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Collaboration Messe Frankfurt Dornbirn Messe Frankfurt India
20.01.2025

Dornbirn Global fiber congress at Techtextil India Symposium 2025

As the global demand for technical textiles surges, India is emerging as a key hub for innovation and growth. Recognizing the vast potential of this evolving market, Messe Frankfurt Trade Fairs India announced a collaboration for ‘Techtextil India - the country’s premier platform for the technical textiles industry with Austrian Fibers Institute. This strategic alliance between the two-leading platforms in technical textiles will bring the Asia edition of the renowned Dornbirn GFC at a part of Techtextil India Symposium in 2025.

The 10th edition of Techtextil India 2025 which is scheduled from 19 – 21 November 2025, at the Bombay Exhibition Centre, Mumbai, will open its doors for the Dornbirn Global fiber congress Asia on 18th November 2025 to be held under Techtextil India Symposium.

The Dornbirn GFC Asia in India 2025 will spotlight on theme titled as ‘Shaping the future: Sustainable Growth in Fiber Solutions and Innovations’. The conference will be led by globally acclaimed subject matter experts, researchers, manufacturers and thought leaders.

As the global demand for technical textiles surges, India is emerging as a key hub for innovation and growth. Recognizing the vast potential of this evolving market, Messe Frankfurt Trade Fairs India announced a collaboration for ‘Techtextil India - the country’s premier platform for the technical textiles industry with Austrian Fibers Institute. This strategic alliance between the two-leading platforms in technical textiles will bring the Asia edition of the renowned Dornbirn GFC at a part of Techtextil India Symposium in 2025.

The 10th edition of Techtextil India 2025 which is scheduled from 19 – 21 November 2025, at the Bombay Exhibition Centre, Mumbai, will open its doors for the Dornbirn Global fiber congress Asia on 18th November 2025 to be held under Techtextil India Symposium.

The Dornbirn GFC Asia in India 2025 will spotlight on theme titled as ‘Shaping the future: Sustainable Growth in Fiber Solutions and Innovations’. The conference will be led by globally acclaimed subject matter experts, researchers, manufacturers and thought leaders.

The GFC Asia – India Conference will host a diverse line-up of speakers from India and around the world, showcasing cutting-edge innovations and expertise in the fiber and textile industry. The discussions will spotlight ground-breaking advances in spinning technology.

Driven by intensive research and development, the upcoming edition of the Techtextil India will present the innovative strides made by the industry players. From various stages of production of man-made fibre, non-woven and others, to the evolving applications and maintenance methods, the expo will be a source of upgrading knowledge and expanding the network.

Techtextil India 2025 edition is already sold out and has witnessed a strong interest from leading global brands who have signed up to exhibit. Indian government is aiming for the technical textile market to reach USD 40 billion by 2030 and total exports targeted are USD 10 billion by 2030. The Indian government and the industry players are confident that India will soon become the world leader in manufacturing of technical textiles. Schemes like National Technical textiles Mission (NTTM) and Technology Upgradation Fund Scheme (TUFS) are offering the benefits to industry stakeholders. Under NTTM, the government is focusing on 156 R&D projects for driving innovations. The government is also encouraging Foreign Direct Investments (FDIs) to boost the segment.

The growing focus on sustainability and circularity in textiles is opening up new avenues encouraging reuse, repairing, refurbishing and recycling of the products. Indian government and technical textile educational programmes are witnessing a growth to impart knowledge and skills across categories like medical textiles, mobile textiles, geotextiles, geosynthetics and etc., which represent an attractive future. Applications ranging from medical textiles to sportswear, automotive to construction and environmental sustainability are driving the demand for high-performance materials.

Amidst this backdrop, the collaboration of Dornbirn GFC and Techtextil India 2025 marks a pivotal step in positioning India as a global hub for technical textile innovation and strengthening cross-border knowledge exchange. With the technical textiles market poised to redefine industries, Techtextil Symposium India will also present Meditex Conference during the event.

Source:

Messe Frankfurt India

Solvay and Hankook sign MoU for circular silica Photo (c) Solvay S.A.
13.01.2025

Sustainable tire manufacturing: Solvay and Hankook sign MoU for circular silica

Solvay and Hankook announced the signing of a Memorandum of Understanding (MOU) to collaborate on the development of circular silica coming from biosourced and waste sourcing for tire production. This partnership combines Solvay's silica expertise and sustainability commitment with Hankook’s manufacturing capabilities and market leadership.

Solvay’s silica portfolio is recognized to ensure low rolling resistance, which contributes to lower fuel consumption for thermal engines and extended battery range for electric vehicles, but also provides high wear resistance, leading to longer tire life. In addition, highly dispersible silica (HDS) is instrumental to reach the circular ambition of tire manufacturers. In the continuity of the Livorno (Italy) rice husk ash (RHA) production, Solvay is continuously engaged in a substantial circular conversion in all regions with tire industry leaders.

Solvay and Hankook announced the signing of a Memorandum of Understanding (MOU) to collaborate on the development of circular silica coming from biosourced and waste sourcing for tire production. This partnership combines Solvay's silica expertise and sustainability commitment with Hankook’s manufacturing capabilities and market leadership.

Solvay’s silica portfolio is recognized to ensure low rolling resistance, which contributes to lower fuel consumption for thermal engines and extended battery range for electric vehicles, but also provides high wear resistance, leading to longer tire life. In addition, highly dispersible silica (HDS) is instrumental to reach the circular ambition of tire manufacturers. In the continuity of the Livorno (Italy) rice husk ash (RHA) production, Solvay is continuously engaged in a substantial circular conversion in all regions with tire industry leaders.

The companies will now jointly advance the technical development of circular silica, with the goal of mass production in the near future. Solvay products, currently at pilot phase, are under evaluation. This partnership aligns with both companies' commitment to sustainability and their shared goal of a more environmentally responsible automotive future.

"This partnership marks a significant milestone in our journey towards more sustainable tire manufacturing," said Bonhee Ku, President & CTO of Hankook Tire. "By collaborating with Solvay, we can advance the development of sustainable materials that enhance tire performance while contributing to a circular economy and a greener future."

An Nuyttens, President of Solvay’s Silica & Special Chem business added, "Silica is essential for high-performance tires. We are thrilled to collaborate with Hankook on circular silica solutions to address key industry challenges while offering superior performance and environmental benefits. Together, we aim to push the boundaries of sustainable innovation.”

Source:

Solvay S.A.

Cinte Techtextile China Photo Messe Frankfurt (HK) Limited
09.01.2025

Cinte Techtextil China 2025 returns with debut zones

From 3 to 5 September, Cinte Techtextil China will return to the Shanghai New International Expo Centre, with new features capitalising on market growth. In addition to its regular European Zone, the upcoming edition will launch two product zones, namely the Medtech & Protech Zone and the Mobiltech Zone, alongside other precisely crafted features.

With innovation and sustainability at its heart, the fair’s fringe programme will include events such as Econogy Talks, an innovative product showcase and other themed conferences and presentations, maximising promotion and information exchange between fairgoers.

“As the largest global organiser of textile trade fairs, pairing the strength of Messe Frankfurt’s Texpertise Network to market needs as global economies evolve, is key to Cinte Techtextil China’s long-term growth,” said Ms Wilmet Shea, General Manager of Messe Frankfurt (HK) Ltd. “These new zones have been created strategically, allowing us to expand on under-utilised opportunities for exhibitors and visitors in high-potential technical textile and nonwoven sub-sectors, as well as steering the industry towards an innovative and sustainable future.”

From 3 to 5 September, Cinte Techtextil China will return to the Shanghai New International Expo Centre, with new features capitalising on market growth. In addition to its regular European Zone, the upcoming edition will launch two product zones, namely the Medtech & Protech Zone and the Mobiltech Zone, alongside other precisely crafted features.

