from across the value chain”, emphasizes Mark Vester, Global Circular Economy Leader at SABIC. “The circular material is part of our TRUCIRCLE™ portfolio, aimed at preventing valuable used plastic from becoming waste and at mitigating the depletion of fossil resources.”

Finally, to close the loop, the PP polymer was supplied to P&G, where it was processed into non-woven fibers material. “This pilot project has helped us to assess if the close loop approach could work for hygienic and medical grade plastics”, says Hansjörg Reick, P&G Senior Director Open Innovation. “Of course, further work is needed but the results so far have been very encouraging.”

The entire closed loop pilot project from facemask collection to production was developed and implemented within seven months. The transferability of advanced recycling to other feedstocks and chemical products is being further researched at Fraunhofer CCPE.

Source:

Fraunhofer

11.06.2021

EFI Reggiani introduces Textile Digital Printer

The new, industrial, entry-level EFI™ Reggiani BLAZE scanning printer from Electronics For Imaging, Inc. is making its debut at the ITMA Asia tradeshow, 12-16 June in Shanghai, China. The high-quality printer is an easy-to-use, smart solution to help textile companies blaze their successful trail into the world of efficient, sustainable industrial inkjet printing. It is equipped with EFI Reggiani’s state-of-the-art technology, offering high quality, reliability and flexibility on the widest variety of designs.

The new, industrial, entry-level EFI™ Reggiani BLAZE scanning printer from Electronics For Imaging, Inc. is making its debut at the ITMA Asia tradeshow, 12-16 June in Shanghai, China. The high-quality printer is an easy-to-use, smart solution to help textile companies blaze their successful trail into the world of efficient, sustainable industrial inkjet printing. It is equipped with EFI Reggiani’s state-of-the-art technology, offering high quality, reliability and flexibility on the widest variety of designs.

Cutting-edge technology in a compact footprint
The EFI Reggiani BLAZE printer is designed to give textile companies the opportunity to enter the digital textile printing market with a compact solution. The new, 1.8-metre wide printer offers an innovative, low-maintenance, continuous recirculation ink system equipped with a level sensor and degassing as well as a printhead crash protective system for longer printhead life and superior uptime.
 
Thanks to its cutting-edge printhead reliability and low maintenance costs for a competitive TCO (total cost of ownership), the BLAZE printer can produce up to 125 linear metres per hour with a printing resolution up to 600x1200 dots per inch (dpi). The printer – which delivers excellent productivity as one of the fastest digital inkjet solutions in its class – has eight 300-dpi dual channel printheads and can print in up to eight colours with full variable drop size.

Flexible fabric feed and handling for higher productivity
The EFI Reggiani BLAZE is equipped with a continuous and switchable belt washing unit to remove water and fabric hairs. An embedded device for adhesive application offers the possibility to use thermoplastic, resin and permanent adhesives.
 
The printer also includes other features for enhanced productivity and value, including a 400-mm roll unwinder, expandable shafts, an air gun and a pneumatic bar for standard fabrics.

Efficient software and electronics technology
The Reggiani BLAZE printer offers a friendly and intuitive user interface with real-time image processing and flexible queue management. The software also runs a WYSIWYG (What You See Is What You Get) job editor, as well as tools to accurately predict printing speed and ink usage.

EFI Reggiani TERRA Silver enhancement
EFI has also released an enhanced version of the EFI Reggiani TERRA Silver printer, a 1.8-metre wide printer operating with EFI Reggiani’s unique TERRA pigment ink with binder solution for high-quality, highly sustainable, direct-to-textile printing without steaming or washing.

Features:

  • A new recirculating ink system for superior reliability and minimum maintenance at start up and during production
  • 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.
Ascend expands HiDura™ LCPA production capacity (c) Ascend Performance Materials
APMPR059
09.06.2021

Ascend expands HiDura™ LCPA production capacity

  • New capacity brought online to meet growing demand

Ascend Performance Materials has expanded production capacity for HiDura long-chain polyamides in its Greenwood, S.C., plant. The multi-million dollar expansion will help the company meet growing demand for its new product line.

Launched in Nov. 2020, Ascend’s HiDura PA610 and 612 products are used in a variety of consumer goods, industrial, renewable energy, automotive and electric vehicle applications. “Exceptional ductility, UV weatherability and hydrolysis resistance give HiDura resins and engineered plastics reliable, long-term performance in some of the harshest conditions,” said Kaan Gunes, business manager for HiDura at Ascend. Gunes cited applications in solar photovoltaic supports, battery seals and brush bristles to illustrate the versatility and durability of HiDura. “Each of these parts faces extreme conditions, whether the 25 years a solar PV installation will be exposed to the elements or the constant contact with corrosive chemicals inside a battery cell. The various grades we developed are designed to improve the reliability of our customers’ products.”

  • New capacity brought online to meet growing demand

Ascend Performance Materials has expanded production capacity for HiDura long-chain polyamides in its Greenwood, S.C., plant. The multi-million dollar expansion will help the company meet growing demand for its new product line.

Launched in Nov. 2020, Ascend’s HiDura PA610 and 612 products are used in a variety of consumer goods, industrial, renewable energy, automotive and electric vehicle applications. “Exceptional ductility, UV weatherability and hydrolysis resistance give HiDura resins and engineered plastics reliable, long-term performance in some of the harshest conditions,” said Kaan Gunes, business manager for HiDura at Ascend. Gunes cited applications in solar photovoltaic supports, battery seals and brush bristles to illustrate the versatility and durability of HiDura. “Each of these parts faces extreme conditions, whether the 25 years a solar PV installation will be exposed to the elements or the constant contact with corrosive chemicals inside a battery cell. The various grades we developed are designed to improve the reliability of our customers’ products.”

