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Graphic Global Fashion Agenda
28.11.2024

Global Fashion Agenda: New Blueprint for Scaling Textile Recycling in Manufacturing Countries

Global Fashion Agenda (GFA), with support from Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) and the H&M Foundation, has launched the Upstream Circularity Playbook, now available in six languages. This comprehensive resource draws on extensive case studies across multiple countries to provide a globally accessible, step-by-step guide specifically tailored for garment manufacturing regions. Designed to help stakeholders scale circular business models by valorising post-industrial textile waste, the Playbook equips manufacturing hubs with tools needed to drive sustainable change.

Global Fashion Agenda (GFA), with support from Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) and the H&M Foundation, has launched the Upstream Circularity Playbook, now available in six languages. This comprehensive resource draws on extensive case studies across multiple countries to provide a globally accessible, step-by-step guide specifically tailored for garment manufacturing regions. Designed to help stakeholders scale circular business models by valorising post-industrial textile waste, the Playbook equips manufacturing hubs with tools needed to drive sustainable change.

With over 520 global regulations now encouraging circularity and regionalisation in sourcing and design, the Playbook serves as a critical tool for establishing and scaling upstream circular ecosystems. It equips manufacturers, brands, policymakers, and investors with actionable strategies to implement circular fashion solutions in core manufacturing regions. With significant volumes of post-industrial textile waste yet to be properly harnessed, its consistency and high quality present a pivotal opportunity for scaling textile-to-textile recycling technologies in manufacturing regions. This can pave the way for recycling of post-use textiles and clothing. In Bangladesh alone, embracing textile recycling could unlock USD 4 to 5 billion annually through the export of recycled products, however, limited recycling capacity underscores a critical gap in industrial waste management.

Empowering Circularity in Manufacturing Countries
The Upstream Circularity Playbook draws on over 20 case studies from diverse regions such as Bangladesh, Cambodia, Indonesia, and Vietnam, providing an international and regional perspective that fosters knowledge sharing across the fashion industry. The examples showcase successful collaborations between brands, manufacturers, recyclers, and textile waste collectors, offering a replicable model for scaling circular solutions in various global contexts. Collaboration across the entire value chain is critical for unlocking the full potential of circularity. The Upstream Circularity Playbook provides a roadmap for stakeholders to work together in building a just and scalable circular fashion system.

A Constructive Framework for Action
The Playbook offers a pragmatic, step-by-step framework for building the necessary infrastructure to scale circularity in garment manufacturing countries. It provides essential tools for:

  • Segregating textile waste at the factory level to prevent contamination and enhance recycling quality.
  • Leveraging digital traceability platforms to track waste flows and align with recycler requirements.
  • Collecting, aggregating, and sorting textile waste to ensure it is properly prepared and delivered to recyclers.
  • Matching textile waste to the best use case by selecting the most suitable recycling technologies to ensure high-quality material recovery.
  • Designing for circularity by incorporating recycled materials into new products, contributing to the creation of a closed-loop system.

Harnessing the Opportunity
This emphasis on upstream circularity presents an immediate opportunity to valorise post-industrial waste, laying the groundwork for scaling textile-to-textile recycling and ultimately reducing dependency on virgin resources as they are gradually replaced by recycled materials. GFA previously noted in the Scaling Circularity Report that existing recycling technologies have the potential to drive up to 80% circularity in the fashion industry if fully scaled. Additionally, the Pre-Feasibility Report highlights that, in the case of Bangladesh, recycling textile waste could reduce cotton imports by 20%, saving nearly $750 million USD annually.  The Upstream Circularity Playbook therefore builds on this research by providing an actionable framework for the industry to harness such opportunities.

With contributions from over 20 experts and organisations, the Playbook is designed to spur action on a global scale. It provides a blueprint for fostering economic, environmental, and social benefits in garment manufacturing regions and emphasises the need for collaboration across the value chain to achieve a scalable solution for textile-to-textile recycling.

The Upstream Circularity Playbook is openly accessible and available in six languages, inviting stakeholders worldwide to provide feedback and join the conversation.

