From the Sector

adidas have unveiled an innovation in the sport of wheelchair basketball. Born from extensive feedback and research with wheelchair athletes, the uniforms were developed by the adidas Innovation team in Portland in close collaboration with Adaptive Sports Northwest, a non-profit organization for adaptive athletics. The uniforms will be worn by the PNW Reign women’s wheelchair basketball team for the first time as they set out on a quest to win the NWBA Tournament on April 26-28, 2024.

Earlier in April, during the reveal of the adidas kits for the Paris 2024 Olympic and Paralympic Games, the sports brand announced that 86% of pieces of apparel worn on and off the field of play have been created using design principles that ensure they work for athletes with and without a disability alongside the development of adaptive training apparel.

The new wheelchair basketball jersey and shorts feature ergonomic advancements in pattern engineering, specifically tailored for seated positions to reduce bulk and increase comfort. Materials were selected based on detailed athlete feedback sessions and data analysis to unlock performance for seated athletes. The uniform features lightweight woven front panels for durability and full mesh back panels for breathability. Focus on the fit was paramount to deliver a uniform that felt light and comfortable.

Players of both genders have actively participated in rounds of feedback and ergometer testing sessions to measure maximum speed over pushes, providing the adidas team with invaluable insights into the mechanics of speed that will inform future research and development. In addition, the feedback was used to measure fit, performance, durability, and overall comfort to make the uniforms match the needed requirements. Finally, through the validation process, the PNW Reign basketball team confirmed that adapted patterns have been proven to reduce fabric bulk, decrease heat build-up and enhance confidence.

Trends such as fitness lifestyle and vitality, the quantified self movement, active ageing and the outdoor boom will significantly change the sports, health and wellness sector in the coming years. In addition, technical innovations will redefine the way people stay fit and healthy. The DiMo - Digital Motion joint project aims to help shape the transformation process. It ran in its first round in 2023 and will be continued for another four years with DiMo-NEXT.

The project aims to conduct transdisciplinary research into how people's experience of exercise can be improved, performance increased and a sustainable lifestyle made possible. The potential offered by digital technologies, particularly in the field of sensors, plays a key role here. The topic of clothing is also important as an interface between technological solutions and people. This is why KARL MAYER and Grabher are among the 26 project partners from industry and research, representing the textile industry.

The textile machinery manufacturer KARL MAYER is contributing its expertise in the field of wearables to the project work. The TEXTILE CIRCUIT team of its TEXTILE MAKERSPACE has already successfully implemented various projects in this area. In addition, an MJ 52/1 S from KARL MAYER is used at V-Trion, Grabher's research company in Lustenau, for the production of electrically conductive textiles.

DiMo-NEXT will be launched on April 1, 2024, shortly before Techtextil 2024 in Frankfurt am Main. KARL MAYER will present its contribution to the project work at the trade fair for the sector.

Smart textiles have the potential to revolutionise healthcare. In his doctoral thesis in textile technology at the University of Borås, Emanuel Gunnarsson presents unique solutions to the bottleneck that has long inhibited the market.

With an ageing population, increasing demands are being placed on healthcare and smart textiles can offer a solution where only imagination sets limits. “The long-term goal of most smart textiles is for them to be so easy to use that the user doesn't think of them as anything more than regular garments. No special procedure should be needed to use them. If we succeed in that, we won't burden healthcare by having healthcare personnel administer vital parameter monitoring such as blood pressure and pulse, as the user can handle it themselves,” said Emanuel Gunnarsson.

In his work, he has investigated how a t-shirt for measuring heart rhythm and movement patterns, and garments for electrostimulation, can be produced in a single step. This involves the connection between the contact surfaces (electrodes), the insulated conductive paths between the electrode and the contact point, and the electrical measuring equipment required.

“This, as far as we know, has never been described before. We are completely convinced that this is the solution to a significant bottleneck when it comes to getting the smart textile market going in earnest,” said Emanuel Gunnarsson.

His work has resulted in two different simple ways to produce smart textiles. He demonstrates that sensors can be integrated using standard textile manufacturing methods. The research also includes criticism of some of the methods used to measure the functionality of smart textiles, and advice on how to do it better instead.

“The next natural step will be to see how these garments cope with one of the toughest challenges a garment faces, namely washing. Especially as these garments must be worn closest to the skin, they will need to be washed relatively often,” said Emanuel Gunnarsson.