Ascend, which is the largest fully integrated producer of polyamide 66 resin, used its extensive polymerization knowledge to expand capacity at its Greenwood facility. “We have been polymerizing PA66 in Greenwood for decades,” said Michael Walters, senior site director for Ascend in Greenwood. “Our people understand how to consistently produce high-performance, high-quality materials safely and were excited to see the success of HiDura build off their work.” Ascend continues to expand its HiDura grades to meet the growing needs of its customers.

Source:

EMG

VDMA member companies at ITMA ASIA + CITME (c) ITMA
07.06.2021

VDMA member companies at ITMA ASIA + CITME

Although affected by the Covid-19 pandemic, ITMA ASIA + CITME, which takes place mid-June in Shanghai, will see a convincing participation of VDMA member companies. 56 exhibitors from Germany will exhibit at this year’s edition of Asia’s major fair for textile machinery. Due to the pandemic and travel restrictions, this is much less than in 2018, when 99 exhibitors from Germany were present. The booked space of German companies has almost halved compared to 2018. Nevertheless, Germany is still the second largest exhibitor nation after China.

At a virtual VDMA press conference early June, these renowned VDMA member companies* presented their highlights for the Asian market:

Although affected by the Covid-19 pandemic, ITMA ASIA + CITME, which takes place mid-June in Shanghai, will see a convincing participation of VDMA member companies. 56 exhibitors from Germany will exhibit at this year’s edition of Asia’s major fair for textile machinery. Due to the pandemic and travel restrictions, this is much less than in 2018, when 99 exhibitors from Germany were present. The booked space of German companies has almost halved compared to 2018. Nevertheless, Germany is still the second largest exhibitor nation after China.

At a virtual VDMA press conference early June, these renowned VDMA member companies* presented their highlights for the Asian market:

  • Oerlikon Polymer Processing Solutions Division
  • Truetzschler Group
  • Neuenhauser
  • Saurer
  • Karl Mayer
  • Groz-Beckert
  • Herzog
  • Lenze
  • Mahlo
  • Sedo Treepoint
  • Thies

Instead of visiting the show personally, the VDMA offers a virtual trip to Asia. The established "Textile Machinery Webtalk" series via the newsroom IndustryArena will focus on ITMA ASIA in the run-up to the fair: VDMA Webtalks meet ITMA ASIA.

*See attached document for more information.

04.06.2021

Election of a new EPTA Board

During its members meeting of June 2nd, 2021, the European Pultrusion Technology Association (EPTA) elected a new board. All EPTA board members who stood for re-election have been confirmed again. Dr. Elmar Witten, Secretary of the EPTA, is happy about the continuity in the line-up of the EPTA board. "We will continue the current marketing activities to promote the pultrusion process," said Witten.

Thus, the board members for the next 4 years are:
Dr. Luigi Giamundo, ATP srl., Italy (Chairman)
Alfonso Branca, TOP GLASS, Italy
Dietmar Kühne, Ernst Kühne Kunststoffwerk, Germany
Sebastian Mehrtens, Fibrolux, Germany
Eric Moussiaux, Exel Composites, Belgium
Martin Zelinka, Owens Corning, France

Pultrusion is an important and continuously growing segment in the composites industry. It is a continuous manufacturing process of linear composite profiles made of polymeric resins such as polyesters and fiber reinforcement such as glass fibers. Automated Pultrusion Production Technology facilitates today's High Quality and Low-Cost demands by the market.

During its members meeting of June 2nd, 2021, the European Pultrusion Technology Association (EPTA) elected a new board. All EPTA board members who stood for re-election have been confirmed again. Dr. Elmar Witten, Secretary of the EPTA, is happy about the continuity in the line-up of the EPTA board. "We will continue the current marketing activities to promote the pultrusion process," said Witten.

Thus, the board members for the next 4 years are:
Dr. Luigi Giamundo, ATP srl., Italy (Chairman)
Alfonso Branca, TOP GLASS, Italy
Dietmar Kühne, Ernst Kühne Kunststoffwerk, Germany
Sebastian Mehrtens, Fibrolux, Germany
Eric Moussiaux, Exel Composites, Belgium
Martin Zelinka, Owens Corning, France

Pultrusion is an important and continuously growing segment in the composites industry. It is a continuous manufacturing process of linear composite profiles made of polymeric resins such as polyesters and fiber reinforcement such as glass fibers. Automated Pultrusion Production Technology facilitates today's High Quality and Low-Cost demands by the market.

Oerlikon: Booth at ITMA Asia 2021 (c) Oerlikon
01.06.2021

Oerlikon with a hybrid trade show concept at ITMA Asia

On the occasion of the VDMA press conference, André Wissenberg, Head of Marketing, Corporate Communications and Public Affairs at Oerlikon Polymer Processing Solutions Division, presented the company's concept for ITMA Asia with the claim: Clean Technology. Smart Factory.

Due to the Corona pandemic, Oerlikon has decided to concentrate with their Chinese sales and service teams on guests primarily from China and greater Asia. However, some experts from Germany, who are working in China at our locations anyway, will be live on site at the booth. Other experts from Germany, India and US will be available online for the entire 5 days of the trade fair and will simply be connected by video conference to the discussion with the visitors on site if there is a need for.

On the occasion of the VDMA press conference, André Wissenberg, Head of Marketing, Corporate Communications and Public Affairs at Oerlikon Polymer Processing Solutions Division, presented the company's concept for ITMA Asia with the claim: Clean Technology. Smart Factory.

Due to the Corona pandemic, Oerlikon has decided to concentrate with their Chinese sales and service teams on guests primarily from China and greater Asia. However, some experts from Germany, who are working in China at our locations anyway, will be live on site at the booth. Other experts from Germany, India and US will be available online for the entire 5 days of the trade fair and will simply be connected by video conference to the discussion with the visitors on site if there is a need for.