Source:

Global Fashion Agenda

LIFE ANHIDRA project Photo: (c) Pizarro
LIFE ANHIDRA project
28.11.2024

Revolutionizing sustainable water management in the textile industry

The European LIFE ANHIDRA project marks a milestone in sustainability with the unveiling of its innovative closed-loop system for treating and reusing textile wastewater. During the event held at the Pizarro facility in Guimarães (Portugal), ANHIDRA was introduced as a revolutionary solution transforming water management in the textile industry. The event brought together the project’s key partners: Jeanologia, the Spanish company responsible for designing and building ANHIDRA and a global leader in sustainable technologies for the textile sector; AITEX, the Textile Industry Research Association; and Portuguese textile company Pizarro, accompanied by representatives from the European Commission.

The European LIFE ANHIDRA project marks a milestone in sustainability with the unveiling of its innovative closed-loop system for treating and reusing textile wastewater. During the event held at the Pizarro facility in Guimarães (Portugal), ANHIDRA was introduced as a revolutionary solution transforming water management in the textile industry. The event brought together the project’s key partners: Jeanologia, the Spanish company responsible for designing and building ANHIDRA and a global leader in sustainable technologies for the textile sector; AITEX, the Textile Industry Research Association; and Portuguese textile company Pizarro, accompanied by representatives from the European Commission.

A solution to reduce the textile industry’s water footprint
The textile industry consumes an estimated 93 billion m³ of water annually, accounting for 4% of global water use. ANHIDRA addresses this critical challenge by regenerating up to 95% of the water used in textile washing and finishing processes, returning it in optimal conditions for reuse.
With zero discharges, zero contamination, and no complex treatments, ANHIDRA stands out with exceptional results:

  • 92% reduction in water consumption
  • 98% reduction in wastewater generation
  • Up to 15% reduction in energy consumption

ANHIDRA not only minimizes environmental impact but also reduces the operational costs associated with traditional water management, making it a competitive and eco-friendly solution.

Innovation and circular economy
Beyond water regeneration, ANHIDRA focuses on reusing textile waste. In collaboration with AITEX, the project is exploring how to transform fibrous fragments collected during water treatment into new textile products, reinforcing the project’s commitment to the circular economy.

"ANHIDRA not only transforms water management in the textile industry but also proves that sustainability and competitiveness can go hand in hand. This system sets a new global benchmark," said Vicent Albert, Jeanologia’s Product and Technology Director.

During the event, attendees observed the various stages of the system in action at the Pizarro pilot plant. The project plans to implement ANHIDRA in at least 36 industrial facilities over the next three years, aiming to expand to 100 systems internationally within five years. This is expected to save up to 12.34 million m³ of water annually.

Funded by the European Union's LIFE program, LIFE ANHIDRA demonstrates how business cooperation and technological innovation can provide effective solutions to major environmental challenges. "Our goal is to make this technology accessible to the entire textile industry, contributing to a more sustainable future for fashion and the planet," concluded Vicent Albert, project coordinator.

________________________________________

This project has received funding from the European Union's LIFE program (grant agreement no. 101074372). The content of this document is the sole responsibility of the authors and does not necessarily reflect the position of the European Union, CINEA, or the corresponding funding program.

 

Source:

ANHIDRA project

Adient Front Seat Cushion prototype Credits: Adient
Adient Front Seat Cushion prototype
27.11.2024

Adient, Jaguar Land Rover and Dow develop closed-loop PU foam seats

Adient, Jaguar Land Rover, and Dow have worked together to produce seat foam for the luxury car manufacturer’s vehicles using closed-loop recycled components. This represents an industry-first in the automotive sector, heading towards a circular economy and a lower CO2 footprint for cars as the end product.

In order to address the environmental impact of polyurethane (PU) foams used in car seats, the industry partners decided to team up. This means so-called ‘post-consumer’ PU molded foams have previously been collected from end-of-life vehicles, sorted, and shredded. On this basis, Dow produces a new, circular polyol, which is subsequently processed and integrated into Adient’s seating formulas. As a result, the Adient Front Seat Cushion prototypes are currently composed of 20% re-polyol from PU end-of-life vehicles.

Adient, Jaguar Land Rover, and Dow have worked together to produce seat foam for the luxury car manufacturer’s vehicles using closed-loop recycled components. This represents an industry-first in the automotive sector, heading towards a circular economy and a lower CO2 footprint for cars as the end product.

