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. 

The fine filament nonwoven technology from Freudenberg Performance Materials is made from a wide variety of polymers and blends using mono or bico fibers. The high flexibility and broad customization options provide benefits in a wide range of markets and applications – from roofing membranes to liquid filtration, as well as specific applications such as dehumidification products and artificial turf.

Freudenberg’s innovative fine denier spunbond materials rely on flexible manufacturing capabilities, which enable a high level of customization. They can be made of PET, PE or PP, not only as 100% composition but also in many different combinations, e.g. PET/PE, PET/coPET or PET/mPP, using mono or bico fibers with titer ranging from 2.5 to 3 dtex. The material weight spans 17 to 140gsm. The nonwovens are strongly bonded thanks to thermal bonding provided either by flat calendering or point sealing. The technology enables lightweight solutions with high tensile and tear strength, as well as a smooth and uniform surface.

Advantages for the construction industry
Suited for construction applications such as roofing & facade membranes, vapor barriers and house wrappings, Freudenberg lightweight fine denier nonwovens complement the well-known Terbond®, Texbond® and Colback® solutions for the construction market. They deliver mechanical strength and, in particular, a high nail tear strength as required by the market. Moreover, they have high UV and temperature resistance and stability thanks to the PET composition.

Filtration applications
The fine denier technology is also marketed under the Filtura® brand, specifically suited for liquid filtration, e.g. coolants & lubricants. The technology provides high efficiency and a regular surface, as well as new capabilities with PET-PA and PET-PE nonwovens. Support media applications for glass fiber, nano and activated carbon also benefit from the lightweight fine denier nonwovens as protective layers.

Packaging and coating: Efficient converting and high durability
The fully synthetic PET/PE fine denier materials are ideal for packaging applications such as desiccant bags and other dehumidifier products. They enable the efficient and fast production of such pouches due to their exceptional hot sealing capabilities, with no need for chemical binders or additional treatments. Freudenberg’s technology provides high strength, high abrasion resistance and high durability, allowing for long-lasting desiccant bags.

In the coating industry, too, Freudenberg’s fine denier spunbonds contribute to enhanced process efficiency. The materials are chemically resistant and have good thermal stability. High-quality coating results can be achieved by using these materials as coating substrates, thanks to their smooth and even surface. The material properties can be customized for coating, laminating and concealing applications thanks to different combinations of polymers, fiber types and bonding technologies. For example, a specific very lightweight flat bonded variant of the material is an ideal coating substrate for cold wax depilatory strips, providing the necessary high mechanical strength and material flexibility.

Other applications for Freudenberg’s fine filament technology are crop covers in agriculture, decoration applications and other industrial or consumer applications.

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.”

Increasingly weaker demand from key sales markets over the course of 2024 is slowing SGL Carbon's sales and earnings growth. Group sales in 2024 amounted to €1,026.4 million, down slightly by 5.8% on the prior-year level (2023: €1,089.1 million). The group's adjusted EBITDA decreased by 3.3% to €162.9 million (2023: €168.4 million).

Despite the slight decline in sales, the adjusted EBITDA margin improved from 15.5 % in the previous year to 15.9 % in 2024. This is mainly due to positive price and product mix effects.

Declining demand from the key semiconductor and automotive markets, coupled with persistently unsatisfactory demand from the wind industry, led to a decrease in volume and sales in three of four business units. Only Process Technology was able to improve its sales and adjusted EBITDA.

Earnings performance in the past fiscal year was strongly affected by non-recurring items of minus €118.5 million (2006: minus €52.9 million). These mainly included the impairment of assets of the Carbon Fibers business unit totaling €91.2 million (previous year: €44.7 million) and expenses from restructuring measures in the Carbon Fibers and Battery Solutions business lines totaling €19.0 million. After deducting one-off effects and non-recurring items as well as depreciation and amortization of €58.7 million (2023: €58.9 million), EBIT amounted to minus €14.3 million in 2024 (2023: €56.6 million).

Taking into account the financial result of minus €32.6 million (2023: minus €34.2 million) and tax expenses of €32.5 million (2023: €19.3 million), SGL Carbon recorded a net loss of €80.3 million (2023: net profit of €41.0 million) despite the solid overall business performance.

In 2024, the Carbon Fibers (CF) business unit's sales continued to decline, decreasing by 6.7% to €209.8 million (2023: €224.9 million). The decline was due in particularly to the continued low demand from the wind industry and the increasing competitive headwind resulting from global overcapacity for textile and carbon fibers.

Adjusted EBITDA in the Carbon Fibers business unit decreased by €18.2 million year-on-year to minus €11.0 million (2023: €7.2 million). The lack of fixed cost absorption led to high idle capacity costs and combined with declining margins for our fiber products, had a negative impact on adjusted EBITDA. It should be noted that the Carbon Fibers business unit included the result of the equity accounted activities (mainly the joint venture Brembo SGL Carbon Ceramic Brakes, BSCCB) in the amount of €15.8 million (2023: €18.3 million). Excluding the contribution from the equity-accounted BSCCB, the adjusted EBITDA of Carbon Fibers would amount to minus €27.0 million (2023: minus €10.9 million).