With innovation and sustainability at its heart, the fair’s fringe programme will include events such as Econogy Talks, an innovative product showcase and other themed conferences and presentations, maximising promotion and information exchange between fairgoers.

“As the largest global organiser of textile trade fairs, pairing the strength of Messe Frankfurt’s Texpertise Network to market needs as global economies evolve, is key to Cinte Techtextil China’s long-term growth,” said Ms Wilmet Shea, General Manager of Messe Frankfurt (HK) Ltd. “These new zones have been created strategically, allowing us to expand on under-utilised opportunities for exhibitors and visitors in high-potential technical textile and nonwoven sub-sectors, as well as steering the industry towards an innovative and sustainable future.”

No longer an initiative but a prevailing commitment, sustainability has opened up new possibilities for technical textile and nonwoven development. Speaking at the 2024 edition, Mr Lin Yang, Sales Department Minister of Nihon Glass Fiber Industrial Co., Ltd. commented: “The sustainability trend has fostered the robust growth of new energy vehicles and in turn the automotive interior material businesses. Under the global eco-trend, green application will become the core development of automotive textiles, with more and more car manufacturers applying functional fibres to make automotive materials more durable, anti-high-energy radiation and so on.”

A few booths away, Mr Denis Wallrafen, Sales Manager of Reifenhäuser Enka Tecnica, also referred to sustainability as “the rule for success”, saying that the company has “developed an innovative, cost-effective method for refurbishing spunbond and meltblown spinnerets without compromising quality, with the same excellent performance of a new spinneret.”

Sustainability and innovation will again be strong focuses for Cinte Techtextil China in 2025, as will its propensity to bridge gaps between Asian and Western markets. Speaking at the previous edition, which attracted nearly 17,000 visits from 77 countries and regions, Mr Kabilen Sornum, Vice President Asia Pacific of Marketing & E-Commerce at Groz-Beckert East Asia said: “As one of the most important fairs for us in China, Cinte Techtextil China covers the domestic market, while we also receive a lot of international visitors here, allowing us to exchange ideas and gain market insights. As China is a very big market, very often we sell directly and indirectly to them during the fair, where all our users come together.”

The fair’s product categories cover 12 application areas, which comprehensively span a full range of potential uses in modern technical textiles and nonwovens. These categories also cover the entire industry, from upstream technology and raw materials providers to finished fabrics, chemicals and other solutions. This scope of product groups and application areas ensures that the fair is an effective business platform for the entire industry.

Cinte Techtextil China will be held from 3 – 5 September 2025.

The fair is organised by Messe Frankfurt (HK) Ltd; the Sub-Council of Textile Industry, CCPIT; and the China Nonwovens & Industrial Textiles Association (CNITA).

Source:

Messe Frankfurt (HK) Limited

(c) Polartec® Milliken
22.12.2024

Polartec: Beyond Performance. The fabric of progress.

Polartec®, a Milliken™ & Company brand and creator of innovative textile solutions for future thinking, introduces Product, the third and final chapter in Polartec’s multifaceted Beyond Begins Today mini-series.

Beyond Begins Today looks at how Polartec fabrics are made to last, and to be used and enjoyed from one generation to the next and beyond. It explores the innovative monomaterials, repurposed plastic and the plant-based nylon membranes that Polartec uses to set new standards for high performance fabrics; the ambitious climate-related objectives across the entire value chain that exceed existing mandates. Such a holistic strategy allows Polartec to stay at the forefront of its industry by producing top-notch textiles that champion environmental stewardship and pave the way for a more sustainable tomorrow.

Within the rich tapestry of Polartec’s legacy, threads of innovation weave together the past, present, and future. From its humble origins as pioneers of synthetic fleece to bold strides into new realms, Polartec represents the promise of harmony between creation and care; touching lives while honoring the earth.

Polartec®, a Milliken™ & Company brand and creator of innovative textile solutions for future thinking, introduces Product, the third and final chapter in Polartec’s multifaceted Beyond Begins Today mini-series.

Beyond Begins Today looks at how Polartec fabrics are made to last, and to be used and enjoyed from one generation to the next and beyond. It explores the innovative monomaterials, repurposed plastic and the plant-based nylon membranes that Polartec uses to set new standards for high performance fabrics; the ambitious climate-related objectives across the entire value chain that exceed existing mandates. Such a holistic strategy allows Polartec to stay at the forefront of its industry by producing top-notch textiles that champion environmental stewardship and pave the way for a more sustainable tomorrow.

Within the rich tapestry of Polartec’s legacy, threads of innovation weave together the past, present, and future. From its humble origins as pioneers of synthetic fleece to bold strides into new realms, Polartec represents the promise of harmony between creation and care; touching lives while honoring the earth.

Product, the final installment of Beyond Begins Today, features Paul Cosgrove (Chief Product Officer, Mammut), Sachiye Koide, (Mountaineer & Product Engineer), and Eric Yung (Managing Director of Polartec). Through a discussion that begins with a reverent nod to the iconic designs of brands like Mammut and the pioneers who wore them, Chapter 3 leads into the soul of the great outdoors. From a celebration of the gear that binds lives to landscapes, and passions to purpose, it looks at a legacy that connects Polartec’s promise to enhance lives to the enduring strength of its textile solutions.

Source:

Polartec® Milliken

AZL CAD Design and CAE analysis examples for type IV hydrogen pressure vessels, including an example of a winding scheme and relative weight results for different pressure vessel designs Graphic © AZL Aachen GmbH
19.12.2024

R&D project of Fibre-reinforced Hydrogen Pressure Vessels completed

Fibre-reinforced pressure vessels are increasingly becoming the cornerstone of the hydrogen economy, playing a key role in the transport, storage and use of hydrogen for both mobile and stationary applications. AZL Aachen GmbH, in collaboration with a consortium of 25 leading industry players, has successfully completed a 12-month R&D project entitled 'Trends & Design Factors for Hydrogen Pressure Vessels'.

The 550-pages report, presented to the 40 participants of the final project meeting in November, provides a comprehensive overview of the market and technology trends related to the development of thermoset and thermoplastic pressure vessels. By addressing material impacts, complex design considerations and advanced manufacturing technologies, the project provides business- and technology insights. Companies along the whole value chain of pressure vessels have been involved, resins, fibres, liners, production systems, vessel manufacturers, hydrogen system integrators and OEMs.

Fibre-reinforced pressure vessels are increasingly becoming the cornerstone of the hydrogen economy, playing a key role in the transport, storage and use of hydrogen for both mobile and stationary applications. AZL Aachen GmbH, in collaboration with a consortium of 25 leading industry players, has successfully completed a 12-month R&D project entitled 'Trends & Design Factors for Hydrogen Pressure Vessels'.

The 550-pages report, presented to the 40 participants of the final project meeting in November, provides a comprehensive overview of the market and technology trends related to the development of thermoset and thermoplastic pressure vessels. By addressing material impacts, complex design considerations and advanced manufacturing technologies, the project provides business- and technology insights. Companies along the whole value chain of pressure vessels have been involved, resins, fibres, liners, production systems, vessel manufacturers, hydrogen system integrators and OEMs.

The first phase of the project involved an in-depth review of regulations, requirements and safety standards, together with examples of state-of-the-art hydrogen pressure vessels. Key aspects covered included manufacturing processes, supply chains and production technologies, as well as a comprehensive patent analysis. In addition, the study examined winding patterns, design strategies, material models and software tools used in the development of pressure vessels.