In order to address the environmental impact of polyurethane (PU) foams used in car seats, the industry partners decided to team up. This means so-called ‘post-consumer’ PU molded foams have previously been collected from end-of-life vehicles, sorted, and shredded. On this basis, Dow produces a new, circular polyol, which is subsequently processed and integrated into Adient’s seating formulas. As a result, the Adient Front Seat Cushion prototypes are currently composed of 20% re-polyol from PU end-of-life vehicles.

This is the first time, to the awareness of all parties involved, that a PU molded foam for seating applications has been produced under these conditions. This milestone represents a significant leap forward for the automotive industry, positioning PU at the heart of a circular economy system. By integrating recycled components into luxury vehicle seat foams, the partners are not only reducing the environmental impact but also paving the way for a more sustainable future in automotive manufacturing.

“Developing components with closed-loop recycled foams represents a major milestone for the team and simultaneously spurs us on to continuously increase the proportion of recycled materials in our seating systems in the future,” said Frank Toenniges, Director Sustainable Product Design & Business Process Improvements at Adient. “Additionally, it positions the actors along the value chain favorably to comply with the proposed European End-of-Life Directive.”

Andrea Debbane, Chief Sustainability Officer at JLR stated: “This breakthrough is a great example of how the automotive value chain can work as a collective to demonstrate that full circularity is feasible and unlock meaningful change at scale. This way of working holds significant potential for increasing sustainability and is critical to JLR's transition to more circular vehicles.”

As a next step, further research will be conducted to increase the percentage of re-polyol content. At the same time, the closed-loop seat foam will be tested with JLR on a production scale from early 2025.

26.11.2024

Cellulose Fibres Conference 2025: Preliminary Program released

The upcoming conference on 12-13 March 2025 in Cologne, Germany, will pave pathways to a sustainable textile industry.

Over the past few weeks, the Conference Advisory Board, and the experts from the nova-Institute, have thoroughly reviewed and evaluated over 40 submitted abstracts. The selected external experts bring new insights and perspectives from the pulp, fibre and further developing industries, promising to spark and deepen discussions at the event. Their expertise across the entire fibre value chain will enrich the topics covered and ensure a dynamic and insightful exchange of ideas. The presentations will provide a platform for the discussion at the conference after each session, and the Advisory Board members will foster a lively debate to drive innovation industry-wide.

The upcoming conference on 12-13 March 2025 in Cologne, Germany, will pave pathways to a sustainable textile industry.

Over the past few weeks, the Conference Advisory Board, and the experts from the nova-Institute, have thoroughly reviewed and evaluated over 40 submitted abstracts. The selected external experts bring new insights and perspectives from the pulp, fibre and further developing industries, promising to spark and deepen discussions at the event. Their expertise across the entire fibre value chain will enrich the topics covered and ensure a dynamic and insightful exchange of ideas. The presentations will provide a platform for the discussion at the conference after each session, and the Advisory Board members will foster a lively debate to drive innovation industry-wide.

Biosynthetics on the rise
Besides cellulose fibres, bio-based polymer fibres ("biosynthetics") are an excellent option to reduce fossil fibres in textiles. Biosynthetics offer a powerful alternative to traditional synthetic fibres, bringing both performance and technical properties that make them drop-in replacements. Derived wholly or partially from natural, renewable sources like lactic acids, sugar beet, sugarcane or wood, biosynthetics represent a bio-based option compared to fossil-based counterparts. In a special session “Biosynthetics - Replacing Traditional Synthetic Fibres”, experts will explore the latest advances, challenges and opportunities in the field. Discussing innovative approaches like biosynthetics is essential to drive sustainable transformation within the fashion and textile industries.

Fibre-to-Fibre Recycling: A Path to a Sustainable Textile Industry
The textile industry is at a crucial crossroad. The need for sustainable solutions to meet the EU's ambitious climate change targets is becoming increasingly urgent. Fibre-to-fibre recycling, which transforms discarded textiles into new, virgin fibres, holds great promise for reducing waste and resource consumption and helps to close the loop in textile production. While Europe has made progress in this area, challenges remain – in particular the management of mixed fibre textiles and the scaling up of recycling technologies. As new approaches are needed to tackle climate change, one session of the conference will focus on fibre-to-fibre recycling from textiles, exploring the latest innovations and technological advances, as well as the opportunities and barriers that need to be addressed to move the industry towards a circular, sustainable future.

