From the Sector

Modern Meadow, a U.S.-based leader in bio-design, has chosen Menabò Group as its partner for the development of the INNOVERA™ brand and the development of its global communication strategy. 
 
With over forty years of experience in integrated communication, the Italian agency led every phase of the project, from the creation of the visual identity and brand payoff to the definition of strategic positioning. Menabò also oversaw the concept, design, and content of the dedicated website; supported brand communications across online and offline touchpoints; assisted during major international trade events; and developed media relations assets for global outreach. 

INNOVERA™, previously known as BIO-VERA®, is crafted using plant-based proteins, biopolymers and recycled rubber, achieving more than 80% renewable carbon content. Completely animal-free, INNOVERA™ replicates the look and feel of collagen found in leather, yet it is lightweight, twice as strong as traditional leather, and available in various colors, haptics and finishes. 
 
INNOVERA™ is not presented as an outright alternative to animal leather, but as a lowimpact, high-performance option that tanneries and brands can offer their customers across fashion, footwear, the automotive industry, and interior design, while upholding the highest standards in aesthetics and quality. 
 
The official debut of INNOVERA™ took place at the Global Fashion Summit in Copenhagen, the premier international event for sustainable innovation in fashion, held from June 3 to 5. Alongside the product showcase, Modern Meadow contributed to the summit dialogue with the participation of its CEO David Williamson, PhD, in the panel discussion “Bio-Design Futures,” which explored the future of bio-design and the role of renewable materials. 
 
In an environment where sustainability communication demands transparency and credibility, Menabò Group shaped a storytelling approach that highlights INNOVERA™’s tangible benefits and performance qualities. With this project, the agency reinforces its international presence as a trusted partner for brands driving innovation and sustainability on a global scale. 

eVent® Fabrics, an expert in breathable waterproof, weatherproof, and windproof fabric laminates, announces the launch of its new circular fabric collection, purpose-built, plant-based, and fully recyclable for a more sustainable future without compromising performance.

Featuring 11 different laminate configurations across the eVent stormST™ and windstormST™ technology platforms, this plant-based collection is engineered for recyclability and designed to support closed-loop product systems. By utilizing monomaterial constructions, these laminate fabrics make mechanical recycling more feasible, while maintaining the trusted breathability, durability, and weather protection that outdoor brands and consumers expect from eVent.

“Circularity starts with design,” said Chad Kelly, President of eVent Fabrics. “With these stormST and windstormST fabrics, we’re giving brands the building blocks to create products that are easier to recycle at end-of-life—without sacrificing technical performance.”

The new circularity collection is a major step in eVent’s long-term sustainability strategy, addressing the industry’s growing need for performance materials that align with circular economy principles. And with the EU’s pending Ecodesign for Sustainable Product Regulations set to take effect in the coming years, apparel brands selling into the EU will be incentivized to further incorporate more circular, sustainable materials.

The stormST™ fabrics offer breathable waterproof protection with low environmental impact, making them ideal for outerwear, footwear, and accessories in active outdoor and urban use. The windstormST™ fabrics provide highly breathable windproof protection, perfect for blocking the chilling effects of the wind in dynamic conditions. All fabrics in the collection are PFAS-free, bluesign®, Oeko-Tex®, and/or GRS certified.

Autoneum's new impact protection plate, made from thermoplastic composite material, shields the battery of electric vehicles from impact, fire and corrosion. The lightweight com-ponent not only meets the highest requirements in terms of shock resistance and durability but also contributes to improved energy management and thus to a longer range thanks to its thermal insulation properties.

The ongoing transformation of the automotive industry towards an increasingly electrified mobility requires new shielding technologies to protect the battery system in electric vehicles. In this regard, Autoneum's new impact protection plate offers a high-performance, safe and cost-effective option thanks to its mechanical and thermal insulation properties, low weight and ability to withstand extreme temperatures.

Autoneum’s composite impact protection plate shields the vehicle battery from damage caused by impact, fire and corrosion. It is significantly lighter than metal alternatives and at the same time ther-mally insulating, which contributes to a longer driving range. In addition, the part meets the highest requirements for impact resistance and springs back into shape without structural loss or deforma-tion even after repeated exposure to stones and road debris. The new impact protection plate is based on long-fiber thermoplastic (LFT) technology, which allows the greatest possible freedom in terms of design and construction as well as waste-free production. Moreover, the additional rein-forcement of the basic structure ensures maximum rigidity and impact protection at minimal weight.

