From the Sector

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/.

Ina Brandes, Minister for Culture and Science of the state of North Rhine-Westphalia, visited Institute Director Professor Dr Thomas Gries in person on 7 March to gain an impression of research at Institut für Textiltechnik of RWTH Aachen University. Their tour took them through the central steps of the textile process chain - from primary spinning and fibre spinning processes to modern composites such as fibre composites and textile concrete. The ITA focuses on sustainability, circular economy and bioeconomy and offers comprehensive training programmes, from industrial training to doctorates. As a technology driver in textile technology, the ITA emphases on digitalisation and automation and the use of artificial intelligence (AI), especially neural networks, which have been under development at ITA for more than 30 years.

ITA researches and develops technical textiles for the needs of today and tomorrow. This includes, for example, the BIOTURF project. It is part of the BIOTEXFUTURE innovation area for bio-based textile research funded by the Federal Ministry of Education and Research. The aim here is to convert the textile value chain from petroleum-based to bio-based. Another major project is WIRKsam Competence Centre. By designing AI-supported work, WIRKsam aims to improve the competitiveness of companies and to make work healthier and more attractive. Other project examples include sustainable pipeline systems for the future, textile recycling and reducing the CO² footprint. ITA is researching, for example, how recyclable insulation textiles can contribute to thermal insulation or how textiles can be used to automatically and sustainably remove oil spills from water. To this end, ITA is active worldwide and internationally, including in cooperation with South Korea on industrial digitalisation and renewable energies, to name just a few examples.

With more than 100 doctoral students and a total of around 400 employees, ITA is one of the five largest institutes at RWTH Aachen University.

Science Minister Ina Brandes: “Prof. Thomas Gries and his team are demonstrating outstanding work at Institut für Textiltechnik (ITA) of RWTH Aachen University. For over 90 years, ITA has been researching, developing, and designing advanced textiles – for example sustainable fibres that reduce the use of petroleum-based materials. The different possible uses of the materials are impressive: from artificial soccer turf to sportswear, medical materials such as heart valves, and textile-reinforced concrete for building construction. New technologies and strong networks between science and industry empower ITA to significant textile progress.“

Beaulieu Fibres International is exhibiting its next-generation sustainable fibre solutions for high performance nonwovens in various industries at IDEA25 in Miami Beach end of April.

“IDEA25 is at the intersection of nonwoven materials and sustainability, with a focus on innovation and research to address environmental challenges and new opportunities. With our Sustainable Fibres Program, we offer low carbon, recyclable and circular solutions where performance and sustainability go hand in hand, bringing value in co-design and TCO performance,” said Maria Teresa Tomaselli, General Manager, Beaulieu Fibres International.

Self-reinforced PP fibres for fully recyclable automotive composites
The company will be presenting its comprehensive range of polypropylene (PP) bonding fibres designed for thermoplastic lightweight composites and automotive interior fabrics. These fibres assist car manufacturers and OEMs in meeting stringent performance, cost-efficiency, and sustainability standards. Beaulieu’s PP fibres are engineered to enhance the mechanical, thermal, and functional properties of composites while reducing vehicle weight.

Fibres for high performance liquid and air filtration
Beaulieu has set new performance standards for the fast-growing air and liquid filtration industry rolling out its full range of MONO and BICO fine-medium count fibres, as an outcome of its investment into R&D efforts to promote staple fibres in the field of high efficiency filtration.

In addition to its existing portfolio of PP fibres for liquid filtration, compliant with FDA and European food contact regulations, Beaulieu is launching a new bicomponent fibre range in PET/PE, PP/PE for high loft filtration media and fine count mono PP fibres for tribo-electric charged air filter media.

The fine count mono fibres are customized according to the line specifics of the nonwoven producer and guarantee up to 20% higher filtration efficiencies for nonwovens in combination with state-of-the-art acrylic counter fibre compared to standard PP fibres used in this application. Typical applications are air handling units in larger buildings and residential furnaces.

