From the Sector

Reconomy, a leading international circular economy specialist, has published a new global strategy exploring the evolving global landscape of Extended Producer Responsibility (EPR) for textiles, outlining how businesses can prepare for upcoming changes and detailing Reconomy’s strategic initiatives to support businesses across Europe and worldwide.

The textile industry is approaching a period of significant regulatory and operational transformation. Traditionally, one of the most resource-intensive sectors, textiles generate substantial waste and emissions throughout their lifecycle. 

New EPR legislation is driving a fundamental shift by making producers responsible for end-of-life management, including collection, reuse, recycling, and disposal. This structural change is intended to accelerate the transition towards circular business models and more sustainable production and consumption patterns.

Reconomy views this regulatory shift not as a compliance burden, but as a critical opportunity for innovation and competitive differentiation. By supporting stakeholders in turning regulatory requirements into strategic advantages, Reconomy aims to help businesses build more resilient and circular operations while meeting increasing expectations from consumers, retailers, and policymakers.

The new strategy paper, Textile EPR Strategy 2030, sets out a comprehensive five-year roadmap, providing an overview of anticipated policy timelines and evolving requirements. It also addresses key themes including eco-modulation, Digital Product Passports, and the growing need for robust data and supply chain transparency.

The document outlines Reconomy’s mission and specific initiatives over the next five years that will enable clients to navigate the complex textile EPR landscape effectively.

In the short term, during the “pre-EPR” phase, this includes helping clients understand the regulatory impact, preparing them operationally, building strong partnerships across the textile ecosystem — including with sorters, recyclers, and other key stakeholders — and investing in technology to enable advanced data management and material returns. 

In the longer term, once EPR legislation is established across all EU member states and additional global markets, Reconomy will continue to support clients with multi-jurisdictional compliance (including in regions such as North America), help them leverage product-level data insights to drive innovation and better product design, and accelerate their transition to circular business models.

The strategy follows the launch of Reconomy's Textile EPR Impact Assessment service – a new tailored service designed to help businesses prepare for the rapidly evolving landscape of textile regulations.

Lavi Aharon, Director of Reconomy’s Textile Programme and Business Development Director, said:
“Textile producers are facing an increasingly complex and fast-evolving regulatory landscape as EPR schemes roll out across the world, and especially in Europe. At the same time, they are under growing pressure to demonstrate real progress on sustainability to retailers and consumers.”

Polyurethane foam has traditionally been used to reduce noise, vibration and harshness (NVH) in vehicles, contributing to passenger comfort. At the Automotive Acoustics Conference in Constance, Germany, Autoneum presented a polyester felt-based sound insulation system that is lightweight, resilient and shapeable, thus combining best-in-class acoustic performance and precise contours with enhanced recyclability.

Flexi-Light PET is manufactured from a novel blend of polyester fibers that is primarily sourced from recycled PET. Through a state-of-the-art production process, Autoneum can adjust the fibers’ orientation to produce a proprietary felt with mechanical and acoustic properties comparable to polyurethane foam. The material is flexible and can be molded into 3D shapes, making it an ideal insulation material for interior components with complex contours, such as carpets and inner dashes.

Composed entirely of PET — up to 90% of which is recycled content — Flexi-Light PET can be used as a decoupler in conjunction with other PET-based technologies within Autoneum’s product portfolio to support full circularity, allowing for the reuse of production waste and end-of-life recycling of the product. Flexi-Light PET is the latest addition to Autoneum's Pure technologies, which are intended to offer an excellent environmental performance throughout the entire product life cycle.

This innovation builds on the Flexi-Loft technology, which is made from a blend of recycled cotton and polyester fibers and was initially introduced by Autoneum in 2021.

From 25 to 26 June 2025, the final meeting of the ERASMUS+ project AddTex took place in Terrassa, Spain, which aimed to train workers, pupils and students in the textile industry. Over a period of three years, eleven partners from Greece, Ireland, Italy, Portugal, Romania, Sweden, Slovenia, Spain, the Czech Republic and the IVGT association for Germany were involved in the project.

With hackathons, virtual internships and 45 freely accessible MOOCs, AddTex set new standards in training and further education in the textile industry. The online platform www.addtex.eu provides professionals with the latest insights into green, digital and smart textiles – in a practical and free format. 

AddTex.eu online platform
All the project goals were achieved. The partners developed innovative formats such as summer schools, back-to-school programmes, coaching services and masterclasses. The 45 massive open online courses (MOOCs) on the AddTex.eu platform offer explanatory videos and learning materials as downloadable PDFs, each tailored to the three main target groups: technicians, engineers and managers.