The second phase of the project involved extensive engineering studies. Warden Schijve, Design Leader at AZL, explained the procedure: "Our team of experts developed CAE models for 12 different layouts of a two-metre, 350-litre Type IV pressure vessel designed for 700 respectively 350 bar applications. These models incorporated different resin and fibre types, layup variations and boss designs to evaluate the impact on mechanics, weight, cost and carbon footprint. We also explored hybrid fibre combinations and dome reinforcement using patch technologies. Detailed process chain modelling provided further insight into cost structures and CO2 footprints.”

The results of the project also show initial future trends: Through the targeted use of advanced material combinations, adapted designs and manufacturing techniques, it is possible to significantly reduce the weight and cost of the vessels while maintaining the necessary safety standards. Compared to state-of-the-art vessels, hydrogen over tank weight efficiencies could be improved from the standard 6 to 7% up to more than 11%. These developments could strengthen the competitiveness of hydrogen technology in various mobility and energy sectors in the future.

“The knowledge gained from the project provides a solid foundation for the use of new technologies to meet the hydrogen economy's requirements for safe and cost-effective pressure vessels,” commented Celal Beysel, Chairman of the Board at FLOTEKS Plastik San. Tic. A.Ş. Floteks, a Tier 1 supplier of plastic components, has launched numerous R&D initiatives in the design and development of Type IV vessels in recent years. In 2023, the company joined the AZL Composite Pipes and Vessels Working Group and the 'Trends and Design Factors for Hydrogen Pressure Vessels' project. Beysel added: "We are pleased to announce that Floteks has established a new company called Pressura in 2024, which will focus on the production of type 4 pressure vessels for buses and trucks."

Companies and organisations seeking detailed insights or collaboration opportunities are encouraged to contact AZL. AZL Aachen GmbH serves as an innovation partner for hydrogen tank development, prototyping and testing, and is dedicated to advancing composite technologies.

Source:

AZL Aachen GmbH

Heytex Group core business now part of Freudenberg Quelle: ©Freudenberg Performance Materials
11.12.2024

Heytex Group core business now part of Freudenberg

The antitrust authorities in Germany, Austria and Poland have approved the acquisition of Heytex core business by Freudenberg Performance Materials Holding GmbH, the parent company of Mehler Texnologies. Heytex core business with three production locations (in Germany and China) and all headquarter-related functions will therefore become part of the newly-formed specialist for coated technical textiles.

With this merger, Mehler Texnologies and Heytex are expanding their technology platform and their global market presence, and increasing their R&D capacities. This will generate additional leverage for the development of innovative solutions for their joint customers.

Heytex operates worldwide; the Bramsche, Neugersdorf and Zhangjiagang sites will play a key role in the future direction of the technical textiles business at Freudenberg Performance Materials due to their good investment status and the expected synergies.

The antitrust authorities in Germany, Austria and Poland have approved the acquisition of Heytex core business by Freudenberg Performance Materials Holding GmbH, the parent company of Mehler Texnologies. Heytex core business with three production locations (in Germany and China) and all headquarter-related functions will therefore become part of the newly-formed specialist for coated technical textiles.

With this merger, Mehler Texnologies and Heytex are expanding their technology platform and their global market presence, and increasing their R&D capacities. This will generate additional leverage for the development of innovative solutions for their joint customers.

Heytex operates worldwide; the Bramsche, Neugersdorf and Zhangjiagang sites will play a key role in the future direction of the technical textiles business at Freudenberg Performance Materials due to their good investment status and the expected synergies.

“We are delighted that Heytex has become part of Freudenberg Performance Materials. This lays the foundation for the two strong brands Mehler Texnologies and Heytex to grow together for the benefit of customers,” Dr. Andreas Raps, CEO of Freudenberg Performance Materials and Member of the Freudenberg Group Executive Council, commented. He went on to say: “Mehler Texnologies and Heytex will make up the newly-formed Coated Technical Textiles Division at Freudenberg Performance Materials. Hans-Dieter Kohake, former CEO of the Heytex Group, will contribute Heytex’s expertise to the management team. As Senior Vice President, Dr. Henk R. Randau will lead the business going forward.”

Source:

Freudenberg Performance Materials Holding GmbH

Adient Front Seat Cushion prototype Credits: Adient
Adient Front Seat Cushion prototype
27.11.2024

Adient, Jaguar Land Rover and Dow develop closed-loop PU foam seats

Adient, Jaguar Land Rover, and Dow have worked together to produce seat foam for the luxury car manufacturer’s vehicles using closed-loop recycled components. This represents an industry-first in the automotive sector, heading towards a circular economy and a lower CO2 footprint for cars as the end product.

In order to address the environmental impact of polyurethane (PU) foams used in car seats, the industry partners decided to team up. This means so-called ‘post-consumer’ PU molded foams have previously been collected from end-of-life vehicles, sorted, and shredded. On this basis, Dow produces a new, circular polyol, which is subsequently processed and integrated into Adient’s seating formulas. As a result, the Adient Front Seat Cushion prototypes are currently composed of 20% re-polyol from PU end-of-life vehicles.

Adient, Jaguar Land Rover, and Dow have worked together to produce seat foam for the luxury car manufacturer’s vehicles using closed-loop recycled components. This represents an industry-first in the automotive sector, heading towards a circular economy and a lower CO2 footprint for cars as the end product.

In order to address the environmental impact of polyurethane (PU) foams used in car seats, the industry partners decided to team up. This means so-called ‘post-consumer’ PU molded foams have previously been collected from end-of-life vehicles, sorted, and shredded. On this basis, Dow produces a new, circular polyol, which is subsequently processed and integrated into Adient’s seating formulas. As a result, the Adient Front Seat Cushion prototypes are currently composed of 20% re-polyol from PU end-of-life vehicles.

This is the first time, to the awareness of all parties involved, that a PU molded foam for seating applications has been produced under these conditions. This milestone represents a significant leap forward for the automotive industry, positioning PU at the heart of a circular economy system. By integrating recycled components into luxury vehicle seat foams, the partners are not only reducing the environmental impact but also paving the way for a more sustainable future in automotive manufacturing.

“Developing components with closed-loop recycled foams represents a major milestone for the team and simultaneously spurs us on to continuously increase the proportion of recycled materials in our seating systems in the future,” said Frank Toenniges, Director Sustainable Product Design & Business Process Improvements at Adient. “Additionally, it positions the actors along the value chain favorably to comply with the proposed European End-of-Life Directive.”

Andrea Debbane, Chief Sustainability Officer at JLR stated: “This breakthrough is a great example of how the automotive value chain can work as a collective to demonstrate that full circularity is feasible and unlock meaningful change at scale. This way of working holds significant potential for increasing sustainability and is critical to JLR's transition to more circular vehicles.”

As a next step, further research will be conducted to increase the percentage of re-polyol content. At the same time, the closed-loop seat foam will be tested with JLR on a production scale from early 2025.

26.11.2024

Autoneum expands its presence in the Asian growth markets

In line with the new Level Up corporate strategy, which focuses on innovation and a future-fit product portfolio among other things, Autoneum has further expanded its research and development activities in 2024 with a particular focus on New Mobility. In addition to establishing a specialized team to accelerate the development and market readiness of novel products and technologies for electric vehicles, the Company has complemented its global innovation network with a new Research & Technology (R&T) Center in Shanghai, China.

Innovation is and always has been an integral part of Autoneum’s corporate strategy and thus a key factor for business success. The Company’s innovation activities are also an important aspect of its vision: to be the global leader for innovative and sustainable solutions bringing comfort to every vehicle. Against the backdrop of the rapidly advancing electrification of mobility and Autoneum’s strategic focus on further expanding its presence in the Asian growth markets, the expansion activities of the company-wide innovation network this year concentrated on two key areas in particular: New Mobility and presence in China.