Premium outdoor PP fibres for resilient, weather-resistant crop protection solutions
Engineered for superior mechanical strength and resistance to environmental stress factors, these fibres enhance durability in needle-punched fabrics, ensuring long-lasting protection in the field. Their advanced UV stabilization prevents degradation from prolonged sun exposure, extending the lifespan of crop covers, while their hydrophobic properties repel water, reducing moisture-related damage and maintaining breathability.

Ultrabond, design for recycling
Discover UltraBond innovative bonding staple fibres that replace the need for chemical binders. They open a path to create 100% polypropylene (PP) needlepunched fabrics which meet the same performance requirements as traditional constructions, while reducing end-of-life environmental impact.

The 100% polyolefin-based needlepunched fabrics are fully recyclable, reducing waste generation and creating high value PP recycled products as new materials. Furthermore, the sustainable fabrics are produced with an improved Total Cost of Ownership and with a significant ecological footprint reduction.

Beaulieu strengthening its position in the hygiene market
With a full portfolio already serving the hygiene sector, Beaulieu is focusing on next-generation speciality bicomponent solutions designed to enhance softness, processability, and sustainability in absorbent hygiene products.

Hypersoft fibres are specifically engineered for topsheet applications in direct contact with the skin: 25% improvement in softness compared to standard reference fibres while maintaining optimal processability has been achieved.

Meralux is a bicomponent trilobal fibre that improves nonwoven materials by providing better opacity, comfort, and absorption. It also promotes sustainability by saving raw materials and reducing carbon emissions by up to 60%.

Avgol, an Indorama Ventures company, celebrated the opening of its new high-speed, high-capacity flexible multiple beam nonwovens production line at its facility in Mocksville, NC. It represents the successful realization of a $100 million investment.

In addition to the new production line and as part of the investment, Avgol has installed a state-of-the-art 3-layer lamination line that further expands the company’s nonwoven composite capabilities. Engineered with precision temperature controls, high-speed bonding technology, and an integrated quality inspection system, this advanced machine efficiently fuses three layers to produce lightweight, durable composites with exceptional strength and consistency. Designed to meet the highest quality and performance standards, it reinforces Avgol's commitment to delivering top-tier products and setting new industry benchmarks in nonwoven composite manufacturing.

The inauguration of the new nonwovens production line and beginning to run commercial products is a pivotal step in Avgol’s strategic roadmap, setting the stage for advanced manufacturing capabilities and enhanced production efficiency.

Key highlights of the new production line include:

• Technology: The new line integrates the latest Reicofil manufacturing technology with bico capabilities, ensuring precision, speed, and superior quality control.
• Capacity: With enhanced high-loft production capabilities, Avgol is now better equipped to meet current and future market demands for hygiene products.
• Sustainability: Emphasizing environmental responsibility, the new facility integrates energy-efficient systems, reduced waste protocols, and innovative processes for manufacturing lightweight products.

At this year's JEC Composites Innovation Awards ceremony, the award in the "Construction & Civil Engineering" category went to the "DACCUSS" project, coordinated by the DITF. TechnoCarbon Technologies GbR, the inventor of Carbon Fiber Stone (CFS), received the JEC Award together with its development partners. The award is for the development of house walls made of Carbon Fiber Stone (CFS), a CO2 negative composite material.

Each year, the JEC Composites Innovation Awards recognize innovative and creative projects that demonstrate the full potential of composite materials. With the help of a development team from 12 companies and research institutions, TechnoCarbon Technologies GbR successfully submitted its innovative DACCUSS building element for house walls made of Carbon Fiber Stone.

Carbon Fiber Stone is a building material made of natural rocks and bio-based carbon fibers. It serves as an environmentally friendly replacement for CO2-intensive concrete in the construction industry. While conventional concrete walls release large amounts of CO2 during production, the DACCUS building element binds 59 kg of CO2 per square meter and therefore has a negative carbon footprint. In addition, the panels weigh only one-third of equivalent reinforced concrete house walls.