A highlight of the closing event on 26 June 2025, which was jointly organised by AddTex and the EU project xBUILD-EU under the motto ‘Textile Talent & Innovation: Driving Tomorrow's Industry’, was the interactive session ‘New Generations in the Labour Market’, including the speed dating event ‘Talent meets Industry’. The event brought together companies, students and experts for an intensive exchange and networking day in Terrassa.

The AddTex.eu platform will be continuously developed over the next five years by the IVGT Technical Textiles Department together with the project partners in order to provide up-to-date content and act as a point of contact for industry and universities. In addition to instructions for creating your own MOOCs, hackathons and webinars, new soft skills and formats such as back-to-school programmes and solution-oriented consulting have been developed and implemented by project hubs.

A collaboration with the Chair of Textile Technology at Chemnitz University of Technology and the Texoversum Experts & Training Hub in Reutlingen is currently planned to supplement the project results. In addition to the three EU priority areas of ‘Green – Digital – Smart’, the focus is also on textile recycling and digitisation and AI topics in order to provide IVGT members with targeted information, training materials and network contacts.

The IVGT was most recently responsible for work package 5, ‘Qualification of the textile industry through ADDTEX hubs for green-digital-smart,’ as well as for the creation of an application manual and a business plan to ensure that the project content is updated for at least five years after the end of the project.

The textile industry continues to face growing regulatory and market pressures to shift toward more sustainable and inclusive production models.

Launched at the June Global Fashion Summit: Copenhagen Edition 2025, the Fashion Impact Toolkit provides an impact inventory and framework to help textile companies navigate sustainability  challenges. This interactive resource is designed for companies across the complex textile value chain, from raw material producers and retailers to recyclers and remanufacturers, and is applicable across major sub-sectors, including high-street fashion, luxury, footwear, sportswear, and textile manufacturing. It can serve as a starting point to help companies map their areas of influence based on parameters such as materials, processes, and geographies.

“We hope that the Fashion Impact Toolkit will be a valuable resource for the textile industry as it navigates increasing regulatory and stakeholder pressure,” says Federica Marchionni, CEO of the Global Fashion Agenda. “By identifying and acting upon the most critical sustainability implications across the value chain, companies can foster greater resilience, trust, and long-term transformation. We are proud to collaborate with Deloitte to support this much-needed shift.”

Developing an impact inventory
The Fashion Impact Toolkit outlines nearly 3,000 potential impacts across value chain stages, including challenges and opportunities, to help inform leaders’ decision-making. Geographical scoping was applied to serve as the basis for identifying potential impacts across the main stages of the textile lifecycle.

The resulting value chain mapping and impact inventory highlight key hotspots and pressure points across six distinct stages: production of materials, garments manufacturing, product distribution and use, end-of-life management, material recycling, and high-value recovery activities.

A framework to help drive transformation
The interactive Fashion Impact Toolkit is structured according to the current European Financial Reporting Advisory Group’s (EFRAG) European Sustainability Reporting Standards (ESRS). To help organizations navigate the toolkit and turn insights into action, the toolkit follows a seven-step framework: 

1. Identify the position in the value chain
2. Generate material- and geography-specific insights
3. Translate potential sector-wide impacts to company-specific ones
4. Quantify the identified potential impacts
5. Define the risks and opportunities
6. Shape the ambition and strategy
7. Collaborate for systemic change

A stepping stone to circular transition
The Fashion Impact Toolkit can serve as a stepping stone toward a circular economy. Circular strategies can help reduce a wide range of identified environmental impacts and can be effective in building resilience across the value chain. 

Monterey Textiles developed ECO-FYRE, an innovative recycled aramid fabric designed for the gas and oil industry. This sustainable solution tackles the growing problem of uniform waste sent to landfills by recycling soiled garments back into fiber form. Blended with virgin aramids, the fabric delivers superior flash fire protection, color fastness, and comfort while supporting environmental responsibility. Extensive lab testing and wear trials confirmed the fabric’s performance in harsh conditions without sacrificing safety or durability. 

ECO-FYRE offers a closed-loop recycling model that reduces manufacturing waste, minimizes environmental impact, and supports companies focused on sustainability—delivering both protection for workers and meaningful progress for the planet. Moreover, the integration of this technology has also allowed for a more efficient production cycle, helping Monterey Textiles offer competitive pricing without compromising quality.

General Recycled® (GR) stated that its patented aramid recycling technology played a pivotal role in the development of Monterey Textiles' new Eco-Fyre® fabric, which was honored with the Innovation Award for Sustainability at the 2025 Network Association of Uniform Manufacturers and Distributors (NAUMD) annual conference.