In line with the new Level Up corporate strategy, which focuses on innovation and a future-fit product portfolio among other things, Autoneum has further expanded its research and development activities in 2024 with a particular focus on New Mobility. In addition to establishing a specialized team to accelerate the development and market readiness of novel products and technologies for electric vehicles, the Company has complemented its global innovation network with a new Research & Technology (R&T) Center in Shanghai, China.

Innovation is and always has been an integral part of Autoneum’s corporate strategy and thus a key factor for business success. The Company’s innovation activities are also an important aspect of its vision: to be the global leader for innovative and sustainable solutions bringing comfort to every vehicle. Against the backdrop of the rapidly advancing electrification of mobility and Autoneum’s strategic focus on further expanding its presence in the Asian growth markets, the expansion activities of the company-wide innovation network this year concentrated on two key areas in particular: New Mobility and presence in China.

Responding to the increasing demand for new components for electric vehicles, Autoneum has formed a specialized team dedicated exclusively to New Mobility to further strengthen its position in this growing market segment. The New Mobility team was established in fall 2023 and has been completed over the past twelve months with members from different departments. It unites a broad set of skills from various fields of expertise such as product innovation, product development and industrialization, sales and business development. The team places a particular focus on accelerating the development and time to market of new products and technologies specifically for the fast-evolving battery systems and architectures of electric vehicles. It also acts as a catalyst for innovation pro-jects and strategic partnerships. The New Mobility experts work in close collaboration with the various departments across the organization and are based at Autoneum’s Swiss headquarters in Win-terthur, at the German locations in Gundernhausen and Munich and in Shanghai, China.

Shanghai is also the location of Autoneum’s third R&T Center worldwide, which was opened in China this summer to enhance the Company’s competitiveness in Asia and cater to the development and innovation needs in this key strategic market. The new center aims to intensify and accelerate the development and production of innovative components and materials, especially regarding e-mobility. The establishment of an R&T team in China allows Autoneum to develop products in a timely manner to respond to the dynamic market conditions and the rapidly evolving requirements of Chinese vehicle manufactures. In terms of material development, the center will support the wider organization in the further development of sustainable materials, especially polyester. In addition, it will promote the introduction of Autoneum’s environmentally friendly products such as the Company’s monomaterial carpet systems featuring Autoneum’s innovative and latex-free alternative backcoating (ABC) process to the Chinese market. Moreover, the R&T Center in Shanghai will also serve as a valuable point of contact with the 14 production facilities of the Jiangsu Huanyu Group, whose acquisition of a majority stake of 70 percent by Autoneum was recently announced and is expected to be closed in March 2025 (see media release of November 19, 2024). While the plants in China will benefit from the local R&T team’s expertise in the company’s technologies, the existing broad customer base of Jiangsu Huanyu Group will support Autoneum in better understanding and serving the innovation needs of Chinese vehicle manufacturers.

The new R&T Center in Shanghai complements the primary R&T Center in Winterthur, Switzerland, which supports the global network with its expertise and a vast array of services in the areas of pre-development as well as acoustic and thermal benchmarking, simulation and testing, and the center in Bocholt, Germany. The latter was integrated into Autoneum’s innovation network following the acquisition of Borgers Automotive last year and has since established itself as the Company’s competence center for trunk and trim components. Including the new center in China, a total of approximately eighty R&T employees – including engineers, chemists, physicists and product designers – are continuously working on new ideas aimed at the next technological breakthrough in acoustic and thermal management and shielding technologies.

Source:

Autoneum Management AG

Water-Free Dye by GTT and Golden Long John Photo Green Theme Technologies
20.11.2024

Water-Free Dye by GTT and Golden Long John

Substituting dry curing for traditional water-based techniques, these new textile production solutions greatly reduce water-borne pollution: Green Theme Technologies (GTT), creators of the waterless and PFAS-free EMPEL® textile finishing platform, has teamed up with Golden Long John to promote the next generation of cleaner and more efficient fabric dye and finishing processes.

The textile manufacturing industry generates trillions of gallons of wastewater each year. Traditional textile dyeing and finishing rinses chemical dyes and water repellency onto fabrics. Post-production toxic water is then dumped into rivers and oceans.

Last year, Golden Long John, a major textile supplier of the global footwear industry, introduced GTT’s EMPEL® finishing platform in their Vietnam factories. Their partnership has led to the combination of their two industry leading technologies, the EMPEL® high performance water repellent finish and Golden Long John’s direct dye process.

Substituting dry curing for traditional water-based techniques, these new textile production solutions greatly reduce water-borne pollution: Green Theme Technologies (GTT), creators of the waterless and PFAS-free EMPEL® textile finishing platform, has teamed up with Golden Long John to promote the next generation of cleaner and more efficient fabric dye and finishing processes.

The textile manufacturing industry generates trillions of gallons of wastewater each year. Traditional textile dyeing and finishing rinses chemical dyes and water repellency onto fabrics. Post-production toxic water is then dumped into rivers and oceans.

Last year, Golden Long John, a major textile supplier of the global footwear industry, introduced GTT’s EMPEL® finishing platform in their Vietnam factories. Their partnership has led to the combination of their two industry leading technologies, the EMPEL® high performance water repellent finish and Golden Long John’s direct dye process.

“We believe, Cleaner IS Better and this is a big step forward for the fashion and textile industries,” said Martin Flora, President of GTT Business Development. “Similar to GTT’s EMPEL® application, Golden Long John applies dye chemistry directly onto fabrics. Better performance with much less pollution is our vision for the future.”

Source:

Green Theme Technologies

Photo NASA
05.11.2024

Fibre-reinforced materials for next-generation space missions

A new generation of space materials left Earth November. 5 as they head to the International Space Station (ISS) to undergo testing in the brutal conditions of low Earth orbit.

Developed at the University of Bristol, these high-performance materials could be used to build future space stations, spacecraft for interplanetary travel or a new ISS.

They will be placed on the Bartolomeo platform, located on the front of the ISS, where they will orbit Earth up to 9,000 times over the next 12 to 18 months at speeds of 17,000 mph.

The carbon fibre reinforced composites will need to survive temperatures between -150ºC and +120ºC, space debris travelling seven times faster than a bullet, severe electromagnetic radiation, high vacuum and atomic oxygen, which erodes even the toughest materials.

Prof Ian Hamerton, Professor of Polymers and Sustainable Composites in the University of Bristol’s world-leading Bristol Composites Institute, said:  

A new generation of space materials left Earth November. 5 as they head to the International Space Station (ISS) to undergo testing in the brutal conditions of low Earth orbit.

Developed at the University of Bristol, these high-performance materials could be used to build future space stations, spacecraft for interplanetary travel or a new ISS.

They will be placed on the Bartolomeo platform, located on the front of the ISS, where they will orbit Earth up to 9,000 times over the next 12 to 18 months at speeds of 17,000 mph.

The carbon fibre reinforced composites will need to survive temperatures between -150ºC and +120ºC, space debris travelling seven times faster than a bullet, severe electromagnetic radiation, high vacuum and atomic oxygen, which erodes even the toughest materials.

Prof Ian Hamerton, Professor of Polymers and Sustainable Composites in the University of Bristol’s world-leading Bristol Composites Institute, said:  

“Space is the most challenging environment for which to design new materials. You’re pitting your materials expertise, skills and ingenuity against extremes of temperature, mechanical stress, radiation, high speed impacts and more.

“Any one of those might be difficult, and, unfortunately, gaining access to repair them is not an easy option, so the materials we build must survive without maintenance.  

“The opportunity to test our materials in the proving ground of space is priceless and will help our University of Bristol scientists on the ground improve fibre-reinforced materials for next-generation space missions.”