The impact protection plate reflects Autoneum’s technological expertise in underbody shields, ther-mal management and the application of the LFT process, adapted specifically for battery electric vehicles. The technology for the composite impact protection plate has been validated by simulations and vehicle testing at different European OEMs.

The Aachen-Dresden-Denkendorf International Textile Conference 2025 will take place on November 27-28, 2025 at the Eurogress Aachen.

Interested parties have the opportunity to contribute to the conference program and submit an abstract for a talk or poster presentation. Please note that the extended deadline for oral presentation abstracts is June 2, 2025. The Call for Abstracts for poster contributions is open until July 31, 2025.
The conference program includes plenary lectures and themed sessions in the areas of

• Sustainable Textiles and Circular Textile Economy
• Bio-based Fibers
• Synthetic High-Performance Fibers
• Artificial Intelligence in the Textile Sector
• Textile Production
• Smart Textiles & Applications
• Textiles for Medicine & Health Care
• Technology Transfer & Start-up Pitches
• Fiber Composites and Lightweight Construction
• Best Practices – Examples from Collaboration Projects between Academia and Industry
• Functionalization & Finishing

Further information about the conference and the call for abstracts (including the submission form) can be found on the website.

On March 31, 2025, DEMGY Group took a decisive step in its international development strategy by acquiring the American company TOOL GAUGE, which specializes in the manufacture of plastic components for the interior of aircraft cabins. This acquisition will enable DEMGY to consolidate their position as one of the world leaders in high value-added plastics processing for civil and military aeronautics.

With this operation, DEMGY is extending its footprint on the North American market, a strategic territory for the aerospace sector. The American company, now renamed DEMGY Pacific, is thus joining a group already present in France, Germany, Romania and the United States, bringing the total number of the group's industrial sites to 10.

Recognized expertise for the benefit of American aerospace
Based in Tacoma, Washington State, TOOL GAUGE has nearly 60 years of experience in the processing of high-performance polymers and the machining of precision parts. Recognized for its operational excellence, it has been awarded the Silver Performance Excellence Award by Boeing for 9 consecutive years.

The company has two complementary production units: one dedicated to plastic injection, particularly for interior fittings in aircraft cabins, and the other specializing in the machining of metal and plastic parts. This technical expertise considerably strengthens DEMGY's offering to major clients in the aerospace sector.

Airbus, Boeing: DEMGY stands out as a key partner
This strategic acquisition enables DEMGY to become a tier 1 supplier for Boeing and Airbus, as well as a tier 2 supplier for all their equipment manufacturers in Europe and North America. This positioning considerably strengthens the group's visibility and attractiveness on the global aerospace market.

"By strengthening its leadership in high value-added plastics processing for the aerospace and defense industries, the DEMGY Group has become one of the world's leading, if not the leading, supplier of plastic parts for cabin interiors directly to Airbus and Boeing, as well as to all American and European aircraft equipment manufacturers," says Pierre-Jean LEDUC, Chairman and CEO of DEMGY Group. "This enables us to deploy our high and extreme performance plastics solutions on a much larger scale".

Integration driven by DEMGY Group's cross-functional synergies
DEMGY Pacific will be managed by Mike Walter, also President of DEMGY Chicago, and Eric Wilmoth, Vice-President of Operations. Both will be tasked with implementing industrial and commercial synergies with all the entities of the group, particularly in terms of injection, assembly and decoration.

This integration will promote the development of global solutions to meet the growing demands of the aerospace industry in terms of lightness, performance and durability.

Target of 200 million euros: managed growth
With its 10 industrial sites and 950 employees, DEMGY forecasts sales of over 130 million euros by 2025. Our group's ambition is to reach 200 million euros by 2030, capitalizing on its unique know-how, capacity for innovation and proximity to major customers.