Fibre Microplastic Formation versus Marine Biodegradability
The environmental impact of textiles extends far beyond landfill, with microplastics from synthetic fibres becoming a growing concern in marine ecosystems. A session at the conference will focus on the complex relationship between microplastic formation and marine biodegradability. While synthetic fibres shed microplastics during washing, these tiny particles, known as microfibres accumulate in the oceans and pose a serious threat to marine life. This session will explore the factors that influence fibre degradation in the marine environment and examine the potential of biodegradable fibres to reduce long-term pollution. Leading research institutes will discuss the challenges of balancing the prevention of microplastics with the development of fibres that can degrade naturally in marine ecosystems, and provide insights into innovative solutions that could help mitigate this pressing environmental issue.

Innovation Award “Cellulose Fibre Innovation of the Year 2025”
The nova-Institute, together with GIG Karasek, is looking for the best fibre innovations of the year. Applicants from the area of cellulose fibres as well as biosynthetics are welcome to submit their innovations. Technologie providers, research institutes or producers can apply until 30 November 2024. The innovation award “Cellulose Fibre Innovation of the Year 2025” is sponsored by GIG Karasek.

Apply for the “Cellulose Fibre Innovation of the Year 2025” award: cellulose-fibres.eu/award-application

Call for Posters
The poster exhibition is a highly anticipated scientific event at the conference, especially for early career scientists. Poster submission is open until 31 January 2025.

More information:
Cellulose Fibres Conference
Source:

nova-Institut für politische und ökologische Innovation GmbH

26.11.2024

Cellulose Fibres Conference 2025: Preliminary Program released

The upcoming conference on 12-13 March 2025 in Cologne, Germany, will pave pathways to a sustainable textile industry.

Over the past few weeks, the Conference Advisory Board, and the experts from the nova-Institute, have thoroughly reviewed and evaluated over 40 submitted abstracts. The selected external experts bring new insights and perspectives from the pulp, fibre and further developing industries, promising to spark and deepen discussions at the event. Their expertise across the entire fibre value chain will enrich the topics covered and ensure a dynamic and insightful exchange of ideas. The presentations will provide a platform for the discussion at the conference after each session, and the Advisory Board members will foster a lively debate to drive innovation industry-wide.

The upcoming conference on 12-13 March 2025 in Cologne, Germany, will pave pathways to a sustainable textile industry.

Over the past few weeks, the Conference Advisory Board, and the experts from the nova-Institute, have thoroughly reviewed and evaluated over 40 submitted abstracts. The selected external experts bring new insights and perspectives from the pulp, fibre and further developing industries, promising to spark and deepen discussions at the event. Their expertise across the entire fibre value chain will enrich the topics covered and ensure a dynamic and insightful exchange of ideas. The presentations will provide a platform for the discussion at the conference after each session, and the Advisory Board members will foster a lively debate to drive innovation industry-wide.

Biosynthetics on the rise
Besides cellulose fibres, bio-based polymer fibres ("biosynthetics") are an excellent option to reduce fossil fibres in textiles. Biosynthetics offer a powerful alternative to traditional synthetic fibres, bringing both performance and technical properties that make them drop-in replacements. Derived wholly or partially from natural, renewable sources like lactic acids, sugar beet, sugarcane or wood, biosynthetics represent a bio-based option compared to fossil-based counterparts. In a special session “Biosynthetics - Replacing Traditional Synthetic Fibres”, experts will explore the latest advances, challenges and opportunities in the field. Discussing innovative approaches like biosynthetics is essential to drive sustainable transformation within the fashion and textile industries.

Fibre-to-Fibre Recycling: A Path to a Sustainable Textile Industry
The textile industry is at a crucial crossroad. The need for sustainable solutions to meet the EU's ambitious climate change targets is becoming increasingly urgent. Fibre-to-fibre recycling, which transforms discarded textiles into new, virgin fibres, holds great promise for reducing waste and resource consumption and helps to close the loop in textile production. While Europe has made progress in this area, challenges remain – in particular the management of mixed fibre textiles and the scaling up of recycling technologies. As new approaches are needed to tackle climate change, one session of the conference will focus on fibre-to-fibre recycling from textiles, exploring the latest innovations and technological advances, as well as the opportunities and barriers that need to be addressed to move the industry towards a circular, sustainable future.