At ITMA Asia 2021, Oerlikon will present the next generation of an automatic texturing solution with up to 25 % energy saving and up to 30 % higher production speed, easy maintenance and best yarn quality. The core of this machine, the socalled EvoCooler, will be shown as an exhibit in combination with digital solutions like AIM4DTY. In the field of high-precision flow control solutions components, the two new gear metering pumps developments for the production of aramid and spandex will be presented as well.

ITA
04.05.2021

2021 Aachen Reinforced! Symposium free of charge for all attendees

Institut für Textiltechnik of RWTH Aachen University has changed the format of the 2021 Aachen Reinforced! Symposium to an online only format. The programme was shortened to suit the new format, with presentations taking place on Monday 10th May and Tuesday 11th May.

Institut für Textiltechnik of RWTH Aachen University has changed the format of the 2021 Aachen Reinforced! Symposium to an online only format. The programme was shortened to suit the new format, with presentations taking place on Monday 10th May and Tuesday 11th May.

The conference program for Monday, 10th May:
The programme will begin with exciting presentations on glass chemistry and fibres. A talk by Dr Anne Berthereau (Owens Corning Composites) on the race for always higher modulus glass fibres will be followed by a talk from Dr Hong Li (Nippon Electric Glass) on the potential of new high-strength and high-modulus glass fibres.
After two further presentations on high modulus and bioactive glass fibres from Muawia Dafir and Julia Eichhorn (TU Bergakademie Freiberg), we will learn about furnace efficiency as well as process monitoring and digitalisation in glass fibre production from René Meulemann (CelSian), Hans Gedon (Gedonsoft) and Julius Golovatchev (Incotelogy) respectively.
A presentation by Felix Quintero Martínez (Universidade de Vigo) will explore a novel method to produce ultra-flexible glass nanofibers.
The afternoon will continue with two presentations by Dr Christina Scheffler (Leibniz-Institut für Polymerforschung Dresden e.V. (IPF)) and Professor James Thomason (University of Strathclyde) in the field of glass fibre sizings and fibre-matrix interfaces. Finally, a closing presentation by Steve Bassetti (Michelman) will conclude the first day of the Symposium.

The entire conference programme is available on the website https://aachen-fibres.com/aachen-reinforced/general-information.
To register for the Symposium, use the following link: https://aachen-fibres.com/aachen-reinforced/registration

23.04.2021

Oerlikon: Creating a new growth platform

Oerlikon signs agreement to acquire INglass, a global leader in high precision polymer flow control equipment, to accelerate expansion strategy in polymer processing market

  • INglass and its HRSflow Division is a market leader spezialized in hot runner sytems
  • Technology is highly complementary to Oerlikon’s existing capabilities in polymer flow control and will expand Oerlikon’s market access
  • Acquisition accelerates Oerlikon’s strategy in diversifying its manmade fibers business to expand into the high-growth polymer processing solution market
  • Oerlikon renames ‘Manmade Fibers’ Division to ‘Polymer Processing Solutions’
  • Acquisition is expected to be completed in the second quarter of 2021

Oerlikon, a leading provider of surface engineering, polymer processing and additive manufacturing, announced today that it has signed an agreement to acquire Italy-headquartered INglass S.p.A. and its innovative hot runner systems technology operating under its market-leading HRSflow business.

Oerlikon signs agreement to acquire INglass, a global leader in high precision polymer flow control equipment, to accelerate expansion strategy in polymer processing market

  • INglass and its HRSflow Division is a market leader spezialized in hot runner sytems
  • Technology is highly complementary to Oerlikon’s existing capabilities in polymer flow control and will expand Oerlikon’s market access
  • Acquisition accelerates Oerlikon’s strategy in diversifying its manmade fibers business to expand into the high-growth polymer processing solution market
  • Oerlikon renames ‘Manmade Fibers’ Division to ‘Polymer Processing Solutions’
  • Acquisition is expected to be completed in the second quarter of 2021

Oerlikon, a leading provider of surface engineering, polymer processing and additive manufacturing, announced today that it has signed an agreement to acquire Italy-headquartered INglass S.p.A. and its innovative hot runner systems technology operating under its market-leading HRSflow business.

The strategic acquisition is a significant step in expanding Oerlikon’s current manmade fibers business into the larger polymer processing market. The acquisition accelerates and enhances existing organic initiatives to diversify and strengthen the company’s core high-precision polymer flow control capabilities, products and services. The completion of the transaction is subject to customary regulatory approvals and is expected by the second quarter of 2021.

To reflect Oerlikon’s expansion into a larger high-growth market, the Manmade Fibers Division will be renamed as Polymer Processing Solutions Division. This division will have two business units: Flow Control Solutions and Manmade Fibers Solutions. The busines unit Flow Control Solutions will combine the expertise of Oerlikon Barmag’s existing gear metering pumps business line and INglass’ HRSflow operations. The business unit Manmade Fibers Solutions will continue to focus on growing the existing chemical fiber machinery and plant engineering business, offering plant solutions for the production of polyester, polypropylene and polyamide.

“Our new Polymer Processing Solutions Division and the acquisition of INglass S.p.A. and its HRSflow business are critical components of Oerlikon Group’s growth strategy. We are accelerating our efforts to drive sustainable organic and inorganic growth in all of our businesses. The acquisition enables new synergy opportunities between both Oerlikon divisions in specific end markets such as automotive. With INglass and its HRSflow operations, we acquire leading suppliers in their markets with proven success of their technologies and services,” said Dr. Roland Fischer, CEO Oerlikon Group.

“We firmly believe that within the Oerlikon Group we can further exploit the potential of our hot runner systems technology and, when combined with the capabilities of Oerlikon Barmag gear metering pumps and their melt distribution engineering competence, will position our business as one of the leading precision flow control specialists for multiple applications in a global growth market”, said Antonio Bortuzzo, CEO of INglass S.p.A.