Each DACCUS element consists of several high-strength natural stone slabs made from magmatic rock. Inside the construction are bio-based carbon fibers, which the DITF Denkendorf is working intensively to develop. They form the stiffening element that enables the high strength of the construction elements and, in turn, contribute to the negative CO2 balance. The layer between the natural rock slabs is filled with carbon-negative biochar granulate, which is responsible for the insulation of the building element. The mineral sawdust from the cut rock slabs can be used as a soil amendment and serves as a binder for free CO2 from the atmosphere. The strict focus on processes and materials that actively bind CO2 has made it possible to produce a building material with a negative CO2 balance.

Partners: Deutsche Institute für Textil- und Faserforschung Denkendorf (DITF), TechnoCarbon Technologies GbR, Universität Hamburg (UHH), Labor für Stahl- und Leichtmetallbau GmbH (LSL), AHP GmbH & Co. KG, Technische Universität München (TUM), GVU mbH, Silicon Kingdom Holding Ltd., Gallehr Sustainable Risk Management GmbH, Peer Technologies GmbH & Co. KG, GREIN srl, Convoris Group GmbH, RecyCoal GmbH, ITA, Institut für Textiltechnik der RWTH Aachen, LISD GmbH.

Stylish and recyclable carbon fibre furniture
Cobra and its partners have coordinated the design, engineering, material selection and manufacturing of a range of innovative carbon fibre-based furniture. The furniture uses the recyclable epoxy resins, along with other production waste, and recycled raw materials.

Cobra, Aditya Birla Group, Burapa University, Hankuk Carbon, and Luxara Design Studio present a recyclable composite meeting table and barstool. The Liana table uses Recyclamine resins, high-modulus prepreg and Cobra’s production-waste BMC material for its structure. Neolith, a 100% sustainable artificial marble with 52% recycled content, and Hankuk woven carbon fabric provide the exceptional surface finish. The Loop barstool uses a looping design style, and again, it uses Recyclamine resins and Hankuk carbon over a recyclable PET core for a high-end yet sustainable seating solution.

Cobra International (Thailand)
Partners:
• Aditya Birla Chemicals Ltd. – Advanced Materials (Thailand)
• Burapha University (Thailand)
• HANKUK CARBON CO., LTD. (South Korea)
• LUXARA DESIGN CO.,LTD. (Thailand)

Key benefits:
• Thin yet strong, only achievable with carbon fibre
• Lightweight yet durable for lasting performance
• First recyclable carbon fibre furniture
• Upcycling composites waste
• A step towards circularity

On November 20th/21st, 2024, the second conference on flame retardancy for composite applications took place in Berlin, organised by the AVK - Industrievereinigung Verstärkte Kunststoffe e.V. in cooperation with the FGK - Forschungsgesellschaft Kunststoffe e.V.

60 participants attended the international event, which this time focused on the requirements in the construction/infrastructure sector in addition to the transport sector.

In 14 presentations, 18 speakers provided information on new developments, requirements and innovations from the fields of standardisation, material development, construction/infrastructure, public transport, automotive and research & science.

Prof. Schartel from the Bundesanstalt für Materialforschung und –prüfung began with an introduction to the principle and concept of flame-retardant composites. In the following thematic blocks, the companies CTS Composite Technologie Systeme GmbH and Nabaltec AG provided information on new possibilities and developments at the material level of non-combustible fibre-reinforced plastics (FRP).

The implementation of fire protection requirements in the operation of rail vehicles or for load-bearing FRP components played a major role in the area of construction/infrastructure, as did the sustainability of these building materials, which Frank Lüders from DB Systemtechnik GmbH and Kabelan Thavayogarajah from Fraunhofer LBF reported on in their presentations.

The well-known topic of e-mobility took its place in the automotive sector, where Dr. Christian Battenberg from Clariant Plastics &Coatings (Deutschland) GmbH spoke about flame retardants for applications in this field.

The successful event was rounded off by the Research and Science block with two presentations by Fraunhofer LBF and Deutsches Textilforschungszentrum Nord-
West gGmbH & Centre for Nanointegration Duisburg-Essen.

Over the course of one and a half days, the conference provided an important platform for experts from industry and science to discuss the latest developments and challenges in the field of flame retardancy for composites. The high level of participation highlighted the relevance of the topic and underpinned the decision to organise a third round of the conference in 2026.