Fibre Microplastic Formation versus Marine Biodegradability
The environmental impact of textiles extends far beyond landfill, with microplastics from synthetic fibres becoming a growing concern in marine ecosystems. A session at the conference will focus on the complex relationship between microplastic formation and marine biodegradability. While synthetic fibres shed microplastics during washing, these tiny particles, known as microfibres accumulate in the oceans and pose a serious threat to marine life. This session will explore the factors that influence fibre degradation in the marine environment and examine the potential of biodegradable fibres to reduce long-term pollution. Leading research institutes will discuss the challenges of balancing the prevention of microplastics with the development of fibres that can degrade naturally in marine ecosystems, and provide insights into innovative solutions that could help mitigate this pressing environmental issue.

Innovation Award “Cellulose Fibre Innovation of the Year 2025”
The nova-Institute, together with GIG Karasek, is looking for the best fibre innovations of the year. Applicants from the area of cellulose fibres as well as biosynthetics are welcome to submit their innovations. Technologie providers, research institutes or producers can apply until 30 November 2024. The innovation award “Cellulose Fibre Innovation of the Year 2025” is sponsored by GIG Karasek.

Apply for the “Cellulose Fibre Innovation of the Year 2025” award: cellulose-fibres.eu/award-application

Call for Posters
The poster exhibition is a highly anticipated scientific event at the conference, especially for early career scientists. Poster submission is open until 31 January 2025.

More information:
Cellulose Fibres Conference
Source:

nova-Institut für politische und ökologische Innovation GmbH

conference on flame retardancy for composites Photo AVK Industrievereinigung Verstärkte Kunststoffe e. V.
26.11.2024

Successful conference on flame retardancy for composites in Berlin

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).

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.

Source:

AVK  Industrievereinigung Verstärkte Kunststoffe e. V.

26.11.2024

Autoneum expands its presence in the Asian growth markets

In line with the new Level Up corporate strategy, which focuses on innovation and a future-fit product portfolio among other things, Autoneum has further expanded its research and development activities in 2024 with a particular focus on New Mobility. In addition to establishing a specialized team to accelerate the development and market readiness of novel products and technologies for electric vehicles, the Company has complemented its global innovation network with a new Research & Technology (R&T) Center in Shanghai, China.

Innovation is and always has been an integral part of Autoneum’s corporate strategy and thus a key factor for business success. The Company’s innovation activities are also an important aspect of its vision: to be the global leader for innovative and sustainable solutions bringing comfort to every vehicle. Against the backdrop of the rapidly advancing electrification of mobility and Autoneum’s strategic focus on further expanding its presence in the Asian growth markets, the expansion activities of the company-wide innovation network this year concentrated on two key areas in particular: New Mobility and presence in China.

In line with the new Level Up corporate strategy, which focuses on innovation and a future-fit product portfolio among other things, Autoneum has further expanded its research and development activities in 2024 with a particular focus on New Mobility. In addition to establishing a specialized team to accelerate the development and market readiness of novel products and technologies for electric vehicles, the Company has complemented its global innovation network with a new Research & Technology (R&T) Center in Shanghai, China.

Innovation is and always has been an integral part of Autoneum’s corporate strategy and thus a key factor for business success. The Company’s innovation activities are also an important aspect of its vision: to be the global leader for innovative and sustainable solutions bringing comfort to every vehicle. Against the backdrop of the rapidly advancing electrification of mobility and Autoneum’s strategic focus on further expanding its presence in the Asian growth markets, the expansion activities of the company-wide innovation network this year concentrated on two key areas in particular: New Mobility and presence in China.

Responding to the increasing demand for new components for electric vehicles, Autoneum has formed a specialized team dedicated exclusively to New Mobility to further strengthen its position in this growing market segment. The New Mobility team was established in fall 2023 and has been completed over the past twelve months with members from different departments. It unites a broad set of skills from various fields of expertise such as product innovation, product development and industrialization, sales and business development. The team places a particular focus on accelerating the development and time to market of new products and technologies specifically for the fast-evolving battery systems and architectures of electric vehicles. It also acts as a catalyst for innovation pro-jects and strategic partnerships. The New Mobility experts work in close collaboration with the various departments across the organization and are based at Autoneum’s Swiss headquarters in Win-terthur, at the German locations in Gundernhausen and Munich and in Shanghai, China.