New business unit offers great growth potential

The Oerlikon Barmag competence brand already offers high precision flow control related components, including a large selection of gear metering pumps for textile and non-textile markets. These highly efficient pumps are used in silicone casting, dynamic mixing and oil spraying for the chemical, paint, polymer processing and automotive industries. This double-digit million CHF business, which has grown in recent years, will be merged with INglass’ HRSflow hot runner technologies under the new business unit Flow Control Solutions. HRSflow’s excellent market access to many OEMs in and outside the automotive industry brings significant growth opportunities.

INglass is a leader in automotive and expanding in other sectors

INglass S.p.A. is an internationally operating successful company established in 1987. Its product portfolio includes hot runners as well as engineering and consultancy services for the advanced development of polymer processing products. INglass’ HRSflow hot runner systems are applied in multiple industries from automotive, consumer goods and household appliances to packaging, waste management, construction and transportation.

INglass is headquartered in San Polo di Piave, Italy, near Venice. 2020 revenues of INglass were approximately CHF 135 million and the acquisition is expected to be immediately accretive to Oerlikon’s margins and cash flows. INglass has more than 1 000 employees and 55 sites worldwide, including production plants in Italy, China and the US. Among these sites are INglass’ newly renovated headquarters and production at its primary location in San Polo di Piave near Venice, Italy. The investment modernized the facilities with automated production, underlining the company’s commitment to sustainability and the environment. The other two modern production sites are in Zhejiang (Hangzhou Province) in China and Michigan (Grand Rapids) in the USA.

Following the integration with Oerlikon Barmag’s gear metering pumps business of about 200 employees in Remscheid, Germany, the new Flow Control Solutions business unit will have round about 1 200 employees.

"We see great potential for growth in our new Flow Control Solutions business unit,” said Georg Stausberg, Polymer Processing Solutions Division CEO and Member of the Executive Committee of the Oerlikon Group. “The businesses form the two core growth pillars and benefit from each other in global market development, in modern and digitized production, and in customer services. We also see potential synergies in R&D by combining existing know-how in the field of polymer processing. New technological solutions between hot runner systems and gear metering pumps are conceivable. We also anticipate collaborating more closely with the Oerlikon Surface Solutions Division, particularly in future mobility applications and functional polymer component solutions for the automotive industry. All in all, we will offer our customers innovative and attractive solutions in the field of polymer processing and high precision flow control components.”

Next steps for further diversification of the division product portfolio are already ongoing

Combining the divisions plant engineering and process know how with expertise on high precision flow control components technologies has a significant impact on product quality in nearly all applications, which opens up a platform for further organic and inorganic growth. "We are closely observing the megatrends in the markets and developing new business models to match. In the area of sustainability, covering topics such as circular economy, the recycling of materials using mechanical and chemical recycling solutions, as well as the handling of new, more environmentally friendly and biodegradable materials, we are on the verge of a breakthrough. We are ready to actively participate in these growth areas,” added Georg Stausberg.

“In realigning the Polymer Processing Solutions Division, Oerlikon will continue to apply our successful recipe of a lean organizational structure to efficiently manage the business. This means clear processes, short decision-making paths and competent teams in a diverse and multicultural organization in which everyone can contribute innovatively to create customer value,” said Georg Stausberg.

22.04.2021

Sanitized® T 99-19: 99.84 % protection against SARS CoV-2 on textiles

The antimicrobial protection of Sanitized® T 99-19 against the SARS-CoV-2 virus has been confirmed by independent labs in France (basis: ISO 18184:2019).

Textile and polymer products with Sanitized® antimicrobial treatment have been used in hygiene-sensitive areas for many years. For textiles, Sanitized® T 99-19 is a patented technology based on a silane-ammonia compound, a globally proven product. Its hygiene function is used in workwear and protective clothing for nursing staff, bed linen or mattresses in hotels, nursing care facilities and hospitals. Polyester goods for precisely these areas of application can now not only be antimicrobial, but also reliably protective against SARS CoV-2.

The antiviral efficacy (99.84 %) of the Sanitized® T 99-19 product has been officially confirmed by tests conducted by external labs.

The antimicrobial protection of Sanitized® T 99-19 against the SARS-CoV-2 virus has been confirmed by independent labs in France (basis: ISO 18184:2019).

Textile and polymer products with Sanitized® antimicrobial treatment have been used in hygiene-sensitive areas for many years. For textiles, Sanitized® T 99-19 is a patented technology based on a silane-ammonia compound, a globally proven product. Its hygiene function is used in workwear and protective clothing for nursing staff, bed linen or mattresses in hotels, nursing care facilities and hospitals. Polyester goods for precisely these areas of application can now not only be antimicrobial, but also reliably protective against SARS CoV-2.

The antiviral efficacy (99.84 %) of the Sanitized® T 99-19 product has been officially confirmed by tests conducted by external labs.

Tests on end products, which were additionally carried out by textile manufacturers, also prove the effectiveness of Sanitized® T 99-19 against SARS CoV-2. License partners praise this confidence-building benefit of the end products. SANITIZED license partners receive concrete support in terms of marketing and legal aspects (health claims).

Avoid legal pitfalls when claiming antiviral protection
Advice and support for customers in achieving optimal hygiene protection for their products are an integral part of SANITIZED services. A claim guide has therefore been developed especially for products that protect against COVID-19.
https://www.sanitized.com/de/protection-against-covid-19-which-antiviral-advertising-claimsare-legal-sanitized-explains/

Source:

SANITIZED AG

AFFIX Labs/Franz Kiel GmbH: Anti-microbial coating for transportation industry (c) AFFIX Labs
22.04.2021

AFFIX Labs/Franz Kiel GmbH: Anti-microbial coating for transportation industry

AFFIX Labs’ durable semi-permanent surface coating Si-Quat, that is proven to kill 99.9% of bacteria and viruses, including SARS-COV-2, will be helping to make public transport safer as people around the world begin getting back onto buses and trains.