Materials lightening at the heart of decarbonization
For several years, DEMGY has been committed to reducing the carbon footprint of industries, by designing polymer materials that are lighter than metal, durable and recyclable.Thanks to our circular Multiplasturgy® offer, we integrate eco-design from the product development phase.

Technically and economically viable lightweight production based on fiber-reinforced plastics and multi-material systems requires an integrated approach. Due to the almost unlimited combination possibilities of different materials and the very complex interactions between materials, component design, manufacturing processes and the machine and system components, an optimal production process requires a direct link between materials science, process engineering and production technology.

As the official center for “Composite-based Lightweight Production” of the RWTH Aachen Campus, AZL Aachen GmbH uses its strong network to provide these capacities and possibilities on an interdisciplinary basis. Within walking distance, researchers and students are working on the latest technologies for the cost-efficient development and production of lightweight components on one of the largest research landscapes in Europe - the RWTH Aachen Campus: Aachen Center for Integrative Lightweight Production of RWTH Aachen University, Fraunhofer Institute for Production Technology IPT, Fraunhofer Institute for Laser Technology ILT, Institute for Automotive Engineering (ika) of RWTH Aachen University, Institute for Plastic Processing in Industry and Craft at RWTH Aachen University, Institute of Structural Mechanics and Lightweight Design (SLA) of RWTH Aachen University, Laboratory for Machine Tools and Production Engineering (WZL) of RWTH Aachen University, Production Engineering of E-Mobility Components (PEM) of RWTH Aachen University, Welding and Joining Institute (isf) of RWTH Aachen University.

Exklusive insights into the latest lightweight technologies

Once a year, the AZL Open Day offers an exclusive and unique insight into the R&D capacities of the institutes in the field of lightweight construction and sustainable mobility. This year, nine AZL partner institutes opened their machine halls and research laboratories on April 9, 2025 to provide interested industrial players with comprehensive insights into their current focus areas along the value chain. Among other things, the institutes presented high-precision laser processes for plastics processing, new joining processes for thermoplastic composites, 5-axis CNC machining with real-time quality management, large-format 3D printing and their own tape lines & tape integration. Design, prototyping and testing of products & solutions such as crash-optimized vehicle structures, thermoplastic pressure vessels, digital twins for structural-mechanical monitoring as well as prototyping and recycling approaches for battery systems were also demonstrated. The range of topics, key activities & infrastructure, seen at the Open Day, enables new technologies to be tested under real production conditions and efficiently brought to market maturity.

“The AZL Open Day is a great opportunity to discover the numerous technology centers, labs, prototyping and testing facilities that are available on the Aachen campus, that makes it unique in its kind. The AZL organization and teams located there are a true catalyst for new projects and development for the Composites industry: they are creating the link between Market analysis & technology scouting, academic research resources and business opportunities with their industrial partners. They are currently working on several topics that are at the forefront of Composites” reports Éric Pierrejean, CEO of the JEC Group. Apart from being there as an interested participant, he also gave the audience an insight into the key topics and trends in the composites industry as seen at this year's JEC World Show.

Efficient use of established infrastructures & know-how

As a one-stop shop for lightweight solutions, AZL offers an interface for successful cooperation between research and industry. In close coordination between scientific developments and specific customer requirements, solutions are developed in a targeted and tailor-made manner: as part of the AZL partnership, consortial projects or individual projects. In addition to the know-how of the institutes, cooperation with the AZL's industrial partner network also enables direct access to the necessary infrastructure of components, materials, tools and machine and system parts, which can be tested, developed or newly constructed in integrated process chains on a large scale.

Thanks to the close networking between science, industry and the AZL team of experts, companies can access an established infrastructure and utilize synergies for their projects.
The date for the next AZL Open Day will be announced in the second half of the year.

The Aachen-Dresden-Denkendorf International Textile Conference 2025 will take place on November 27 and 28, 2025 at the Eurogress Aachen.

To contribute to the conference program and submit an abstract for a talk or poster presentation, please note that the Call for Abstracts for oral presentations ends on May 5, 2025. The Call for Abstracts for poster contributions is open until July 31, 2025.