There are four laboratory-made polymers heading to the ISS, each of which has been reinforced with carbon fibres and two contain nanoparticles. All four are the result of University of Bristol research and one is patented.

 If the materials cope in the harsh environment, they could be used to create longer-lasting space components, allowing spacecraft to travel further, and spend more time in space.

Future communities on new planets will need protection against galactic cosmic radiation. Dr Ali Kandemir, Senior Research Associate at the University of Bristol, is one of several Bristol researchers, supported by the UK Space Agency (UKSA), examining the effects of simulated galactic cosmic radiation on the materials, in a European Space Agency (ESA) project.

Dr Kandemir said: “We want materials that are resilient in the space environment and, importantly, materials that can shield humans from that radiation.

“We also want to make these materials sustainable, so that when they reach the end of their life they can be recycled and used again for the same purpose.”

The launch of the Space X Dragon CRS-2 spacecraft this morning is the culmination of five years of work for Prof Hamerton and his team.

It has included the efforts of early career researchers, postgraduates and several Aerospace Engineering undergraduates at the University of Bristol, whose final year research projects have been linked to the space materials project.

The practical support of the University of Bristol-hosted National Composites Centre (NCC) was crucial to the scale up of the composite materials.

Prof Kate Robson Brown, Vice-President for Research, Innovation and Impact at University College Dublin, and a collaborator on the project, said:

“After nearly five years of research to develop novel composite materials for space applications it is very exciting to see our experiment launch to the International Space Station.

“I am proud to be part of this mission, and to be working with the multidisciplinary and multisector research team to deliver integrated real world and digital testing for innovative materials which will help to drive growth in the new space economy.

“This mission also demonstrates how space research funding creates career changing opportunities for early career researchers and PhD students in a sector of huge value to both Ireland and the UK.”

Funding to support the project was supplied by the ESA, the UKSA, Oxford Space Systems and others.

 

Source:

University of Bristol

23.10.2024

Pushing sustainability and digitalisation in Vietnam’s textile industry

In recent years, Vietnam has rapidly transformed into one of the world’s key textile producers, solidifying its position as the world’s third-ranked exporter behind China and Bangladesh. With a history rooted in silk textile craftsmanship and currently embracing wide ranging modern textile production, the country’s thriving sector offers tremendous growth prospects for both domestic and international businesses. In a bid to harness the potential in Vietnam and Southeast Asia, the Vietnam International Trade Fair for Apparel, Textiles and Textile Technologies (VIATT) will return from 26 – 28 February 2025, with a renewed focus on promoting sustainability and digital transformation.

In recent years, Vietnam has rapidly transformed into one of the world’s key textile producers, solidifying its position as the world’s third-ranked exporter behind China and Bangladesh. With a history rooted in silk textile craftsmanship and currently embracing wide ranging modern textile production, the country’s thriving sector offers tremendous growth prospects for both domestic and international businesses. In a bid to harness the potential in Vietnam and Southeast Asia, the Vietnam International Trade Fair for Apparel, Textiles and Textile Technologies (VIATT) will return from 26 – 28 February 2025, with a renewed focus on promoting sustainability and digital transformation.

Vietnam's textile and apparel sector comprises approximately 7,000 companies and employs over three million workers, with 80% of production capacity used for export and 20% for domestic consumption. Progress is aided by well-developed logistics networks, skilled labour and a stable political environment. As its textile industry evolves, several key trends are influencing its future direction, reflecting a growing emphasis on sustainability and technological advancement, and leading to new opportunities for exhibitors and buyers across the value chain at Vietnam’s comprehensive textile showcase.

Major trends shaping Vietnam's textile market reflected at VIATT
More Vietnamese enterprises are adopting eco-friendly materials, including organic cotton, recycled polyester, and Tencel, while numerous global brands manufacture in Vietnam, and have committed to the "Fashion Industry Charter on Climate Action", aiming to achieve net-zero carbon emissions by 2050.

To further advance sustainable initiatives in the domestic and international textile industry, VIATT 2025 will introduce Econogy Hub, a dedicated platform for innovative, eco-friendly suppliers and service providers to connect with like-minded visitors. The show’s other new Texpertise Econogy features will include the Econogy Finder, an independent verification tool to help sustainable exhibitors effectively communicate their green credentials, and Econogy Talks, the overarching category for eco-focused seminars, forums, and product presentations.

Apart from sustainability, the Vietnamese textile industry is also embracing advanced technologies in design and manufacturing. The launch of the fair’s Innovation & Digital Solutions Zone will provide a centralised platform for exhibitors to showcase innovations such as 3D printing, AI-driven design, and digital printing, which enable manufacturers to boost efficiency and customise products to meet specific market demands.

As well as the introduction of two new product zones, the India Pavilion, organised by The Cotton Textiles Export Promotion Council (TEXPROCIL), will also make its debut at VIATT 2025. Additionally, the Japan and Taiwan Pavilions have confirmed their return, with the Japan Pavilion recognised by VIATT’s visitors as a standout showcase within Southeast Asia's textile fair landscape. Overall, the fair will feature a diverse range of exhibitors across apparel, home textiles, and technical textiles, with many showcasing innovative and sustainable products.

The Vietnam International Trade Fair for Apparel, Textiles and Textile Technologies (VIATT) is organised by Messe Frankfurt (HK) Ltd and the Vietnam Trade Promotion Agency (VIETRADE), covering the entire textile industry value chain.

More information:
Vietnam VIATT
Source:

Messe Frankfurt (HK) Ltd

17.10.2024

PERFORMANCE DAYS honors innovations

When PERFORMANCE DAYS opens its doors on October 23 and 24, 2024, in Halls A1 and A2 at the Messe München exhibition grounds, visitors will once again find fabric innovations for Fall/Winter 2026 across the segments of performance wear, footwear, accessories, and, for the first time, bodywear. The jury, composed of renowned industry experts, reviewed the latest fabrics for the 2026 season in the Trend, Footwear, and Bodywear Forum, looking for outstanding innovations. A total of one Performance Award and one Eco Performance Award were presented.

When PERFORMANCE DAYS opens its doors on October 23 and 24, 2024, in Halls A1 and A2 at the Messe München exhibition grounds, visitors will once again find fabric innovations for Fall/Winter 2026 across the segments of performance wear, footwear, accessories, and, for the first time, bodywear. The jury, composed of renowned industry experts, reviewed the latest fabrics for the 2026 season in the Trend, Footwear, and Bodywear Forum, looking for outstanding innovations. A total of one Performance Award and one Eco Performance Award were presented.

PERFORMANCE DAYS continues to deliver plenty of highlights and innovations in technical fibers and materials in the Trend Forum at the winter exhibition. Since Fall 2023, the event has also focused on the footwear segment, summarizing the latest trends and news in the dedicated Footwear Forum. Starting in October 2024, the organizers will introduce a new Bodywear Collective, complete with a corresponding Trend Forum. In close collaboration with the London Contour Experts and designer and industry expert Nichole de Carle, PERFORMANCE DAYS will feature a Trend Forum dedicated to underwear, shapewear, bras & leggings, yoga in motion, and swimwear.

The expert jury, led by Marco Weichert, CEO of PERFORMANCE DAYS, Jury Head Alexa Dehmel, and guest jurors Regina Goller, a textile expert with experience in sustainable functional fabrics at companies like Odlo, Puma, and Jack Wolfskin, as well as Stephan Prinz, Account Manager Germany at Klopman, praised the quality, sustainability approaches, and high level of innovation in the submissions. The jury awarded one Performance Award (Bodywear) and one Eco Performance Award (Apparel).