Si-Quat helps to prevent cross contamination with a durable layer of polymerized active ingredient that binds to walls, handles, furniture, and other key touch points, staying in place for up to 12 months and killing 99.9% of viruses and bacteria that come into contact with the treated surface. The coating has been tested and certified to be effective against bacteria, viruses, and fungi, and has passed the rigorous EN45545-2 HL3 flammability norm for trains and REG118.3 for busses.

Kiel has been manufacturing seating for public transport globally for more than 75 years and will be offering Si-Quat to clients as a new solution to protect travellers on their transport networks. With Si-Quat already registered on several continents a quick roll out is truly achievable.

AFFIX Labs’ durable semi-permanent surface coating Si-Quat, that is proven to kill 99.9% of bacteria and viruses, including SARS-COV-2, will be helping to make public transport safer as people around the world begin getting back onto buses and trains.

Si-Quat helps to prevent cross contamination with a durable layer of polymerized active ingredient that binds to walls, handles, furniture, and other key touch points, staying in place for up to 12 months and killing 99.9% of viruses and bacteria that come into contact with the treated surface. The coating has been tested and certified to be effective against bacteria, viruses, and fungi, and has passed the rigorous EN45545-2 HL3 flammability norm for trains and REG118.3 for busses.

Kiel has been manufacturing seating for public transport globally for more than 75 years and will be offering Si-Quat to clients as a new solution to protect travellers on their transport networks. With Si-Quat already registered on several continents a quick roll out is truly achievable.

Source:

EMG

22.04.2021

JEC Group: Experts to feature at JEC Composites Connect

From leaders to entrepreneurs, JEC COMPOSITES CONNECT is welcoming a lineup of special guests. As part of conferences, they will share their expertise, vision, and perspective in front of all the players in the composites industry.

AEROSPACE – Towards a More Sustainable Strategy, Tuesday, June 1st –  9am to 10:15am (CEST)
The aerospace industry is a major source of innovation and technological advancements that often originates inspiration across a wide variety of other industries. Nowadays, in a context where environmental constraints are becoming increasingly stringent especially when it comes to air mobility, OEMs are constantly in search of innovative answers and solutions that will allow them to create a ‘greener’ future. The need for light-weighting, reduced maintenance and waste, and repurposing aerospace-grade CFRP towards other applications are expected to drive demand and adoption of composites in aerospace applications.

From leaders to entrepreneurs, JEC COMPOSITES CONNECT is welcoming a lineup of special guests. As part of conferences, they will share their expertise, vision, and perspective in front of all the players in the composites industry.

AEROSPACE – Towards a More Sustainable Strategy, Tuesday, June 1st –  9am to 10:15am (CEST)
The aerospace industry is a major source of innovation and technological advancements that often originates inspiration across a wide variety of other industries. Nowadays, in a context where environmental constraints are becoming increasingly stringent especially when it comes to air mobility, OEMs are constantly in search of innovative answers and solutions that will allow them to create a ‘greener’ future. The need for light-weighting, reduced maintenance and waste, and repurposing aerospace-grade CFRP towards other applications are expected to drive demand and adoption of composites in aerospace applications.

Yannick Willemin, Head of Marketing & Business Development, 9TLabs, will chair this conference with Clémentine Gallet, CEO, Coriolis, Hervé Gilibert,CTO, ArianeGroup, Jean Botti, CEO, Voltaero and Scott Finn, Chief Consulting Engineer for Composites, GE Aviation.

AUTOMOTIVE – The Right Material at the Right Place, Tuesday, June 1st –  3 pm to 5:05 pm (CEST)
Among the many challenges facing the automotive industry, reducing vehicle mass and therefore emissions all while maintaining safety and cost-efficiency remain key. Lighter materials implying higher costs, they limit mass production. Therefore, a combination of materials, albeit hybrid solutions, would help solve this issue and are becoming increasingly attractive for manufacturers. This conference consists of industry presentations and a panel discussion involving major OEMs & Tier1s from all over the world. It covers the challenges & opportunities of using composites materials in the Automotive field.

Dale Brosius CFO, IACMI, will chair this conference with Alice Swallow, Senior Innovation Engineer, FORD MOTOR GROUP, Christophe Kühn, Senior Project Manager – Composites & Hybrid Components, VOLKSWAGEN, Dominik Klaiber, Doctoral Candidate Body Advanced Engineering, PORSCHE and Gerard LIRAUT, Expert Leader Polymers, GROUPE RENAULT – ALLIANCE RENAULT NISSAN MITSUBISHI.

More information:
JEC Composites JEC Group
Source:

JEC Group

Bunzl Distribution brings American antiviral technology to Mexico retailers
19.04.2021

Bunzl Distribution brings American antiviral technology to Mexico retailers

US-made Acteev Protect™ masks have embedded zinc ion technology which deactivates many viruses and eliminates bacteria

Bunzl Distribution, a leading supplier of packaging, disposable supplies, and cleaning and safety products, has signed on as the distributor in Mexico for Acteev Protect™ masks, made in the United States by polyamide manufacturer Ascend Performance Materials. A global distributor, Bunzl provides supplies to supermarkets, food processing plants, retailers and convenience stores in Mexico.

Bunzl will distribute the Acteev Protect Nonwoven Mask, a reusable general purpose mask that features powerful antiviral and antibacterial properties. Acteev technology embeds active zinc ions in a polymer matrix which destroys microbes, deactivates many viruses and eliminates bacteria and fungi.