Vor dem aktuellen Hintergrund frei gewordener Mittel aus anderen Töpfen des Bundeshaushalts appelliert die deutsche Composites-Industrie an die Politik, sich wieder für das TTP LB und dessen Finanzierung im geplanten Umfang einzusetzen. Insbesondere für mittelständische Unternehmen und Startups müsse das Programm für deren Wettbewerbsfähigkeit und damit zur Sicherung und Schaffung zukunftssicherer Arbeitsplätze wiederbelebt werden, um letztlich auch zum Erhalt des Wohlstands in Deutschland beizutragen.

Mit dem Technologietransferprogramm Leichtbau (TTP LB) hatte das Bundesministerium für Wirtschaft und Klimaschutz (BMWK) eine wichtige Unterstützung für eine erfolgreiche Transformation der in diesem Bereich tätigen Unternehmen geschaffen. Es war Innovations- und Transfertreiber für Energie- und Ressourceneffizienz und mitentscheidend für die Erreichung der ambitionierten europäischen und deutschen Klimaschutzziele. Mit großer Sorge hatte die Faserverbund- bzw. Composites-Industrie festgestellt, dass das Programm Anfang dieses Jahres Sparzwängen des Bundeshaushalts zum Opfer fiel. Dabei wurde der Leichtbau als Schlüsseltechnologie für Deutschland im Koalitionsvertrag der Bundesregierung verankert und durch deren dann folgende Leichtbau-Strategie manifestiert.

Ohne Leichtbau werde es keinen ausreichenden Klimaschutz geben: 70 % der Treibhausgasemissionen stammen aus der Nutzung von fossilen Rohstoffen wie Erdgas, Erdöl und Kohle, um hauptsächlich Energie zu gewinnen. Daher sei die Transformation in Richtung Erneuerbare Energiegewinnung z. B. durch Windenergie und grünen Wasserstoff von entscheidender Bedeutung für den Erfolg des European Green Deal. Beide Technologien seien ohne Leichtbau nicht umsetzbar: Windenergieanlagen nutzen den multi-materialen Leichtbau mit Glasfaserverstärkten Kunststoffen, Kohlenstofffaserverstärkten Kunststoffen (CFK), Holz und Metallen und die Lagerung des Wasserstoffs erfolgt in CFK-Behältern.

Darüber hinaus sei der Leichtbau eine Game-Changer-Technologie für Deutschland: Durch diese innovative und wettbewerbsfähige Schlüsseltechnologie lassen sich sowohl Materialien in der Produktion sparen als auch Energie bei der späteren Nutzung der Produkte. Branchen wie unter anderem das Bauwesen, der Maschinenbau und der gesamte Transportsektor können davon stark profitieren.

Insbesondere vor dem Hintergrund der aktuellen Probleme der deutschen Automobilindustrie erscheinen auch mit Fördermitteln unterstützte Innovationen zu Leichtbaukonzepten für PKW und LKW unerlässlich für die Wettbewerbsfähigkeit dieses wichtigen volkswirtschaftlichen Sektors in Deutschland.

Auf europäischer Ebene hat die Composites-Industrie über das vom BMWK ins Leben gerufene European Lightweighting Network (ELN) Werbung für eine europäische Leichtbaustrategie gemacht und bereits viele europäische Partner gefunden. Um weiterhin als Impulsgeber und Gestalter vorangehen zu können und glaubwürdig den Leichtbau als Schlüsseltechnologie für Europa zu promoten, sei eine tatkräftige politische Unterstützung im Rahmen des TTP LB in Deutschland essenziell.

The Teijin Group companies Teijin Carbon America, Renegade Materials and Teijin Aramid will participate in CAMX. the largest, most comprehensive composites and advanced materials event in North America, in San Diego, USA. At the TEIJIN booth, visitors can explore innovative composite solutions and learn about the comprehensive technical support and provided services.