Shanghai is also the location of Autoneum’s third R&T Center worldwide, which was opened in China this summer to enhance the Company’s competitiveness in Asia and cater to the development and innovation needs in this key strategic market. The new center aims to intensify and accelerate the development and production of innovative components and materials, especially regarding e-mobility. The establishment of an R&T team in China allows Autoneum to develop products in a timely manner to respond to the dynamic market conditions and the rapidly evolving requirements of Chinese vehicle manufactures. In terms of material development, the center will support the wider organization in the further development of sustainable materials, especially polyester. In addition, it will promote the introduction of Autoneum’s environmentally friendly products such as the Company’s monomaterial carpet systems featuring Autoneum’s innovative and latex-free alternative backcoating (ABC) process to the Chinese market. Moreover, the R&T Center in Shanghai will also serve as a valuable point of contact with the 14 production facilities of the Jiangsu Huanyu Group, whose acquisition of a majority stake of 70 percent by Autoneum was recently announced and is expected to be closed in March 2025 (see media release of November 19, 2024). While the plants in China will benefit from the local R&T team’s expertise in the company’s technologies, the existing broad customer base of Jiangsu Huanyu Group will support Autoneum in better understanding and serving the innovation needs of Chinese vehicle manufacturers.

The new R&T Center in Shanghai complements the primary R&T Center in Winterthur, Switzerland, which supports the global network with its expertise and a vast array of services in the areas of pre-development as well as acoustic and thermal benchmarking, simulation and testing, and the center in Bocholt, Germany. The latter was integrated into Autoneum’s innovation network following the acquisition of Borgers Automotive last year and has since established itself as the Company’s competence center for trunk and trim components. Including the new center in China, a total of approximately eighty R&T employees – including engineers, chemists, physicists and product designers – are continuously working on new ideas aimed at the next technological breakthrough in acoustic and thermal management and shielding technologies.

Source:

Autoneum Management AG

Piles of post-consumer textile waste sitting in warehouses. Photo Fashion for Good
Piles of post-consumer textile waste sitting in warehouses.
14.11.2024

Digital World of Waste: Fashion for Good maps global waste hotspots

The textile industry faces increased scrutiny on its substantial amounts of waste generated each year. This presents a challenge for the industry, but also a massive opportunity for circularity and transparency; with efforts underway to track, reduce, and utilise waste towards better end-of-life practices.

Waste reflects a burden on resources, inefficient processes, and unmanaged emissions, highlighting the need for action. Rising regulations are also inciting action from the industry, such as recyclers using textile waste as feedstock to displace virgin fibre production. However, information on textile waste is currently fragmented, with data scattered across a multitude of organisations and platforms. This lack of centralised knowledge and standardised data hampers the industry’s ability to address and capitalise on textile waste.

The textile industry faces increased scrutiny on its substantial amounts of waste generated each year. This presents a challenge for the industry, but also a massive opportunity for circularity and transparency; with efforts underway to track, reduce, and utilise waste towards better end-of-life practices.

Waste reflects a burden on resources, inefficient processes, and unmanaged emissions, highlighting the need for action. Rising regulations are also inciting action from the industry, such as recyclers using textile waste as feedstock to displace virgin fibre production. However, information on textile waste is currently fragmented, with data scattered across a multitude of organisations and platforms. This lack of centralised knowledge and standardised data hampers the industry’s ability to address and capitalise on textile waste.

To tackle this issue, Fashion for Good, with catalytic funding from Laudes Foundation and IDH, has partnered with Reverse Resources, Global Fashion Agenda, Circle Economy, and Accelerating Circularity – who actively address many facets of textile waste and leverage each other's diverse skill sets and wealth of information to create a tool consolidating the outcomes of individual research. This tool provides an overview of data points on waste quantities, types, compositions, and other insights, as well as links to the original studies. With information on waste attributes, data collection methodologies, organisations involved, and a lens on upcoming studies for a region, the tool empowers users of textile waste, as well as stakeholders looking to further the industry’s knowledge base.

With a lens on global hotspots of textile waste, as well as links to established resources for each region, strategies aimed at valorising waste become more attainable. For instance, recyclers can strategise their feedstock sourcing by gaining insights into waste streams and their specific characteristics. Governments can utilise this data to develop informed policies and regulations that encourage sustainable waste management practices. Fostering connections between stakeholders, both local and international, can help address operational challenges towards the advancement of circularity.