US-made Acteev Protect™ masks have embedded zinc ion technology which deactivates many viruses and eliminates bacteria

Bunzl Distribution, a leading supplier of packaging, disposable supplies, and cleaning and safety products, has signed on as the distributor in Mexico for Acteev Protect™ masks, made in the United States by polyamide manufacturer Ascend Performance Materials. A global distributor, Bunzl provides supplies to supermarkets, food processing plants, retailers and convenience stores in Mexico.

Bunzl will distribute the Acteev Protect Nonwoven Mask, a reusable general purpose mask that features powerful antiviral and antibacterial properties. Acteev technology embeds active zinc ions in a polymer matrix which destroys microbes, deactivates many viruses and eliminates bacteria and fungi.

Recent testing on Acteev fabric completed at the University of Cambridge has demonstrated that Acteev technology deactivates the virus that causes COVID-19, SARS-CoV-2, with greater than 99.9% efficacy. Ascend has submitted several masks designs to the U.S. Environmental Protection Agency and the U.S. Food and Drug Administration to obtain the appropriate regulatory clearances to make specific claims regarding the technology’s antiviral properties in the United States.

Carlos Green, Director General of Bunzl de México, says the company is pleased to bring products featuring better safety and protection to the Mexico market. “Our customers are more focused than ever before on doing business safely, and Acteev masks offer an added level of protection in the workplace,” he said. “We’re excited to offer our customers this premium product that provides some of the best protection available.”

In addition to antiviral, antifungal and antibacterial protection, the washable, reusable masks are lightweight, breathable and odor-fighting, making them comfortable to wear during a long shift at work or for outdoor workout. “Workers in industrial settings, such as chemical and food processing plants, and convenience stores and other retail outlets deserve the right protection as they keep society and the economy moving in Mexico,” said Juan Toro, Ascend’s principal business development leader for Acteev in the Americas.

“We are proud to partner with Bunzl to help deliver a reusable mask that provides both antiviral properties as well as an opportunity reduce the number of masks consumed, saving the companies money.”
Acteev Protect shows promise for use beyond masks, according to Ascend. The technology was originally developed for workout wear, and now the company is working textile applications ranging from gloves to scrubs to high-end athleisure.

13.04.2021

Origin Materials and PrimaLoft develop Carbon-Negative Insulating Fiber

  • PrimaLoft and Origin Materials have launched a program to develop high-performance, carbon-negative insulating fibers for diverse apparel applications, including for leading outdoor, fashion, and lifestyle brands, as well as home goods applications such as hypoallergenic insulated bedding.
  • PrimaLoft, an advanced material technology company and a world leader in the development of high-performance insulations and fabrics, will develop the fibers with Origin Materials to address demand for sustainable, high-performance materials from its over 900 global brand partners. PrimaLoft iconic brand partners include Patagonia, Stone Island, L.L. Bean, Lululemon, adidas and Nike.
  • The program will focus on carbon-negative PET and next-generation polymers produced by the Origin Materials patented technology platform, which turns sustainable wood residue into cost-advantaged, carbon-negative materials that reduce the need for fossil resources.

Origin Materials, Inc.

  • PrimaLoft and Origin Materials have launched a program to develop high-performance, carbon-negative insulating fibers for diverse apparel applications, including for leading outdoor, fashion, and lifestyle brands, as well as home goods applications such as hypoallergenic insulated bedding.
  • PrimaLoft, an advanced material technology company and a world leader in the development of high-performance insulations and fabrics, will develop the fibers with Origin Materials to address demand for sustainable, high-performance materials from its over 900 global brand partners. PrimaLoft iconic brand partners include Patagonia, Stone Island, L.L. Bean, Lululemon, adidas and Nike.
  • The program will focus on carbon-negative PET and next-generation polymers produced by the Origin Materials patented technology platform, which turns sustainable wood residue into cost-advantaged, carbon-negative materials that reduce the need for fossil resources.

Origin Materials, Inc. (“Origin Materials”), a leading carbon negative materials company, and PrimaLoft, an advanced material technology company and a leader in the development of high-performance insulations and fabrics, announced a new program to develop carbon-negative, insulating, high-performance fibers. The fibers will be used across a diverse array of end products, including insulating fiber for leading outdoor, fashion, and lifestyle brands, as well as home goods applications such as hypoallergenic insulated bedding.

The companies will work to rapidly develop and commercialize new products derived from Origin Materials’ platform. The collaboration will leverage the leadership position of PrimaLoft as a specialty producer of insulating fibers and filaments with over 900 global brand partners, as well as a large global network of manufacturers that employ a wide array of textile processes to make its products, including extrusion, carding, spinning, finishing, weaving, knitting, dyeing, airlaid, meltblown, and other technologies.

The collaboration builds on PrimaLoft’s “Relentlessly Responsible™” mission to elevate both performance and sustainability, through innovation. The platform includes PrimaLoft® Bio™, which was developed and launched into the market in late 2018 as an effort to battle microplastics in the ocean; PrimaLoft® P.U.R.E.™, which provides materials manufactured with greater than 50% CO2 savings; and PrimaLoft’s post-consumer recycling initiative. The next frontier for the company is non-petroleum based raw materials, including products that biodegrade and other circular economy solutions.

Source:

crystal communications

BIONIC-FINISH®ECO Fluorine-Free, Water Repellent Finishes for Ultimate Performance (c) RUDOLF GmbH
BIONIC-FINISH®ECO Fluorine-Free, Water Repellent Finishes for Ultimate Performance
03.03.2021

BIONIC-FINISH®ECO by RUDOLF GROUP

  • BIONIC-FINISH®ECO Fluorine-Free, Water Repellent Finishes for Ultimate Performance

In recent years, many scientists have shifted from favoring a “primordial soup” in pools of water to hydrothermal vents deep in the ocean as the original source of life on Earth. Regardless what the real beginning really was, water was certainly involved in the process some 3,5bln years ago. And since then, Mother Nature designed many ways to benefit of water and to be sheltered from it. Many engineering challenges humans face can be solved by turning to those 3,5bln years of experience and by using natural design as springboard. That’s biologically inspired engineering or, in short, bionics. BIONIC-FINISH®ECO of RUDOLF GROUP is Mother Nature’s work reproduced on textiles and apparel to protect us from water. To perform.