Studies from other universities indicate that the yarns used to measure signals from the body do not withstand many washes, but after a small pilot study, Emanuel Gunnarsson is hopeful of the opposite.

Using bio-based and bio-degradable, recyclable insulation textiles to sustainably insulate heat and reduce energy consumption and the carbon footprint - the Aachen-based start-up SA-Dynamics has developed a solution for this dream of many building owners together with industrial partners. SA-Dynamics won the second Innovation Award in the "New Technologies on Sustainability & Recycling" category at the leading textile trade fairs Techtextil and Texprocess for this development.

The bio-based recyclable insulation textiles consist of 100 percent bio-based aerogel-fibres. They contain up to 90 percent air, trapped in the nano-pore system of the aerogel-fibres. The bio-based raw material is sustainably sourced and certified. The insulation textiles made from bio-based aerogel fibres are said to insulate the same or even better than synthetic insulating materials of fossil origin like PET, PE or PP and mineral or stone wool.

"By using bio-based aerogels, we are doing away with fossil-based materials and doing something for the environment and climate," explains Maximilian Mohr, Chief Technical Officer (CTO) at SA-Dynamics. "We are thus meeting the regulatory measures of the EU and the governments of many countries for more climate and environmental protection. By using bio-based, recyclable aerogels, we can revolutionise the world of construction.“

The Aachen-based start-up SA-Dynamics is made up of researchers from the Institut für Textiltechnik (ITA) and the Institute of Industrial Furnace Construction and Heat Engineering (IOB) at RWTH Aachen University.

The bio-based aerogel fibres originate from the LIGHT LINING research project of the BIOTEXFUTURE innovation area. The LIGHT LINING research project focussed on sports and outdoor textiles. The research results are transferable to the construction sector.

The Techtextil and Texprocess Innovation Awards ceremony will take place on 23 April 2024 at 12.30 pm in Hall 9.0 in Frankfurt/Main, Germany.

Two new research labs are being built by AkzoNobel at its Sassenheim site in the Netherlands to further propel the company’s product development.

Work is about to start on building a technology center for Powder Coatings, while a new polymer lab has just opened which will develop innovative resin technologies for all the company’s businesses.

The total investment in the Sassenheim site – AkzoNobel’s largest global R&D center – amounts to around €8 million. The facility already houses the biggest R&D teams in Europe for the company’s Decorative Paint and Automotive and Specialty Coatings businesses. The addition of the two new labs will help the company further build on its global reputation for product development focused on providing creative solutions for customers.

The recently opened polymer lab – part of the company’s Research organization – will accommodate 15 scientists. It will mainly focus on the development of more sustainable polymer technologies and new coatings to support AkzoNobel’s ambition to halve carbon emissions across the value chain by 2030.

AkzoNobel employs around 3,000 R&D professionals worldwide in 70 laboratories, with more than €1.25 billion having been spent on research and development over the last five years.

Trützschler expanded their portfolio to become the first full-liner in the preparation of textile waste – from mechanical recycling to the spinning preparation of torn secondary fibers.

The TRUECYCLED solution is the result of their cooperation with the company Balkan Textile Machinery INC.CO. in Turkey, which they announced at the ITMA 2023 trade event in Milan. Since then, Trützschler has received many inquiries for recycling systems.

Success with a systems approach
Recycling systems face significant technological challenges. On average, torn fibers are much shorter than virgin fibers. The percentage share of short fibers in the fiber mass is much higher. Unopened yarn and fabric particles are also difficult to process. Not surprisingly, much academic and practical research is currently conducted to find solutions for these problems. Dr. Georg Stegschuster, a researcher specializing in textile recycling, believes a systems approach is needed. He is working at the Recycling atelier, a model factory for mechanical recycling in Augsburg, Germany, which is committed to delivering the latest technological insights for textile recycling. “A perfect fine-tuning between tearing and spinning preparation is key for obtaining the best possible quality results and avoiding unnecessary fiber shortening,” he says. “This can be achieved if you are in control of both processes – and have the necessary expertise for both processes too.”

Gentle but effective
In some cases, for example, it may be advantageous to have less aggressive settings in the tearing line. This can help avoid unnecessary fiber shortening. The remaining higher share of unopened fabric must then be handled in a high-performance spinning preparation line. This starts with the right blow room configuration for perfect opening, cleaning and blending. A card that is specially designed for recycling materials, such as the new TC 30Ri, can also enable gentle but effective treatment of fibers.