The conference program includes plenary lectures and themed sessions in the areas of

• Sustainable Textiles and Circular Textile Economy
• Bio-based Fibers
• Synthetic High-Performance Fibers
• Artificial Intelligence in the Textile Sector
• Textile Production
• Smart Textiles & Applications
• Textiles for Medicine & Health Care
• Technology Transfer & Start-up Pitches
• Fiber Composites and Lightweight Construction
• Best-Practices – Examples from Collaboration Projects between Academia and Industry
• Functionalization & Finishing

Further information about the conference and the call for abstracts (including the submission form) at  https://www.aachen-dresden-denkendorf.de/en/itc/registration/call-for-abstracts/.

Fibre and fabric production technologies – especially in the area of composite reinforcements – have played an as-yet largely unheralded role in the development of the UK’s Formula One industry, but the British Textile Machinery Association (BTMA) aims to change that.

Motorsport Valley
“If there’s one thing the UK does well, it’s Formula One, with seven of the ten F1 teams located within just an hour of each other in the midlands region known as Motorsport Valley,” explains BTMA CEO Jason Kent. “They are all linked to a national network of around 4,500 companies involved in a motorsport and high-performance engineering industry worth around £9 billion annually and employing 40,000 people. This network draws on the services of a significant number of our member companies.”

“With the exception of the engine, virtually every part of a Formula One racing car now starts from a textile, including the bodywork, the tyres and many of the latest fuel systems,” says Richard Kirkbright, project manager at Leeds-based Roaches International. “This has influenced developments in the broader automotive sector, in addition to the aerospace industry.”

Show cars and memorabilia
While best known as the developer of textile testing systems, Roaches has over the years also supplied advanced autoclaves to the UK’s composites industry, including a recent delivery to Northampton-based Memento Exclusives, a specialist in the production of show cars working directly with F1 and its leading teams.

Each major F1 team sponsor is supplied with one or two show cars for use at exhibitions and a wide range of other promotional activities arranged around the racing event calendar. These cars have no engine and their bodies may be made of fewer carbon fibre plies, but they are otherwise identical to the latest cars being raced by the F1 teams.

Memento Exclusives has its own in-house carbon fibre parts manufacturing facility and the integration of the Roaches autoclave has significantly expanded its capabilities in show car production.

Master bakers
“Composite materials undergo a metamorphosis in the autoclave which subjects them to both mechanical and chemical processes,” explains Richard Kirkbright. “Trapped air and volatiles are expelled and plies are consolidated under precise pressure. Heat cycles are then introduced, curing the resin systems and yielding flawlessly crafted components. Autoclave specialists are a little like master bakers, knowing exactly how to treat their ingredients at every stage of the process, to achieve the desired final product.”

“The Roaches autoclave now enables us to cure large components with full control and achieve a swift turnover of parts while ensuring the highest quality finish,” adds Terry Wasyliw, Head of Build for Memento Exclusives.

McLaren’s influence
Woking, UK-headquartered McLaren was the very first F1 team to introduce a car chassis manufactured entirely from carbon fibre composites back in 1981, setting the ball rolling for the creation of a completely new and global supply chain.

McLaren has this year unveiled a world-first in supercar engineering – aerospace-derived Automated Rapid Tape (ART) carbon fibre, developed at the dedicated McLaren Composites Technology Centre (MCTC) facility in Sheffield. This is being employed to create the active front wings of the W1 hypercar which has a starting price of $2.1 million.

A rear floor component was also developed for McLaren as part of the recently-completed £39.6 million ASCEND programme involving a range of UK partners, including BTMA member Cygnet Texkimp.

Handling, converting and decarbonisation
A wide range of handling and converting machines are supplied to the composites industry by Cygnet Texkimp, including bespoke creels, prepreg, coating, slitting and filament winding machines.

Its technologies are employed in the construction of composite components for aerospace and automotive, as well as in the production of tyre cord and more recently in the advanced construction of hydrogen storage vessels which are largely viewed as the future of F1 propulsion, along with advanced batteries for electric vehicles.

Cygnet Texkimp has been involved in the F1 supply chain for over 20 years and most carbon fibre used in the industry has been processed on one of its VHD creels. The company is also the largest independent manufacturer of prepreg machines in the world and is currently leading the design and build of the UK’s first carbon fibre research lines for a project led by NCC (National Composites Centre) to accelerate the development of more sustainable carbon fibres.