"Monterey's success with Eco-Fyre® underscores the value and potential of our patented recycling process," said Ted Parker, President of General Recycled. "Partnering with Monterey and Filspec to bring this sustainable solution to market has been incredibly rewarding. This recognition highlights the growing industry demand for circular, closed-loop innovations in flame-resistant textiles."

The company launched the "Edvanced Recycling - EREMA Prime Solutions for Advanced Recycling" campaign at an exclusive press conference at the beginning of June as a preview to K 2025. 

"The technologies used in plastics recycling have evolved very fast. Over the past few years, we have repeatedly set milestones and have been a driver of innovation. At this year's K, we will again be presenting multiple new solutions designed to keep even more plastics in circulation," said Manfred Hackl, CEO of the EREMA Group, in his opening presentation at the K Preview Press Talk, which was held at the beginning of June at the company's headquarters in Ansfelden near Linz in Austria. EREMA provided a first glance of selected innovations that the company will be presenting at K 2025 in Düsseldorf. 

New technologies open up more applications 
Two new machine types will celebrate their début at K 2025: 

• TwinPro is a high-performance twin-screw technology in which the proven EREMA Preconditioning Unit (PCU) is coupled directly to a twin-screw extruder. The new system is particularly suitable for the highly efficient homogenisation in just one step of complex film waste with low bulk densities. 
• AGGLOREMA technology is particularly interesting for preparing feedstock materials for chemical recycling. This robust and energy-efficient system produces agglomerates with a high bulk density on a large scale from heavily contaminated post consumer material.

The focus is also on the increasing demand for recycled pellets made from post consumer materials in sensitive applications and secondary packaging. For example, EREMA is launching a more compact INTAREMA® TVEplus® 2021 and, together with Lindner Washtech, is presenting the optimum match of washing system and extruder that achieves a balanced overall process. Live recycling demonstrations in the outdoor area will show how different waste streams are processed. Visitors can see the results for themselves in the exhibition of products at the Edvanced Recycling Centre, which range from technical components to cosmetic products and food packaging. 

Digitalisation increases uptime
Digital solutions play a decisive role in achieving the circular economy and handling plastic waste material in a sustainable way. At K, the PredictOn family is growing to include AI-supported in-depth data analysis for monitoring the main drives, and a new Condition Monitoring System for the plasticising unit. Both modules can be seen in action at the show, where an INTAREMA® TVEplus® DuaFil® Compact is equipped with the latest intelligent assistance systems. The results can be seen live on the displays of the BluPort® online platform at the EREMA trade fair stand and at the outdoor Edvanced Recycling Centre.

Edvanced Recycling: The campaign with a recurring effect
"For a more circular economy in the plastics industry, recycling has to be consistently integrated along the entire value chain. Edvanced Recycling shows how we are working together with our customers to sustainably increase the proportion of recycled plastics used in new products," says Gerold Breuer, Head of Marketing at the EREMA Group. The year-long campaign focuses on the full range of EREMA solutions, from technologies proven in practice to innovative new products, with a first highlight at K 2025. "And yes, it really is spelt that way," adds Gerold Breuer, "because the E stands for EREMA. After all, advanced plastics recycling is inextricably linked to our name."

RE&UP Next-Gen cotton fibers and Next-Gen polyester chips recognized for full-system circular design at scale. In an industry where over 99% of textile materials are still virgin and just 6.9% of the global economy is circular (2025 Circularity Gap Report, Circle Economy), RE&UP has taken a decisive step forward. The next-generation textile-to-textile recycler has become the first company in the textile industry to achieve C2C Certified® Circularity for all products, the most rigorous global standard for verifying circular product design and recovery-readiness at scale.

The certification was awarded to all three of RE&UP products by the Cradle to Cradle Products Innovation Institute:

• Next-Gen Recycled Cotton (Pre-Consumer) – C2C Certified® Circularity at Platinum level
• Next-Gen Recycled Cotton (Post-Consumer) – C2C Certified® Circularity at Platinum level
• Textile-to-Textile Recycled Polyester Chips – C2C Certified® Circularity at Silver level

These levels recognize not just recycled content, but a full-system approach to circularity – from sourcing and traceability to infrastructure compatibility and reuse pathways.

“This certification demonstrates that RE&UP is ready to tackle sustainability challenges at scale for the whole industry,” said Andreas Dorner, General Manager at RE&UP. “It proves that recycled fibers can go beyond one-off sustainability claims. With Cradle to Cradle Certified® Circularity, we’re demonstrating full-system readiness from sourcing to end-of-life for the textile industry.”