A shortened drafting process is also a must. The integrated draw frame IDF 3 can make this possible. The draft is high enough to provide excellent levelling of the numerous short fibers, but low enough to prevent floating fibers.

Full-liner in mechanical recycling and preparation of textile waste
Trützschler now offers a complete system covering the whole process, from cutting and tearing textile waste through to carding and drawing secondary fibers. Thanks to this holistic approach and Trützschler’s expertise for the whole process, manufacturers can avoid unnecessary fiber shortening.

At the "International Conference on Cellulose Fibers 2024" in Cologne, Germany, the Nova Institute for Ecology and Innovation awarded first place in the Innovation Prize to the project partners of the EU-funded HEREWEAR project. They presented a dress made of cellulose fibers, which is entirely made of straw pulp.

HEREWEAR is an EU-wide research project that brings together partners from research and industry. They are working to establish a European circular economy for locally produced textiles and clothing made from bio-based raw materials.
The HEREWEAR consortium consists of small and medium-sized enterprises and research institutions. HEREWEAR covers all the necessary expertise and infrastructure from academic and applied research and industry from nine EU countries.

The HEREWEAR approach includes technical and ecological innovations in the production of fibers, yarns, fabrics, knitwear and garments, as well as the use of regional value chains and the circular development of fashion items.

New technologies for wet and melt spinning of cellulose and bio-based polyesters, e.g. PLA, from which yarns and fabrics are produced, form the technical basis. Coating and dyeing processes have been developed and tested as part of the project. In addition to reducing the carbon footprint of the product, another environmental goal is to reduce the release of microfibers throughout the textile manufacturing process and life cycle.

Improving the sustainability and recyclability of the developed garments is ensured by design for circularity and digitally networked production means. On-demand production is realized in so-called "microfactories", which are individualized and produce only for actual demand. This production method can be achieved through regional, networked value chains and enables the traceability of materials and manufacturing processes.

The dress presented at the award ceremony is an example of the cooperation and the different qualifications of the project partners: TNO (Netherlands Organization for Applied Scientific Research) provided sustainably produced pulp. The HighPerCell fibers were produced in DITF's spinning facilities. At the same time, designers from the fashion label Vretena created the design for the flexible, two-piece dress, which can be knitted without cutting waste. DITF textile experts worked with the designers to develop the knitting pattern. DITF textile engineers and technicians produced the knitted fabric and assembled the dress at the institutes’ technical center. DITF computer scientists and engineers created the "value chain" and "digital twins" for digital traceability of the production processes.

The innovation prize was awarded to the HEREWEAR consortiu for their joint achievement. Representatives of DITF Denkendorf and Vretena accepted the award on behalf of the EU project partners.

Lightweight design is a key enabler for addressing the energy transition and sustainable economy. Following the liquidation of the state agency Leichtbau BW GmbH, a consortium consisting of the Allianz Faserbasierter Werkstoffe Baden-Württtemberg (AFBW), the Leichtbauzentrum Baden-Württemberg (LBZ e.V. -BW) and Composites United Baden-Württemberg (CU BW) now represents the interests of the lightweight construction community in the State.

The Lightweight Design Agency for Baden-Württemberg is set up for this purpose on behalf of and with the support of the State. The Lightweight Construction Alliance BW is the central point of contact for all players in the field of lightweight construction in the State and acts in their interests at national and international level. Professor Markus Milwich from the German Institutes of Textile and Fiber Research Denkendorf (DITF) represents the agency.

The use of lightweight materials in combination with new production technologies will significantly reduce energy consumption in transportation, the manufacturing industry and the construction sector. Resources can be saved through the use of new materials. As a cross-functional technology, lightweight construction covers entire value chain from production and use to recycling and reuse.

The aim of the state government is to establish Baden-Württemberg as a leading provider of innovative lightweight construction technologies in order to strengthen the local economy and secure high-quality jobs.

Among others, the "Lightweight Construction Alliance Baden-Württemberg" will continue the nationally renowned "Lightweight Construction Day", which acts as an important source of inspiration for a wide range of lightweight construction topics among business and scientific community.