In addition, Cygnet is licensed to design and build the DEECOM® composite recycling system developed by new BTMA member Longworth Sustainable Recycling Technologies, the first of which was recently commissioned by the Henry Royce Institute in Manchester. DEECOM® is a zero emission, low carbon pressolysis solution using pressure and steam to reclaim pristine condition fibres and resin polymers frocm production waste and end of life composites.

“Decarbonisation is a major priority for manufacturers globally,” says Cygnet CEO Luke Vardy. “At Cygnet Texkimp, we’re developing the capability to process technical fibres in ways that enable lightweighting, hydrogen power and electrification, reduce waste and revolutionise the end-of-life management of composite materials and parts. In collaboration with our industry partners, we’re bringing to market some of the most innovative new fibre processing technologies ever developed to deliver real-world benefits that support the sustainability agenda.”

Prepregging
Another new BTMA member, Emerson & Renwick (E+R), a specialist in print, forming, vacuum and coating technologies, also supplies technology for the production of carbon fibre prepregs, which are integrated rolls of fabrics and resins.

Its most recent 1.7-metre-wide line supplied to a customer in Italy operates at speeds of 40+ metres per minute for web coatings or prepreg fibre and resin consolidation, or a combination of both processes. It is distinguished by an ultra precise three-roll reverse roll coater for the processing of high viscosity thermo-activated resins and enables the automatic changeover of sensitive woven fabric materials at zero tension, with three high precision calendaring nips with hot/cool plates. Multiple unwind and rewind systems for intermediate lamination steps include side loading and reliable lap splicing and zero speed splicing with a web accumulator for the main product rewind.
 
 E+R has also been part of a consortium working on the development of lithium-sulphur (Li-S) batteries within the £540 million UK Faraday Battery Challenge. Once commercially viable, Li-S batteries promise to provide relatively high energy density at low cost for sustainable electric vehicles of the future – inevitably starting with F1.

Strong links
“In addition to our powerful base of textile testing and control companies, many other BTMA members are working on further F1 and advanced composite projects,” says Jason Kent in conclusion. “We are also forging strong links with the UK’s key research hubs such as Sheffield University’s Advanced Manufacturing Research Centre, the Northwest Composites Centre in Manchester, the National Centre for Motorsport Engineering in Bolton and the National Composites Centre in Bristol.

“The BTMA recently became an associate member of Composites UK too, because this sector is the crucible of innovation for tomorrow’s textiles.”

FILTREX™ 2025, EDANA’s flagship event for the filtration industry, wrapped up last week after two dynamic days of discussions, technical advancements, and industry collaboration. This 10th edition brought together more than 100 professionals to explore the latest developments in air and liquid filtration, sustainability, and regulatory challenges.

Industry Insights and Key Conversations
The FILTREX 2025 conference brought together experts from across the filtration industry to discuss innovation, sustainability, and regulatory challenges shaping the sector. The event opened with a keynote by Dr.-Ing. Frank Möbius, Senior Innovation Advisor at UnternehmerTUM and former BMW Group Manager, highlighting the role of Open Innovation in maintaining competitiveness in an evolving market.

Throughout the sessions, industry leaders addressed major trends influencing filtration. Dr. Marc Schmidt (AAF-Lufttechnik) explored how economic and social shifts are reshaping filtration markets, while Anthony Lawson (Hengst Filtration) examined the impact of evolving air quality guidelines and PFAS restrictions on filter design. Experts such as Cédric Vallet (Ahlstrom) and Christof Keppler (Gessner) presented innovations in filtration efficiency, carbon footprint reduction, and the development of biodegradable filter media. Meanwhile, Dr. Pero Mićić (FutureManagementGroup AG) offered a strategic framework for future-proofing businesses against industry disruptions.

Spotlight on Sustainability in Filtration
Sustainability took centre stage at FILTREX 2025, with a dedicated round table that saw insights from Oswaldo Anaya (Freudenberg Performance Materials), Cédric Vallet (Ahlstrom), and Bruce Lorange (Hollingsworth & Vose). The discussions focused on how the industry can reduce its environmental impact while still delivering high-performance solutions. Oswaldo Anaya, Product Marketing Manager at Freudenberg Performance Materials, reflected on the event, saying, “I was glad to join this last edition of FILTREX. It confirmed the great things I’d heard from colleagues about previous events. Highly relevant and timely topics for the filtration industry, plus valuable networking in a relaxed setting.”