  • BIONIC-FINISH®ECO Fluorine-Free, Water Repellent Finishes for Ultimate Performance

In recent years, many scientists have shifted from favoring a “primordial soup” in pools of water to hydrothermal vents deep in the ocean as the original source of life on Earth. Regardless what the real beginning really was, water was certainly involved in the process some 3,5bln years ago. And since then, Mother Nature designed many ways to benefit of water and to be sheltered from it. Many engineering challenges humans face can be solved by turning to those 3,5bln years of experience and by using natural design as springboard. That’s biologically inspired engineering or, in short, bionics. BIONIC-FINISH®ECO of RUDOLF GROUP is Mother Nature’s work reproduced on textiles and apparel to protect us from water. To perform.

Back in 2003, RUDOLF GROUP borrowed from Mother Nature the idea of dendrimers (from dendron, Greek word for ‘tree’), molecules made of multi-functional branches that interact among themselves, co-crystallize, and self-organize into highly ordered, multicomponent systems. These hyper-branched polymers attach to the textile and embed fluorine-free, durable water-repellent performance.
In 2021 BIONIC-FINISH®ECO comes as a reviewed and extended family of unique nonhalogenated, APEO-free, fluorine-free formulations suited for different materials and designed for different applications and needs. Still very much based on patented dendrimer technology, the new and strengthened BIONIC-FINISH®ECO’s product portfolio:

• Provides non-fluorinated and highly durable water repellent textile finishes for high-performance, professional applications (e.g. when brushing resistance is required);
• Delivers highly efficient and durable performance with low application amounts thus not affecting fabric feel and appearance (e.g. when remarkable softness is important);
• Fulfills a range of challenging technical requirements (e.g. minimal impact on flame retardant properties of technical fibers);
• Is suitable for both sportswear and outdoor applications, as well as for casual apparel and fashion clothing;
• Is bluesign® approved, ZDHC chemical gateway certified and compliant with most RSLs;

BIONIC-FINISH®ECO new portfolio includes universal and versatile solutions targeting the most standard requirements, as well as customized solutions that meet more demanding and specific expectations such as improved resistance to dry-cleaning. “None of us can entirely predict where our voyage will lead” says Dr. Gunther Duschek, RUDOLF GROUP Managing Director. “However, BIONIC-FINISH®ECO of RUDOLF GROUP will always be the fluorine-free, durable water repellent for ultimate  performance. As it is today”.

(c) - bionic surfaces -
The red dye being bonded to two -OH functionalized PP cloths symbolizes Arginine - a basic amino acid being able to inactivate SARS-CoV-2 on NWs
25.02.2021

Arginine coating of non wovens reduce infectivity of SARS-CoV-2

Patients as well as air-condition and ventilator systems spread SARS-CoV-2 virus as aerosols which settle on surfaces and remain there infective for more than 72 hours. That‘s why the pandemic has triggered an intensive search for Personal Protective Equipment PPE whose surfaces have antiviral properties, e.g. are able to bind and inactivate adhering virus.

In this context the chemical stability of the materials being used for PPE, polypropylene PP and/or polyester PET, is a challenge. More precisely, the absence of so-called ‘functional groups‘, like -OH, -COO-, -NH3+ at the material‘s surface. These groups are the fundamental basis for surface chemistry – specifically for attaching antiviral compounds onto the surfaces of man-made fibers.

Patients as well as air-condition and ventilator systems spread SARS-CoV-2 virus as aerosols which settle on surfaces and remain there infective for more than 72 hours. That‘s why the pandemic has triggered an intensive search for Personal Protective Equipment PPE whose surfaces have antiviral properties, e.g. are able to bind and inactivate adhering virus.

In this context the chemical stability of the materials being used for PPE, polypropylene PP and/or polyester PET, is a challenge. More precisely, the absence of so-called ‘functional groups‘, like -OH, -COO-, -NH3+ at the material‘s surface. These groups are the fundamental basis for surface chemistry – specifically for attaching antiviral compounds onto the surfaces of man-made fibers.

Antiviral surface modification with the basic amino acid Arginine Arg is a new approach to inactivate SARS-CoV-2. - bionic surfaces‘ - development was tested according to ISO 18184:2019 „Determination of antiviral activity of textile products“ at Institute for Virology and Immunology at University Wuerzburg, Germany. - The finding: „[Six hours] incubation on [Arginine] coated NW reduced viral infectivity by more than five orders of magnitude.“ In other words: An amount of, for example, 10.000.000 virus is reduced to 100 (by five orders of magnitude).

- bionic surfaces – has more than 30 years experience in wet-chemical surface modification of man-made polymers like PDMS, PP, PE, PTFE.

More information:
antiviral Arginin
Source:

- bionic surfaces -

MaruHachi/AMAC: High-temperature thermoplastic tapes and laminates (c) MaruHachi
16.02.2021

MaruHachi/AMAC: High-temperature thermoplastic tapes and laminates

With their recently installed high-temperature unidirectional tape line, Japan-based composites manufacturer MaruHachi enables new opportunities for high-end applications in demanding market segments like aerospace, automotive or others outperforming traditional materials based on PP and PA which are already widely available.

In the first phase, MaruHachi will produce up to 40 tons/year and focuses now specifically on high-temperature thermoplastic uni-directional (UD) tapes and multi-layer sheet laminates. The material is based on high-performance fibers like carbon, aramid, glass or natural fibers and the matrix can be high-performance polymers like PPS, PEEK or other higher temperature polymers, which are much tougher than epoxies and easy to recycle. With a width of 500 mm, a specific weight from 60 to 350 g/m2, depending on the chosen material, the lines can operate under temperatures up to 420 degrees Celsius. Working under these extremely high temperatures allows for better material properties of the final application, higher performance, increased resistance and integrated high-performance functionalities e.g. by overmoulding.