The winners are: A. Sampaio & Filhos – Têxteis SA & Penn Textile Solutions GmbH/Penn Italia SRL
For the Fall/Winter 2026 season, the jury selected three awards for outstanding fabrics.

Alongside the Eco Performance Award, which went to A. Sampaio & Filhos – Têxteis SA for the article “69222/Colorful chemistry featuring holistic farming,” one Performance Award
was also presented for the first time in the bodywear segment: Penn Textile Solutions GmbH/Penn Italia SRL made their debut in the Bodywear Forum with "13949.

ECO PERFORMANCE AWARD: A. Sampaio & Filhos – Têxteis SA / Article “69222 - Colorful Chemistry Featuring Holistic Farming”
In collaboration with Good Earth Cotton, this project focuses on sustainable farming practices to reduce the environmental impact of cotton while improving soil health, paving the way for a carbon-neutral future. The supplier is also exploring innovations with organic cotton grown using regenerative farming methods, expanding the scope for future eco-friendly concepts. Additionally, the fabric is dyed using biological dyes—an innovative technique where natural bacteria produce pigments that bond efficiently with the fabric a low temperatures without the use of petrochemicals. The fabric is available in pink and
sand.

Jury Statement: “This fabric takes this year’s focus topic to the next level! A. Sampaio & Filhos – Têxteis SA’s fabric innovation showcases the future of dyeing with microorganisms. Textile dyeing with living organisms is a sustainable and resource-efficient method that requires no harmful chemicals. Additionally, the fabric, made from 100% organic cotton, excels in performance due to an innovative body-mapping concept that provides optimal support during wear.”

PERFORMANCE AWARD: Penn Textile Solutions GmbH / Penn Italia SRL / Article “13949” This fabric, composed of 68% recycled polyamide and 32% ROICA, with a weight of 290 grams, is perfect for baselayer construction. It can be customized with the brand’s own design, featuring open structures and a 3D effect for added texture. Despite its structure, the fabric has an incredibly soft touch, ensuring maximum comfort during wear. Jury Statement: “Penn Textiles was a popular vote, an award worthy of the jury. The fabric has a combination of high density opaque areas with lighter breathable panels. A superior choice for the Bodywear Category because of its customisable 3D design aesthetic, printable qualities and second skin super soft touch. The fabric blend of Roica yarn and recycled PA has many admirable qualities for next to skin, including anti-odor, quick dry and outstanding stretch and recovery to adapt to the body shape. Fabric, with a perfect fit for body contouring products including leggings, underwear and light support shapewear.”

More information:
Performance Award
Source:

Performance Days

Graphic LM Wind Power
14.10.2024

Wind Turbine Blade Recycling: ZEBRA Project Demonstrates Closed-Loop System

The ZEBRA (Zero wastE Blade ReseArch) project marks a significant leap forward in the recycling and circular economy for wind turbine blades. This collaborative effort demonstrates a breakthrough in the complete recycling of thermoplastic blades achieving significant environmental and economic benefits.

The ZEBRA project is a unique partnership led by the French Institute for Technological Research, IRT Jules Verne. Joining forces are industry leaders Arkema (resin supplier), Owens Corning (glass fiber supplier), LM Wind Power (blade manufacturer), SUEZ (dismantling and waste processing), CANOE R&D center (recycling technology), and ENGIE (life cycle analysis).

Each company played a crucial role in the development of the closed-loop recycling process:

The ZEBRA (Zero wastE Blade ReseArch) project marks a significant leap forward in the recycling and circular economy for wind turbine blades. This collaborative effort demonstrates a breakthrough in the complete recycling of thermoplastic blades achieving significant environmental and economic benefits.

The ZEBRA project is a unique partnership led by the French Institute for Technological Research, IRT Jules Verne. Joining forces are industry leaders Arkema (resin supplier), Owens Corning (glass fiber supplier), LM Wind Power (blade manufacturer), SUEZ (dismantling and waste processing), CANOE R&D center (recycling technology), and ENGIE (life cycle analysis).

Each company played a crucial role in the development of the closed-loop recycling process:

  • Arkema developed and validated the generation of recycled Elium® monomer through thermolysis, and, together with its subsidiary Bostik, an innovative adhesive for the blade assembly that is recycled together with Elium® paving the way for industrial-scale implementation.
  • Owens Corning successfully recovered glass fiber at pilot scale, enabling its reintroduction into the production process for their Sustaina® product line.
  • LM Wind Power manufactured two wind turbine blades with Arkema’s Elium® resin and Owens Corning’s Ultrablade® fabrics; one blade including a large structural element made with recycled Elium® resin.
  • SUEZ provided cutting and grinding expertise for processing the blades.
  • CANOE R&D center optimized recycling for production and carbon blade waste, additionally developing methods for repurposing waste streams through mechanical recycling.
  • ENGIE conducted a comprehensive life cycle analysis demonstrating the environmental benefits of closed-loop ZEBRA blades and validated their economic viability.

A Sustainable Future for Wind Energy
The ZEBRA project successfully recycled Elium® resin and Ultrablade® fabrics from wind turbine blades and manufacturing waste, reformulating them back into usable materials. This closed-loop process addresses the growing challenge of end-of-life blade management within the wind energy industry.

  • Recycled Elium® Monomer: Arkema achieved a yield of over 75% in the thermolysis process, paving the way for industrial-scale production of recycled resin.
  • Recovered Glass Fiber: Owens Corning successfully retrieved glass fiber for remelting and reintegration into their Sustaina® product line.
  • Life Cycle and Cost Analysis: ENGIE's study confirmed the significant environmental benefits and economic viability of ZEBRA blades when assuming a closed-loop recycling system from production to end-of-life.

ZEBRA blade using Elium® thermoplastic resin, Bostik’s highly compatible adhesive and Ultrablade® fabrics is bringing the best closed-loop recycling solution compared to traditional thermoset system. The operating cost and investments for recycling facility are significantly lowered. The CO2 emission linked to the recycling operations is reduced as well. All those results are making the closed-loop recycling solution of ZEBRA blades a viable option both on economic and environmental standpoints.

By demonstrating the feasibility of full wind turbine blade recycling, the ZEBRA project paves the way for a more sustainable future in the wind energy sector.

Source:

LM Wind Power

Photo Envision Racing Team, Teijin Carbon Europe GmbH
02.10.2024

Advanced Composite Technologies for Formula E Racing

Teijin has teamed up with Germany's herone GmbH and the UK's Envision Racing to develop a composite wishbone which has the capability be used in a Formula E racing car using Tenax™ ThermoPlastics.

The new component is specifically designed to maximize performance while minimizing weight. By utilizing recycled materials from the aerospace industry and implementing herone's innovative pressing process, the partners are setting an example of environmental consciousness and technological excellence.

Multiple demonstrator parts were produced utilizing Tenax™ ThermoPlastic UniDirectional (TPUD) tapes. The material was braided to form the rod structure of the component. Recycled offcuts from part manufacturing in the aerospace industry were used for the functional elements. Those offcuts were injection molded to sockets which are needed for load introduction into the rod structure. herone’s innovative pressing process then compression molded the braids and at the same time co-consolidated the sockets into the rod structure to form the final part. All materials in this study were based on PPS polymer - thus making it attractive for further end-of-life recycling.

Teijin has teamed up with Germany's herone GmbH and the UK's Envision Racing to develop a composite wishbone which has the capability be used in a Formula E racing car using Tenax™ ThermoPlastics.

The new component is specifically designed to maximize performance while minimizing weight. By utilizing recycled materials from the aerospace industry and implementing herone's innovative pressing process, the partners are setting an example of environmental consciousness and technological excellence.