This initiative marks a significant step towards building a more transparent, collaborative, and circular fashion industry. By uniting key players from across the ecosystem, it is not only addressing the pressing issue of textile waste but also unlocking its potential as a resource. As the platform continues to grow, incorporating more data and insights from other organisations working on assessing waste in newer regions and different waste categories, the aim is to provide deeper clarity and drive meaningful change. Together, the way can be paved for a fashion industry that values sustainability, reduces waste, and contributes to a healthier planet for future generations.

Source:

Fashion for Good

13.11.2024

Dornbirn Global Fiber Congress 2025: Call for Papers

The Dornbirn GFC invites researchers, experts, manufacturers, and practitioners to submit papers for the 64th congress in September 2025, providing a platform for presenting innovations shaping the fiber and textile industries' future.

Submissions on the following topics are welcome:

Work- & Protective Wear & Defense

  • Smart textiles providing real-time data for first responders
    (e.g., firefighters, soldiers, police, industrial workers)
  • Flame-resistant fabrics for multi-risk environments, combining protection with flexibility and comfort
  • Sustainability in production, eco-friendly materials, and recycling innovations for workwear and protective apparel

Carbon Stewardship: Harnessing Biomass & Recycling & Capture for a Sustainable Future

  • Use of sustainable biomass in textile production
  • Innovations in post-consumer textile recycling and chemical recycling methods
  • Carbon capture technologies integrated across the value chain

Fiber Innovations: From Production to Application

The Dornbirn GFC invites researchers, experts, manufacturers, and practitioners to submit papers for the 64th congress in September 2025, providing a platform for presenting innovations shaping the fiber and textile industries' future.

Submissions on the following topics are welcome:

Work- & Protective Wear & Defense

  • Smart textiles providing real-time data for first responders
    (e.g., firefighters, soldiers, police, industrial workers)
  • Flame-resistant fabrics for multi-risk environments, combining protection with flexibility and comfort
  • Sustainability in production, eco-friendly materials, and recycling innovations for workwear and protective apparel

Carbon Stewardship: Harnessing Biomass & Recycling & Capture for a Sustainable Future

  • Use of sustainable biomass in textile production
  • Innovations in post-consumer textile recycling and chemical recycling methods
  • Carbon capture technologies integrated across the value chain

Fiber Innovations: From Production to Application

  • Biopolymer & Natural Fibers
  • Textile Processing & Application
  • Nonwoven Processing & Application

Cross-Industry Session

  • Energy Transition
  • Pulp & Paper & Packaging Innovation
More information:
Dornbirn GFC call for papers
Source:

AUSTRIAN FIBERS INSTITUTE

Photo NASA
05.11.2024

Fibre-reinforced materials for next-generation space missions

A new generation of space materials left Earth November. 5 as they head to the International Space Station (ISS) to undergo testing in the brutal conditions of low Earth orbit.

Developed at the University of Bristol, these high-performance materials could be used to build future space stations, spacecraft for interplanetary travel or a new ISS.

They will be placed on the Bartolomeo platform, located on the front of the ISS, where they will orbit Earth up to 9,000 times over the next 12 to 18 months at speeds of 17,000 mph.

The carbon fibre reinforced composites will need to survive temperatures between -150ºC and +120ºC, space debris travelling seven times faster than a bullet, severe electromagnetic radiation, high vacuum and atomic oxygen, which erodes even the toughest materials.

Prof Ian Hamerton, Professor of Polymers and Sustainable Composites in the University of Bristol’s world-leading Bristol Composites Institute, said:  

A new generation of space materials left Earth November. 5 as they head to the International Space Station (ISS) to undergo testing in the brutal conditions of low Earth orbit.

Developed at the University of Bristol, these high-performance materials could be used to build future space stations, spacecraft for interplanetary travel or a new ISS.

They will be placed on the Bartolomeo platform, located on the front of the ISS, where they will orbit Earth up to 9,000 times over the next 12 to 18 months at speeds of 17,000 mph.

The carbon fibre reinforced composites will need to survive temperatures between -150ºC and +120ºC, space debris travelling seven times faster than a bullet, severe electromagnetic radiation, high vacuum and atomic oxygen, which erodes even the toughest materials.

Prof Ian Hamerton, Professor of Polymers and Sustainable Composites in the University of Bristol’s world-leading Bristol Composites Institute, said:  

“Space is the most challenging environment for which to design new materials. You’re pitting your materials expertise, skills and ingenuity against extremes of temperature, mechanical stress, radiation, high speed impacts and more.