FILTREX™ Innovation Award 2025
A major highlight of the event was the FILTREX™ Innovation Award, which this year went to Johns Manville for its Evalith® product. Their groundbreaking recycling process transforms HVAC glass microfiber waste into compounded pellets for injection molding, turning waste into durable, second-life products. The award was presented during a Networking Evening Cocktail at Vienna’s Kunsthistorisches Museum, providing an ideal atmosphere for further discussions and potential collaborations.

PFAS-Free Filtration and Industry Innovation
The closing session tackled the critical topic of PFAS-free filtration, revealing solutions like high-performance PFAS-free HEPA media and nanofiber membranes that not only enhance performance but also reduce environmental impact. Industry leaders also discussed upcoming changes in PFAS regulations and the continued push for safer alternatives in the filtration industry.

Looking Ahead
FILTREX™ 2025 firmly established itself as the key event for the filtration industry, providing a platform for knowledge exchange, collaboration, and innovation. As Bruce Lorange, Global Marketing Communications Director at Hollingsworth & Vose, put it: “The recent FILTREX event in Vienna presented a unique opportunity to network, learn, see old friends, and make new ones in the filtration and nonwovens space. The quality of presentations was top-notch—informative and thought-provoking—and the venue provided the perfect backdrop for the thought leaders gathered to take our industry to the next level. A sincere thanks to the EDANA FILTREX team for arranging such an impactful event!”

The number of lithium-ion battery electric vehicles (BEV) in use worldwide is growing rapidly. As a result, ensuring the safety of the battery pack and thus minimizing the risk of fire accidents has become a key issue for car manufacturers across the globe. In order to protect vehicle occupants in the event of a so-called thermal runaway, in which the battery heats up quickly and uncontrollably and, in the worst case, ignites or explodes, fire protection materials and components such as flame shields are among the most effective methods.

Autoneum’s new E-Fiber flame shields offer flame protection and electrical insulation inside the battery housing. They can withstand extreme temperatures, pressure and abrasions, thus significantly increasing the safety of passengers in the event of the battery overheating and catching fire. As the shields are made from a composite material, they are also considerably lighter, mechanically stronger and more cost-efficient than the mineral mica alternatives on the market.

Autoneum’s new E-Fiber flame shields offer flame protection and electrical insulation inside the battery housing. They can withstand extreme temperatures, pressure and abrasions, thus significantly increasing the safety of passengers in the event of the battery overheating and catching fire. As the shields are made from a composite material, they are also considerably lighter, mechanically stronger and more cost-efficient than the mineral mica alternatives on the market.

In contrast to alternative standard products, which often consist of heavy and brittle mineral materials such as mica, the innovative shields based on E-Fiber are lightweight, stiff and stable and offer optimum flame protection and fire blast resistance. Due to the moldability of the material, the shields also ensure excellent battery coverage and design flexibility. Thanks to the possibility of manufacturing components with complex 3D shapes, there is also the potential to integrate an additional function to guide hot gases away from the battery. The shields are based on a composite material made of reinforcing fibers and resin, which are formed into thin layers of one to two millimeters.

The heat resistance of up to 1400°C and the mechanical strength of the material significantly increase the shields’ resistance to high temperatures, but also hot particle abrasion and gas pressure. Moreover, the fibers provide the part’s non-conductive and insulating properties, which are necessary for the battery system’s electrical insulation and thermal safety.

The E-Fiber flame shields can be installed between the battery cells and the battery cover or the vehicle floor and contribute significantly to increasing the safety of vehicle occupants in the event of a battery thermal runaway. They thus offer a lightweight, safe and geometrically adaptable alternative to standard flame shields on the market. In addition, the composite shields are completely riskfree from a compliance perspective. This is in contrast to mica-based products, which can prove problematic in terms of responsible sourcing.

Autoneum’s E-Fiber flame shields have already been validated in battery tests and are currently in pre-development with various customers in Europe.