Multiple demonstrator parts were produced utilizing Tenax™ ThermoPlastic UniDirectional (TPUD) tapes. The material was braided to form the rod structure of the component. Recycled offcuts from part manufacturing in the aerospace industry were used for the functional elements. Those offcuts were injection molded to sockets which are needed for load introduction into the rod structure. herone’s innovative pressing process then compression molded the braids and at the same time co-consolidated the sockets into the rod structure to form the final part. All materials in this study were based on PPS polymer - thus making it attractive for further end-of-life recycling.

The use of these advanced materials makes it possible to reduce weight, minimize emissions, and increase performance at the same time. The combination of design and functionality opens new possibilities for future developments in the field of motorsport and beyond. We look forward to continuing to develop innovative solutions based on thermoplastic composites together with our partners and customers.

Source:

Teijin Carbon Europe GmbH

Photo AWOL
25.09.2024

Monforts, Archroma and BW Converting’s Baldwin Technology - partnership in sustainable textile finishing

A collaboration that unites Monforts’ dyeing and finishing equipment, BW Converting’s Baldwin TexCoat G4™ digital spray technology and Archroma’s chemistries towards sustainable solutions is charting the course for the future of sustainable textile finishing.

Together, the three companies will support dyeing and finishing manufacturers, a critical part of the textile supply chain, in their development projects, boosting the quality and performance of their finished products, while at the same time maximizing the productivity and resource utilization of the finishing application process.  

Kicking off the partnership in the second half of this year, Monforts will install BW Converting’s full-width Baldwin TexCoat digital spray unit on a stenter frame at its Advanced Technology Center (ATC) at its headquarters in Mönchengladbach, Germany.

A collaboration that unites Monforts’ dyeing and finishing equipment, BW Converting’s Baldwin TexCoat G4™ digital spray technology and Archroma’s chemistries towards sustainable solutions is charting the course for the future of sustainable textile finishing.

Together, the three companies will support dyeing and finishing manufacturers, a critical part of the textile supply chain, in their development projects, boosting the quality and performance of their finished products, while at the same time maximizing the productivity and resource utilization of the finishing application process.  

Kicking off the partnership in the second half of this year, Monforts will install BW Converting’s full-width Baldwin TexCoat digital spray unit on a stenter frame at its Advanced Technology Center (ATC) at its headquarters in Mönchengladbach, Germany.

“Our ATC already houses two full Montex stenter finishing lines engineered to accommodate an extremely diverse range of processes, in addition to a Thermex range for the continuous dyeing of denim and other woven fabrics, a full color kitchen and a number of lab-scale systems for smaller batch trials,” explained Monforts Junior Technologist Saskia Kuhlen. “It enables our customers to test their own textiles and technical fabrics under fully confidential, real production conditions and using the results from these trials we are also able to make recommendations for improving many fabric finishes. The new TexCoat installation will make an important contribution to what we can achieve.”
 
TexCoat G4 revolutionizes the traditional water- and energy-intensive pad-dry-cure finishing process by precisely applying chemistry including softeners, antimicrobials, durable water repellents, flame retardants, resins and most other water-based chemicals across the textile surface only where it is required, on one or both sides of the fabric. The system can therefore reduce water, chemistry and energy consumption by up to 50% compared to traditional pad application processes.

The TexCoat G4 installation brings together the surface functions, fabric transport and thermal processing technology of Monforts stenter frames with Archroma’s specialty chemicals, applied with TexCoat’s contactless precision, to achieve optimum absorption and maximum efficacy, exceeding the performance of traditional pad applications.

“Archroma’s commitment to advancing sustainability solutions for technical textiles has led to a pivotal partnership with Baldwin, where the benefits of contactless precision spray combined with our innovative solutions have helped textile manufacturers achieve greater energy and water savings,” said Michael Schuhmann, Global Marketing Segment Manager for Technical Textiles, Archroma Textile Effects. “We are thrilled to take the partnership to the next level with the integration of a renowned equipment expert. Together, we will bring the best of our expertise in sustainable technologies to our customers around the world.”

“Baldwin has enjoyed a great relationship with Monforts and Archroma over the last few years,” added Rick Stanford, Baldwin’s Vice-President of Business Development for Textiles “Individually, we are working hard to assist our customers to achieve their sustainability and environmental targets but this is the first time the three companies have committed to working together with a focus on bringing transformative change to the dyeing and finishing space. It will result in significantly lower energy, chemical and water consumption with increased productivity and higher quality.  We strongly believe that this partnership will be greater than the sum of its parts.”

Beyond textile finishing, Monforts, Baldwin and Archroma will work together to develop a versatile offering that will include coloration concepts and in the not-too-distant future the partners additionally plan to expand their collaboration to continuous spray dye applications developed by Baldwin.

Photo: Heytex
24.09.2024

Core business of the Heytex Group sold to Freudenberg

Private equity investor Bencis Capital Partners is selling the core business of the Heytex Group with three production sites (two in Germany and one in China) and all central functions, including sales, research and development and administration, to Freudenberg Performance Materials (FPM). FPM is active in the market for coated technical textiles, as Heytex is, under the Mehler Texnologies brand. In 2023, the relevant part of the Heytex Group generated sales of around EUR 100 million with approximately 400 employees. The transaction is subject to the approval of the antitrust authorities.

“The Bramsche, Neugersdorf and Zhangjiagang sites will play a key role in the future direction due to their good investment status, as well as the new synergies and expanded resources,” says Hans-Dieter Kohake, CEO of the Heytex Group.

As part of its strategic orientation, Freudenberg is deliberately focusing on the two German and Chinese sites of the Heytex Group, which are ideally suited to the company's goals and focus. The sites will make a significant contribution to the further development and expansion of the new Group's market leadership.

Private equity investor Bencis Capital Partners is selling the core business of the Heytex Group with three production sites (two in Germany and one in China) and all central functions, including sales, research and development and administration, to Freudenberg Performance Materials (FPM). FPM is active in the market for coated technical textiles, as Heytex is, under the Mehler Texnologies brand. In 2023, the relevant part of the Heytex Group generated sales of around EUR 100 million with approximately 400 employees. The transaction is subject to the approval of the antitrust authorities.

“The Bramsche, Neugersdorf and Zhangjiagang sites will play a key role in the future direction due to their good investment status, as well as the new synergies and expanded resources,” says Hans-Dieter Kohake, CEO of the Heytex Group.

As part of its strategic orientation, Freudenberg is deliberately focusing on the two German and Chinese sites of the Heytex Group, which are ideally suited to the company's goals and focus. The sites will make a significant contribution to the further development and expansion of the new Group's market leadership.

The Pulaski (USA) and Nijverdal (Netherlands) sites of Heytex will remain with the current shareholder Bencis Capital Partners and will continue to operate independently.

Source:

Heytex Bramsche GmbH

12.09.2024

INDA Showcases Sustainability Advancements in Nonwovens and Manufacturing

INDA, the Association of the Nonwoven Fabrics Industry, announces the release of the International Fiber Journal’s (IFJ) special sustainability issue dedicated to nonwovens. This special edition, which was sponsored by INDA, is a key piece of the association’s 2024 strategic sustainability initiative, launched at the beginning of 2024 in response to feedback that sustainability remains one of the nonwovens industry’s highest priorities.

The IFJ special issue features exclusive content from industry leaders, including Kimberly-Clark Corporation, Glatfelter, Lenzing Fibers, NatureWorks LLC, Hollingsworth & Vose, MANN+HUMMEL, Nexus Circular, Henkel Corporation, and INDA. This edition explores key sustainability topics, structured around three core pillars vital to the industry’s future: Responsible Sourcing, Innovations in Sustainability, and End-of-Life Solutions. Featured topics include:

INDA, the Association of the Nonwoven Fabrics Industry, announces the release of the International Fiber Journal’s (IFJ) special sustainability issue dedicated to nonwovens. This special edition, which was sponsored by INDA, is a key piece of the association’s 2024 strategic sustainability initiative, launched at the beginning of 2024 in response to feedback that sustainability remains one of the nonwovens industry’s highest priorities.