Cradle to Cradle Certified® Circularity assesses whether a product is designed for continuous cycles of safe, high-value reuse. The assessment is executed by a third party accredited assessing body, Eco Intelligent Growth (EIG).

Technical indicators include:

• Percentage of compatible materials for recycling
• End-of-life recovery systems
• Publicly available circularity data and cycling instructions
• Effective integration of recycled content
• Chemical safety (tested on legally restricted chemicals and beyond)

Infinited Fiber Company announces that Petri Alava, co-founder and CEO since the company’s founding in 2016, will step down from his role on May 31, 2025. Chief Operating Officer Sahil Kaushik will serve as acting CEO from June 1, 2025. Petri Alava will continue supporting the company as Senior Advisor through the end of November. The Board of Directors has initiated the search for a permanent successor.

While circularity and sustainability remain essential, competitiveness is now front and center in the next phase of Infinited Fiber’s industrial scale-up. The company’s strategy is evolving accordingly, with an intensified focus on operational excellence and readiness for large-scale industrial investment.

“Our product has been validated by the market — the value is now established,” said Andreas Tallberg, Chairman of the Board of Directors. “The next strategic priority is to turn that value into profitable industrial scale, by optimizing cost and capital efficiency. We’re grateful for the work Petri and the team have done and excited to begin the next chapter — with Sahil, who brings deep experience in scaling industrial production and driving efficiency in the chemical industry, now leading the transition.”

“Infinna is a breakthrough innovation that’s more relevant than ever,” said Kaushik. “It’s a privilege to lead this talented team, together with world-leading brands supporting us as investors. We have a clear path forward and a solid foundation for the next phase.”

Over the past decade, Petri Alava has played a central role in shaping Infinited Fiber into a global front-runner in textile-to-textile recycling of cotton. Under his leadership, the company’s circular fiber Infinna™ has achieved strong market traction, backed by long-term offtake agreements with leading fashion brands, underscoring Infinna’s unique value and laying the groundwork for scaling a profitable business.

“Ten years is a long time to lead a growth company — and a natural point for change,” said Petri Alava. “I’m incredibly proud of the journey we’ve made as a team: we’ve built something truly valuable — a recycled cotton-like fiber with exceptional market fit, proven demand, and long-term partnerships. Now, with market dynamics shifting and Infinited Fiber entering a new strategic phase, it’s the right time to pass the baton — from creating value to scaling it. I’m happy to support the team during the transition.”

Under the theme “Ensuring a Transformed World Prosperity – Action for Planet with Innovation and Collaboration,” APIC 2025 promoted the petrochemical industry’s role in driving growth and building a sustainable future amid fundamental structural shifts in the sector, which aligns with Indorama Ventures’ brand promise to deliver indispensable chemistry through sustainable solutions.
Indorama Ventures joined some 1,500 delegates from across the globe to discuss sustainability, innovation, and industry cooperation. Ahead of the event, the company’s Combined PET segment, the world’s largest producer and recycler of PET bottles, hosted a reception for about 200 customers, suppliers and partners, including a traditional Thai puppet performance and an interactive VR experience of Indorama Ventures’ 360 Gallery.

Indorama Ventures Public Company Limited, a global sustainable chemical producer, reinforced its leadership in shaping the future of the petrochemical industry at the Asia Petrochemical Industry Conference (APIC) 2025, held this year in Bangkok.

Mr. Aloke Lohia, Group CEO of Indorama Ventures, emphasized that collaboration across the value chain is critical to building long-term resilience and relevance in a shifting global landscape:
“Our global diversity gives us the agility to meet change with confidence and to remain dependable no matter the environment. It is this quiet strength that makes us a partner you can rely on, for today and for what lies ahead. The future of our industry won’t be written in isolation. It will be shaped, once again, through collaboration. Through shared purpose. Through indispensable chemistry.”

Driving Sustainability Through Innovation
At a APIC 2025 panel discussion titled “Reimagining Petrochemicals”, Dr. Anthony Watanabe, Chief Sustainability Officer, explored how the industry must move beyond incremental change by adopting systemic innovation, improving sourcing transparency, and accelerating climate-positive technologies.
Complementing this vision, Dr. Tinnabhop Santadkha, Sustainability Innovation Specialist, delivered a keynote on “Indorama Ventures’ Alternative Feedstocks.” He outlined how the company is investing in bio-based materials, chemical recycling, and alternative feedstocks to reduce emissions and enable a circular economy at scale.