Teijin's diverse network of materials companies excels across various fields, ranging from high-performance carbon and aramid fibers to cutting-edge industrial textiles and revolutionary, cost-effective prepreg composite solutions. The shared commitment to quality, innovation, and environmental responsibility unites Teijin in their mission to deliver eco-friendly solutions across multiple industries and applications, including pressure vessels, aerospace, and both defense and commercial aircraft construction.

Teijin’s dedication to acquiring appropriate certifications for sustainable production and product development underscores the high level of commitment to lead in this field. In the past years, Teijin has continuously striven to minimize their carbon footprint and global impact, while also supporting customers on their own sustainability journeys. This year, Teijin Aramid achieved the EcoVadis Gold Medal recognition, placing the company in the top 5% of all companies across all industries globally and in the top 3% of all man-made fiber manufacturers worldwide.

Teijin Carbon has been awarded the ISCC Plus certification for its production in Germany and Japan and is on track to receive the same certification in the U.S. in the coming months. This accreditation allows the Teijin Carbon Group to prove to its customers sustainable products that contribute to a circular economy. Teijin Carbon is diligently working toward establishing new sustainability standards, promoting ecological innovations, and fostering partnerships for a more sustainable world.

Teijin is looking forward to engaging with customers and partners at CAMX 2024 in San Diego to discuss innovative ideas for the circular economy and recycling processes.

Teijin Carbon is one of the world's leading manufacturers of Tenax™ carbon fibers and carbon fiber-based materials, with production sites in the US, Germany, Japan and Vietnam. Teijin Carbon develops solutions for the aerospace, automotive, energy, electronics and sporting goods industries using high-performance technologies in an international environment. They work closely with their partners to create a fully circular value chain. The goal to make Teijin’s products net CO₂-free by 2050 aligns with the commitment to global society to find solutions and take action to combat it.

As a manufacturer of intermediate materials in the US, Renegade Materials is known for its product expertise and commitment to customer satisfaction. Renegade Materials distinguishes itself by merging cutting-edge materials science with advanced prepreg manufacturing and testing equipment, all meticulously controlled by rigorous quality management systems. Renegade is steadfast in their commitment to the development and largescale production of advanced, multi-functional materials that offer engineered solutions to the current composite design, usage and affordability initiatives in the aerospace industry.

Teijin Aramid is a global leader in high-performance aramid fiber, a subsidiary of the global Teijin Group. Specializing in high-performance aramid fibers, their materials are used in automotive and aerospace industries, ballistic protection and more.

Latest developments in the sustainable textile industry will be introduced and discussed at the “Cellulose Fibres Conference 2025 – New with Biosynthetics” in Cologne, Germany and online, on 12-13 March 2025. Abstract submission is now open.

In 2024, 214 participants enjoyed two conference days in Cologne or online. The highlights were 40 presentations with lively panel discussions afterwards, the innovation award “Cellulose Fibre Innovation of the Year”, an exhibition, the poster session and plenty of networking possibilities. All of this will be repeated in 2025, including new topics, new speakers and new inputs. The “Cellulose Fibres Conference 2025” will again cover the entire value chain, from lignocellulose, chemical pulp, cellulose fibres such as rayon, viscose, modal or lyocell and new developments to a wide range of applications, e.g. textiles from renewable fibres, nonwovens such as wet wipes and composites, hygiene and packaging. The conference will further address topics like circular economy, fibre-to-fibre recycling and sustainable carbon cycles, biosynthetics, new technologies and feedstocks.

Call for Abstracts
Enterprises and research institutes are invited to contribute to the program and present their innovative products, technologies or developments. Deadline for submission is 30 September 2024.
cellulose-fibres.eu/call-for-abstracts

Call for Innovations
The conference will conclude with the innovation award “Cellulose Fibre Innovation 2025” whose winner can join the ranks of amazing innovations. The deadline for innovation submissions is 30 November 2024. The innovation award “Cellulose Fibre Innovation of the Year 2025” is sponsored by GIG Karasek.
cellulose-fibres.eu/award-application

Call for posters
The poster exhibition is highly anticipated event at the conference. Poster submissions are open until 31 January 2025.
cellulose-fibres.eu/call-for-posters