With their recently installed high-temperature unidirectional tape line, Japan-based composites manufacturer MaruHachi enables new opportunities for high-end applications in demanding market segments like aerospace, automotive or others outperforming traditional materials based on PP and PA which are already widely available.

In the first phase, MaruHachi will produce up to 40 tons/year and focuses now specifically on high-temperature thermoplastic uni-directional (UD) tapes and multi-layer sheet laminates. The material is based on high-performance fibers like carbon, aramid, glass or natural fibers and the matrix can be high-performance polymers like PPS, PEEK or other higher temperature polymers, which are much tougher than epoxies and easy to recycle. With a width of 500 mm, a specific weight from 60 to 350 g/m2, depending on the chosen material, the lines can operate under temperatures up to 420 degrees Celsius. Working under these extremely high temperatures allows for better material properties of the final application, higher performance, increased resistance and integrated high-performance functionalities e.g. by overmoulding.

Since 2017, MaruHachi Group is active in the European market in cooperation with Dr. Michael Effing,the CEO of AMAC GmbH, who advises and supports the company strategically. The established, family-owned MaruHachi Group has a strong history in automotive and medical textiles and has been active in the innovative composites market for more than 15 years.

Toshi Sugahara, CEO of MaruHachi: “For many years, we have already been cooperating with domestic and international partners on high-demand applications and therefore, MaruHachi decided now to invest over 1 million EUR in this new line in phase 1, including a funding participation from the Japanese government NEDO. New developments in phase 2 will be be undertaken by end of 2021 on the downstream technologies like the automated preforming and consolidation. With our new products, we want to contribute to significant weight reductions of the final products, thus improve energy efficiency while offering a cost-efficient and high-quality solution.”

Dr. Effing, CEO of AMAC GmbH confirms: „The focus on the niche of high-temperature products based on PPS and PEEK allows MaruHachi on very demanding high-end applications such as structural frames on space and aircrafts, aircraft seats or engine components etc. The tapes are fully recyclable and can be processed e.g. with high-speed with laser-based tape placement machines and robots.”

Source:

AMAC GmbH

02.02.2021

VDMA continues technology webtalks

  • Webtalk on material efficiency and recycling for the manmade fiber industry

 
The next VDMA technology webtalk is scheduled for 9th February 2021 (2-4 pm CET). The focus will be on "Material efficiency & recycling technologies for the manmade fiber industry".

The presenters and their topics at a glance:

  • Webtalk on material efficiency and recycling for the manmade fiber industry

 
The next VDMA technology webtalk is scheduled for 9th February 2021 (2-4 pm CET). The focus will be on "Material efficiency & recycling technologies for the manmade fiber industry".

The presenters and their topics at a glance:

  • Manfred Dobersberger, PureLoop and Wolfgang Hermann, EREMA Engineering Recycling Maschinen und Anlagen will present an integrated shredder extrusion technology for fibrous, textiles scraps, multilayers, films, trays, straps, foam, trays but also polymer mix materials from textiles and even classical thermoplastic composite materials.
  • Axel Hannemann, company Gneuss, offers recycling solutions which enable the fibre manufacturer to use their otherwise worthless fibre waste to substitute virgin material in the manufacture of high-quality fibres.
  • Markus Reichwein, Oerlikon Manmade Fibers: “We at Oerlikon Manmade Fibers describe a cascaded approach into new technologies as well as different material sources outlining your need for versatile solutions.”

After the presentations, the experts will be available to answer the participants' questions. Registration is possible.

Source:

VDMA e.V. Textilmaschinen

HeiQ/Nylstar: Launch of HeiQ Viroblock Permanent on Meryl® Skinlife Force (c) Nylstar
28.01.2021

HeiQ/Nylstar: Launch of HeiQ Viroblock Permanent on Meryl® Skinlife Force

A decade long collaboration between Swiss textile innovator HeiQ and Spanish premium synthetic fiber manufacturer Nylstar, has resulted in the innovation of a revolutionary new premium antiviral and antimicrobial textile with zero pollution sustainable benefits, Meryl® Skinlife Force powered by HeiQ Viroblock Permanent, winner of ISPO Textrends Award for the Best Product.

A decade long collaboration between Swiss textile innovator HeiQ and Spanish premium synthetic fiber manufacturer Nylstar, has resulted in the innovation of a revolutionary new premium antiviral and antimicrobial textile with zero pollution sustainable benefits, Meryl® Skinlife Force powered by HeiQ Viroblock Permanent, winner of ISPO Textrends Award for the Best Product.

The new technology is used exclusively on Meryl® Skinlife Force, an hi-tech fabric that combines the silver-ion active principle antimicrobial properties developed by HeiQ and Nylstar’s hydrogen-based technology which allows the creation of yarns with a very strong molecular cohesion structure. The Hydrogen molecular structure makes Meryl® Skinlife Force a high-performance fabric in terms of moisture management and breathability, offering a natural stretch without elastane as well as excellent durability thanks to its continuous and high tenacity filaments. The robust durability of HeiQ Viroblock Permanent is achieved thanks to the silver particles being added directly into the raw polymer of the yarn thereby keeping these properties active for the lifetime of garments. Fabric samples successfully demonstrated a very strong antimicrobial efficacy with over 99.99% reduction of both gram-positive and gram-negative bacteria after 100 washes. Antiviral test is underway.

Both HeiQ and Nylstar will be “exhibiting” at ISPO Munich Online from February 1st to 5th. Nylstar won the Textrends 2021 Award for the Best Product in the Base Layer Category.