The IFJ special issue features exclusive content from industry leaders, including Kimberly-Clark Corporation, Glatfelter, Lenzing Fibers, NatureWorks LLC, Hollingsworth & Vose, MANN+HUMMEL, Nexus Circular, Henkel Corporation, and INDA. This edition explores key sustainability topics, structured around three core pillars vital to the industry’s future: Responsible Sourcing, Innovations in Sustainability, and End-of-Life Solutions. Featured topics include:

  • Environmentally sustainable nonwoven materials
  • Circularity in single-use plastics
  • Potential of post-consumer recycled (PCR) materials in nonwovens
  • Navigating regulatory challenges
  • Advances in bio-based nonwovens
  • The role of plastics and polymers in sustainability

“This special issue of the International Fiber Journal is a vital part of our multi-faceted sustainability initiative aimed at providing new and enhanced offerings to INDA members and the nonwovens industry. We are excited to see the industry come together to share insights on the sustainability challenges we face,” said Tony Fragnito, President of INDA.

Source:

INDA, the Association of the Nonwoven Fabrics Industry

06.09.2024

Loomia: Automotive Comfort with Smart Textiles

Traditional heating systems in vehicles often rely on bulky and energy-intensive methods. Smart textiles, equipped with integrated heating elements powered by Loomia’s technology, offer an efficient alternative. These textiles can provide targeted warmth directly to occupants, reducing energy consumption compared to conventional heating systems. Whether integrated into seats, armrests, or steering wheels, smart heating textiles enhance comfort while optimizing energy use.

Smart surfaces in automotive interiors go beyond aesthetics, offering interactive functionalities that improve safety and convenience. Loomia’s smart surfaces can transform mundane surfaces into dynamic interfaces, capable of displaying information, adjusting settings, and responding to touch or gestures. For example, smart door panels can illuminate and provide feedback when touched, enhancing both usability and safety during nighttime operation.

Traditional heating systems in vehicles often rely on bulky and energy-intensive methods. Smart textiles, equipped with integrated heating elements powered by Loomia’s technology, offer an efficient alternative. These textiles can provide targeted warmth directly to occupants, reducing energy consumption compared to conventional heating systems. Whether integrated into seats, armrests, or steering wheels, smart heating textiles enhance comfort while optimizing energy use.

Smart surfaces in automotive interiors go beyond aesthetics, offering interactive functionalities that improve safety and convenience. Loomia’s smart surfaces can transform mundane surfaces into dynamic interfaces, capable of displaying information, adjusting settings, and responding to touch or gestures. For example, smart door panels can illuminate and provide feedback when touched, enhancing both usability and safety during nighttime operation.

Loomia’s expertise in smart textiles allows seamless integration into various aspects of vehicle design. From customizable lighting elements embedded within upholstery to responsive control panels, smart textiles enhance the overall aesthetics and functionality of automotive interiors. These innovations not only elevate the driving experience but also contribute to a more sustainable and technologically advanced automotive industry.

Looking ahead, the potential applications of smart textiles in automotive environments are vast. Future developments could include adaptive textiles that respond to environmental conditions, such as adjusting ventilation based on temperature and humidity levels. Moreover, advancements in sensor technology integrated into smart textiles may enable enhanced vehicle monitoring and diagnostics, further improving safety and efficiency on the road.

Source:

Loomia Technologies Inc

(c) eVent® Fabrics
28.08.2024

eVent® Fabrics: Waterproof and Breathable Technologies without PFAS

eVent Fabrics, a company in waterproof and breathable technologies, is looking to the future and offering their partner brands eVent BIO and eVent alpineST technologies. Both are made without PFAS and are compliant with regulations requiring the removal of PFAS chemicals from many consumer products.

eVent BIO
eVent BIO is a bio-based membrane technology that uses sustainable materials to provide all-weather protection and performance. At the laminate technology’s core are renewable plant-based and biomass elements paired with smartly-sourced or recycled face and backer fabrics. Light, tough and flexible, eVent BIO has a reduced carbon footprint and is recyclable when it reaches the end of its lifecycle.

alpineST
alpineST is a sustainable alternative to ePTFE products that provides waterproofness, breathability, and protection in the harshest environments. Created with the planet in mind, alpineST products are built around a fluorine-free membrane laminated to recycled face fabrics. With an initial waterproofness of 25K, alpineST maintains a water column of 20K after dozens of washes.

eVent Fabrics, a company in waterproof and breathable technologies, is looking to the future and offering their partner brands eVent BIO and eVent alpineST technologies. Both are made without PFAS and are compliant with regulations requiring the removal of PFAS chemicals from many consumer products.

eVent BIO
eVent BIO is a bio-based membrane technology that uses sustainable materials to provide all-weather protection and performance. At the laminate technology’s core are renewable plant-based and biomass elements paired with smartly-sourced or recycled face and backer fabrics. Light, tough and flexible, eVent BIO has a reduced carbon footprint and is recyclable when it reaches the end of its lifecycle.

alpineST
alpineST is a sustainable alternative to ePTFE products that provides waterproofness, breathability, and protection in the harshest environments. Created with the planet in mind, alpineST products are built around a fluorine-free membrane laminated to recycled face fabrics. With an initial waterproofness of 25K, alpineST maintains a water column of 20K after dozens of washes.

Source:

eVent Fabrics

AZL Aachen GmbH: Project on fibre composite reinforcement sleeves (c) AZL Aachen GmbH
09.08.2024

AZL Aachen GmbH: Project on fibre composite reinforcement sleeves

AZL Aachen GmbH announces a ‘Joint Partner Project’ focusing on the technology for reinforcing electric motors with fibre composite reinforcement sleeves. The nine-month project will investigate current and future applications for electric motors, their requirements for armouring sleeves and provide technological insights.

The project, entitled "Rotor Sleeves for Electric Motors: Potentials for Composite Materials and Technologies", aims to address the growing demand for more efficient, powerful and compact electric motors in mobility and industrial applications.

Compared to metals, composite rotor sleeves with their high stiffness, low density, almost zero thermal expansion and favourable electromagnetic properties are particularly suitable to contribute to all the development goals.

AZL Aachen GmbH announces a ‘Joint Partner Project’ focusing on the technology for reinforcing electric motors with fibre composite reinforcement sleeves. The nine-month project will investigate current and future applications for electric motors, their requirements for armouring sleeves and provide technological insights.

The project, entitled "Rotor Sleeves for Electric Motors: Potentials for Composite Materials and Technologies", aims to address the growing demand for more efficient, powerful and compact electric motors in mobility and industrial applications.

Compared to metals, composite rotor sleeves with their high stiffness, low density, almost zero thermal expansion and favourable electromagnetic properties are particularly suitable to contribute to all the development goals.

The application, manufacturing and material technologies for composite rotor sleeves have been proven to be mature, so far mostly in niche high power applications. Due to the increasing demand for efficient electric drives, the demand for rotor sleeves and the corresponding production volumes is growing rapidly. Composite based rotor sleeves are expected to expand into mass applications for electric vehicles, power tools, machine tools, electric aircraft and other industrial applications.

AZL will bring together experts from across the value chain to investigate current and future applications, analyse requirements and assess the impact on design, material selection and production concepts.

Companies interested in the project can join the consortium consisting of Kümpers GmbH, Rassini and Schunk Kohlenstofftechnik GmbH, among others, until the kick-off on September 12th, 2024.

Source:

AZL Aachen GmbH