Professor Milwich, an expert with many years of experience and an excellent network beyond the State's borders, has been recruited for this task. In his role, Milwich also represents the state of Baden-Württemberg on the Strategy Advisory Board of the Lightweight Construction Initiative of the Federal Ministry for Economic Affairs and Climate Action, which supports the cross functional-technology and efficient transfer of knowledge between the various nationwide players in lightweight construction and serves as a central point of contact for entrepreneurs nationwide for all relevant questions.

From 2005 to 2020, Professor Milwich headed the Composite Technology research at the DITF, which was integrated into the Competence Center Polymers and Fiber Composites in 2020. He is also an honorary professor at Reutlingen University, where he teaches hybrid materials and composites. "Lightweight design is an essential aspect for sustainability, environmental and resource conservation. I always showcase this in research and teaching and now also as a representative of the lightweight construction community in Baden-Württemberg," emphasizes Professor Milwich.

INDA, the Association of the Nonwoven Fabrics Industry, announced a call for abstracts for IDEA®, April 29-May 1, 2025, Miami Beach Convention Center, Miami Beach, Florida. IDEA attracts thousands of nonwoven professionals from all functional areas spanning the entire supply chain.

The theme for IDEA25 is “Nonwovens for a Healthier Planet” highlighting nonwoven advancements in sustainability.

Product developers, designers, engineers, technical scouts, and marketing professionals accountable for their product’s environmental impact will attend IDEA. Presentations will focus on responsible sourcing, innovations in sustainability, and end-of-life solutions for nonwovens and its related industries.

A few examples of topics for consideration are:

RESPONSIBLE SOURCING

• Natural Fibers (Cotton, Hemp, Bamboo, Banana, Wood Pulp, Regenerated Cellulose, Wool, Fur, Chitin, Feathers)
• Polymers (Biopolymers, Regenerated and Recycled polymers, Unconventional and Alternatives to Traditional Polymers)
• Sustainable Chemistries (finishes, lubricants, adhesives, and additives)

INNOVATIONS IN SUSTAINABILITY

• Process Improvements with Sustainability Impact (reduced waste, reduced energy, reduced water consumption)
• Product Design Improvements with Sustainability Impact (lightweighting, designs for end-of-life, “good enough” design)

END-OF-LIFE SOLUTIONS

• End-of-Life or Next-Life Considerations (compostability, biodegradability, recycling, advanced recycling and circularity)
• Presenting is an opportunity for technical professionals to showcase pioneering research, innovative solutions, and expert insights with technology scouts.

Abstracts must be submitted via the INDA website by June 7, 2024.

Global Fashion Agenda (GFA) has collaborated with PDS Ventures to launch a new Trailblazer Programme. The new initiative seeks to identify early-stage innovators and support them on their journey to scale.

As part of the Trailblazer Programme, PDS Ventures will award one innovator a significant investment of up to USD 200,000* to accelerate the company’s growth and positive impact in the fashion industry. The winner will also receive commercial and operational support from PDS Group’s Positive Materials - a textile company and strategic research partner supporting the development and acceleration of low impact textile innovation through collaboration between early-stage start-ups, supply chain partners and brands. Further scaling opportunities will be gained through access to PDS Limited’s extensive global supply chain.
 
GFA and PDS Ventures are presenting an open call for solution providers addressing different challenges across the fashion value chain to apply for the programme. Applicants will be reviewed and shortlisted by an esteemed Jury including representatives from GFA, PDS Ventures, Massachusetts Institute of Technology (MIT), Ralph Lauren Corporation, Fashion For Good and H&M Group. Eight shortlisted innovations will be enrolled in a group of Trailblazers, receiving feedback and investment pitch training from industry experts and PDS representatives.     
 
Each shortlisted innovator will then pitch for a potential investment, with the winning Trailblazer being revealed at GFA’s Global Fashion Summit: Copenhagen Edition 2024 - an international forum for sustainability in fashion, on 22-23 May at the Copenhagen Concert Hall. All shortlisted Trailblazers will also have the opportunity to showcase their businesses within an exhibit at the Summit to connect with other key industry stakeholders and potential investors.
 
The Trailblazer Programme corresponds with the theme of the upcoming Global Fashion Summit - ‘Unlocking The Next Level’. Inspired by a significant milestone, 2024 marks 15 years since the inaugural Global Fashion Summit was hosted in 2009. This pivotal anniversary offers a special moment to not only take stock of the evolution of the sector and the progress made so far, but, most importantly, look ahead at what actions must urgently be implemented in the near term, and the gaps that must be filled to accelerate industry transformation.