Scaling Impact at the Grassroots Level
In a session focused on circular economy ecosystems, Ms. Naweensuda Krabuanrat, Head of Global CSR, Global Recycling Education and Thai Advocacy, spotlighted the company’s work in building community-based PET collection systems and driving education through public-private collaboration. Her presentation underscored a key takeaway: that systems-level change requires both infrastructure and behavior change. The company’s recycling infrastructure and public-private partnerships are contributing to a more sustainable value.

Polyethylene and polypropylene account for two-thirds of the world’s plastics. But the polymers’ popularity has an equally large downside. Because they have similar densities and physical properties, the polymers are difficult – and expensive – to separate when mechanically recycled together. What results is a weak, degraded material that really isn’t good for anything.

Now, Cornell researchers have developed an inexpensive and potentially scalable approach that uses a commercially available peroxide to bind the polymers together, thereby creating a more useful, high-quality plastic recycling additive.

The findings were published May 19 in the Journal of the American Chemical Society. The co-lead authors were postdoctoral researcher Moritz Kränzlein and doctoral student Shilin Cui. The project was led by Geoffrey Coates, the Tisch University Professor of Chemistry and Chemical Biology in the College of Arts and Sciences, the paper’s senior author.

In a way, the project is itself a recycled product. In 2017, Coates’ lab worked with collaborators from the University of Minnesota to create a multiblock polymer that could combine polyethylene and polypropylene mixtures. The new material was an important scientific achievement, according to Coates, but it proved difficult to scale up. It was also too expensive to be practical.

“We had to go back to the drawing board and think of the Venn diagram of what material would work and what synthetic methods would be affordable,” he said. “Why didn’t we just do that in 2017? Trust me, if it was easy, somebody else would have done this long ago.”

The key to developing their new polyolefin compatibilizer was to look for  existing polymers that, with the right processing, could do the job, rather than creating a new one from scratch. Kränzlein began by experimenting with the materials that were already in the lab, always with a few parameters in mind.

“Every second meeting, when I was giving Geoff an update, his first question was, ‘What’s the cost?’ There was always this line of price per pound that I shouldn’t cross,” Kränzlein said. “We tried to really keep that as a focus of this project. Instead of finding a very elegant or sophisticated solution, we tried to find a real-world solution that works.”

A year and a half – and more than 200 experiments – later, the researchers settled on an organic alkyl peroxide that, when heated, essentially plucks hydrogen molecules off high-density polyethylene (HDPE) and isotactic polypropylene (iPP) so they can be grafted together and form a copolymer material that can be added to a mechanical recycling process for HDPE and iPP mixtures, restoring their properties.

The copolymer can basically be thought of as “plastic soap,” Kränzlein said.

“When we have mixtures of commodity plastics like HDPE and iPP, those don’t mix very well, and those phases separate from each other, which makes the material properties of those mixtures pretty bad,” Kränzlein said. “This process adds in a third component that acts like a soap between those two phases, and that soap facilitates a better miscibility between the polymers, and that restores the physical properties of those mixtures, essentially.

“It took us a very, very long time playing around with all the different tuning points,” he said, “until we finally achieved something that that we were happy with.”

To better understand their compatibilizer’s properties and the grafting reaction, the researchers turned to Brett Fors, the Frank and Robert Laughlin Professor of Physical Chemistry (A&S), and doctoral student Jenny Hu, who conducted rheological characterization studies on it.

“So we’ve got the material,” Coates said. “The question is, now can you make larger amounts? We’re doing grams-at-a-time scale. Ultimately, you’d want to be doing dozens of kilograms. We’re confident it’ll scale, but there’s going to be a lot of work to get it there.”

Coates is hopeful that the compatibilizer could also lead to the creation of new polymer alloys that leverage the respective strengths of different waste plastics. There would be no need for giant million-dollar plants: Just take some preexisting polymers and add the compatibilizer.

“You could make a whole kind of pallet of alloys that might have better properties than either one of the pure polymers alone, just like stainless steel,” said Coates, who recently launched a startup that specializes in the compatibilizer technology through Cornell’s Praxis Center for Venture Development. “The dream is, if you can make a really rigid polymer that’s also really tough, then you can make packaging that uses less material, yet has the same sort of properties. That’s one of the other big applications for this technology.”

Co-authors include Fors, Hu and research associate Anne LaPointe.

The research was supported the Gerstner Family Foundation, with additional funding from the U.S. Department of Energy through Ames National Laboratory’s Institute for Cooperative Upcycling of Plastics, an Energy Frontier Research Center.