In February 2025, as part of the review of all strategic options for the Carbon Fibers, a decision was made to extensively restructure the Carbon Fibers business unit, which also includes the closure of unprofitable business activities. A complete sale of the Carbon Fibers activities was reviewed and is currently not considered feasible.

In the reporting period, sales in the Composite Solutions (CS) business unit amounted to €124.6 million, down 19.0% (2023: €153.9 million). The decline was due in particular to the premature expiration of a significant project-related supply contract with an automotive customer.

As a result of lower volumes and product mix effects, CS's adjusted EBITDA decreased by €4.0 million or 18.0% year on year to €18.2 million (2023: €22.2 million). It should be noted that the adjusted EBITDA includes a compensation payment of €3.0 million for a prematurely terminated customer contract. The adjusted EBITDA margin remained almost constant at 14.6% compared to the previous year (2023: 14.4%).

Forecast
For the year 2025, SGL Carbon expects different but overall challenging developments in their key sales markets. For the semiconductor industry and in particular for silicon carbide-based semiconductors, the demand is expected to remain moderate. The main reasons are lower than originally forecast growth rates for electric vehicles and continued high inventories at our customers site. At the earliest, demand could pick up in the second half of 2025. The company also expects a high degree of uncertainty combined with lower momentum for the automotive market segment.

The forecast for the current fiscal year 2025 takes into account all four operating business units, as they are still in the early stages of restructuring our Carbon Fibers business. Based on their assumptions regarding the development of the key sales markets, the managers expect consolidated sales for fiscal year 2025, including all business units, to be slightly below the previous year (2024: €1,026.4 million).

Taking into account all four operating business units, an adjusted EBITDA in 2025 is expected to range between €130 million and €150 million. Furthermore, the assumption is that the free cash flow at the end of the 2025 financial year - excluding payments for the planned restructuring of the CF - will be below the previous year's level but still positive (2024: €38.7 million).

Restructuring Carbon Fibers
On February 18, 2025, the Board of Management of SGL Carbon announced a restructuring of the loss-making CF business unit. This includes a significant reduction of CF's business activities and a focus on a profitable core. SGL Carbon's group sales guidance for 2025 excluding the expected sales contribution from CF would be approximately €200 million lower. On the other hand, the adjusted EBITDA for the remaining businesses excluding the operating adjusted EBITDA of CF would be between 155 – 175 million €.

“In the coming months, our work will focus on restructuring the carbon Fibers business unit and safeguarding our profitability. This includes focusing on new sales opportunities to further utilize our production capacities and strict cost management. The major trends such as digitization, climate-friendly transportation and renewable energy sources remain intact and are the drivers for our key sales markets. SGL Carbon will benefit from these trends and the associated growth opportunities in the medium and long term,” explains Andreas Klein, CEO of SGL Carbon SE.

The National Council of Textile Organizations (NCTO), National Chamber of the Textile Industry (CANAINTEX), and Canadian Textile Industry Association (CTIA) issued a joint statement urging President Donald Trump to reach a deal with Mexico and Canada to avoid imposing 25 percent tariffs on imports from these countries and to close the de minimis loophole immediately.

“All three of our countries are partners in a vital textile and apparel coproduction chain that generates $20 billion in two-way trade and helps support over 1.6 million jobs under the United States-Mexico-Canada Agreement (USMCA) — a trade deal that was negotiated during President Trump’s first term in office,” the associations said.

The U.S. textile industry ships $12.3 billion, or 53 percent, of its total global textile exports to Mexico and Canada. Those inputs come back as finished products to the United States under the USMCA.

Mexico exports $9 billion in textile and apparel to the United States. Mexico is the 4th largest exporter of textiles and the 6th largest exporter of apparel to the United States.

Canada exports approximately $1.8 billion in textiles and apparel to the United States and Mexico, with the United States being the destination for 64 percent of its total global textile export, including high-quality flame-resistant materials and medical equipment including PPE.

“While we fully support President Trump’s efforts to stem illegal migration and to address the fentanyl crisis as quickly as possible, we urge the administration to refrain from imposing penalty tariffs on imports from USMCA partners. We are focused on ensuring a normalized trading relationship between our countries,” said NCTO President and CEO Kim Glas. “Imposing penalty tariffs on imports from critical U.S. free trade agreement (FTA) partners will only serve to benefit China and other Asian countries that don’t play by the rules and to harm the U.S. textile industry and manufacturers in our Western Hemisphere supply chains.”

“As part of any deal with Mexico, Canada—and China—we also call on the Trump administration to end the de minimis tariff exemption immediately for imports from all countries. This loophole in U.S. trade law, which allows imports valued at $800 or less to enter the United States duty-free hurts our textile and apparel industries, rewards countries like China, and helps facilitate the flow of illegal and toxic products, such as fentanyl and fentanyl precursors into the U.S. market,” Glas added.

“Despite steps taken by our countries to prevent the importation of goods that are undervalued, made with forced labor or transshipped, we have seen firsthand how the Asian market has gained an unfair advantage through predatory trade practices, displacing companies and workers in our industries and undermining our critical coproduction chain,” said Rafael Zaga Saba President of CANAINTEX.

“Canada is seeking to preserve our strong coproduction chain with Mexico and the United States which spurs investment, trade and employment in our three countries,” said Jeff Ayoub, Chairman of the Board of CTIA. “These additional tariffs would harm our industries and workers, and we urge President Trump stop these expected tariffs from being imposed.”

“We look forward to working closely with the Trump administration and continuing to educate officials about the adverse impact of penalty tariffs on imports from Western Hemisphere countries and de minimis on our industries and workers, while highlighting the critical nature of our strong coproduction chain, which contributes to our overall investment, job growth, and economic stability,” the associations jointly added.

NCTO is a Washington, DC-based trade association that represents domestic textile manufacturers.

• U.S. employment in the textile and apparel supply chain was 501,755 in 2023.
• The value of shipments for U.S. textiles and apparel was $64.8 billion in 2023.
• U.S. exports of fiber, textiles and apparel were $29.7 billion in 2023.
• Capital expenditures for textiles and apparel production totaled $2.27 billion in 2021, the last year for which data is available.

CANAINTEX is a Mexico City-based trade association representing Mexican textile producers.

• The textile industry in Mexico provides over 1.1 million jobs.
• Mexican textile exports are projected to reach 9 billion USD in 2024.
• Mexico is the 4th largest exporter of textiles and the 6th largest exporter of apparel to the United States.
• One out of every three pairs of pants sold in the U.S. is made in Mexico.
• With 36% domestic content in its exports, the textile industry generates the highest value-added of any manufacturing sector in the country.

CTIA represents domestic textile manufacturers across Canada, advocating for policies that support innovation, sustainability, and growth in the sector.

• The Canadian textile industry employs approximately 30,000 textile and apparel workers.
• The total value of shipments for Canadian textiles and apparel was approximately C$7.5 billion in 2023.
• Canada exported approximately US$2.66 billion in textiles in 2023, with 64% (US$1.71 billion) going to the United States.

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.”

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.”

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.

Protective gloves, such as those used for work, sport or household gardening, retrieve their protective function from a special coating. This coating provides abrasion resistance, makes the material waterproof and resistant to chemicals or oil, and even protects against cuts and punctures. Until now, coatings made of oil-based polymers, nitrile rubber or latex have been the main materials used. Scientists at the German Institutes of Textile and Fiber Research Denkendorf (DITF) have succeeded in developing a robust yet flexible glove coating using environmentally friendly lignin in a 3D printing process.

Coatings that are subject to mechanical stress always suffer from a certain degree of abrasion that is dispersed in the surrounding area. This is also the case with coated protective gloves. In order to avoid long-term pollution of the environment, materials should be used whose abrasion particles are biodegradable. The aim of the research project was to improve conventional protective equipment and integrate more sustainable materials.

The biopolymer lignin is a natural component of plant cells that is produced in large quantities as a by-product of paper manufacturing. Due to its properties, it represents an environmentally friendly alternative to oil-based coating polymers.

The scientists developed biopolymer compounds containing lignin, which were used to produce thermoplastic materials that can be processed using 3D printing.

Lignin has few polar groups, which makes lignins hydrophobic and therefore insoluble in water. For this reason, they biodegrade slowly. This makes them particularly suitable for durable coating materials.

Despite this durability, lignin particles that are released into the environment through abrasion biodegrade faster than the abrasion of conventional coatings. This is due to the much higher surface/volume ratio.

The use of 3D printing makes it possible to produce the coating precisely and efficiently. The 3D printing process also makes it possible to adapt the glove to the individual needs of the wearer. This increases wearer comfort and promotes freedom of movement.

The research project shows that the use of lignin not only offers ecological benefits, but that protective gloves coated with it are also particularly durable and resistant. They meet safety standards and at the same time contribute to sustainability in the world of work.

Graniteville Specialty Fabrics has set new standards by challenging the traditional pad finishing process. With Baldwin Technology’s spray finishing technology, Graniteville Specialty Fabrics has been able to increase production efficiency, and minimize chemical and water waste.
 
Based in Graniteville, South Carolina, Graniteville Specialty Fabrics produces coatings and coated fabrics that are resistant to water, fire, UV and weather for the military, marine and tent markets. The installation of Baldwin’s TexCoat™ G4 is part of a facility upgrade to maximize production efficiency and capacity in the durable water-repellent finishing and coating line to meet growing customer demand for advanced engineered products.

With sustainability benefits, tracking and process control, and Industry 4.0 integration, the TexCoat™ G4 provides high-quality fabric finishing, with no chemistry waste, as well as minimal water and energy consumption. This system utilizes non-contact precision-spray technology, ensuring precise finishing coverage with the exact amount of chemistry. Changeovers (pad bath emptying, cleaning and refilling) are reduced, resulting in substantial chemical conservation and increased productivity.