“Any one of those might be difficult, and, unfortunately, gaining access to repair them is not an easy option, so the materials we build must survive without maintenance.  

“The opportunity to test our materials in the proving ground of space is priceless and will help our University of Bristol scientists on the ground improve fibre-reinforced materials for next-generation space missions.”

There are four laboratory-made polymers heading to the ISS, each of which has been reinforced with carbon fibres and two contain nanoparticles. All four are the result of University of Bristol research and one is patented.

 If the materials cope in the harsh environment, they could be used to create longer-lasting space components, allowing spacecraft to travel further, and spend more time in space.

Future communities on new planets will need protection against galactic cosmic radiation. Dr Ali Kandemir, Senior Research Associate at the University of Bristol, is one of several Bristol researchers, supported by the UK Space Agency (UKSA), examining the effects of simulated galactic cosmic radiation on the materials, in a European Space Agency (ESA) project.

Dr Kandemir said: “We want materials that are resilient in the space environment and, importantly, materials that can shield humans from that radiation.

“We also want to make these materials sustainable, so that when they reach the end of their life they can be recycled and used again for the same purpose.”

The launch of the Space X Dragon CRS-2 spacecraft this morning is the culmination of five years of work for Prof Hamerton and his team.

It has included the efforts of early career researchers, postgraduates and several Aerospace Engineering undergraduates at the University of Bristol, whose final year research projects have been linked to the space materials project.

The practical support of the University of Bristol-hosted National Composites Centre (NCC) was crucial to the scale up of the composite materials.

Prof Kate Robson Brown, Vice-President for Research, Innovation and Impact at University College Dublin, and a collaborator on the project, said:

“After nearly five years of research to develop novel composite materials for space applications it is very exciting to see our experiment launch to the International Space Station.

“I am proud to be part of this mission, and to be working with the multidisciplinary and multisector research team to deliver integrated real world and digital testing for innovative materials which will help to drive growth in the new space economy.

“This mission also demonstrates how space research funding creates career changing opportunities for early career researchers and PhD students in a sector of huge value to both Ireland and the UK.”

Funding to support the project was supplied by the ESA, the UKSA, Oxford Space Systems and others.

 

Source:

University of Bristol

Photo: Archroma
14.10.2024

Archroma: Breakthrough in bio-based textile printing

Utilizing renewable materials* and formaldehyde-free chemistries, the industry-first Archroma NTR Printing System combines newly created pigment black and customized auxiliaries for enhanced sustainability, comfort and durability
 
Archroma, a company in specialty chemicals towards sustainable solutions, introduced the NTR Printing System to make bio-based pigment printing commercially possible for the first time. Based on renewable raw materials and designed for safer chemistry, it helps apparel and textile brands reduce their environmental footprint while producing brilliant black shades on garments that deliver both comfort and durability.

Bio-based pigment printing is an emerging technology that is attracting major interest from brands that want to use pigments derived from natural sources, such as plants, in the production of environmentally conscious textiles. Until now, however, bio-based pigments have not delivered color fastness that is comparable to synthetic pigments, and color quality and production performance have not been sufficient to support commercial-scale production.

Utilizing renewable materials* and formaldehyde-free chemistries, the industry-first Archroma NTR Printing System combines newly created pigment black and customized auxiliaries for enhanced sustainability, comfort and durability
 
Archroma, a company in specialty chemicals towards sustainable solutions, introduced the NTR Printing System to make bio-based pigment printing commercially possible for the first time. Based on renewable raw materials and designed for safer chemistry, it helps apparel and textile brands reduce their environmental footprint while producing brilliant black shades on garments that deliver both comfort and durability.

Bio-based pigment printing is an emerging technology that is attracting major interest from brands that want to use pigments derived from natural sources, such as plants, in the production of environmentally conscious textiles. Until now, however, bio-based pigments have not delivered color fastness that is comparable to synthetic pigments, and color quality and production performance have not been sufficient to support commercial-scale production.

Archroma’s NTR Printing System is the first to utilize renewable feedstock across pigment dispersion, binder and fixing agent. Crucially, it ensures good wet-rubbing and dry-rubbing fastness, with outstanding softness on all kinds of fabrics. Furthermore, it is suitable for most popular application technologies, including printing, coating and continuous pigment dyeing, with outstanding runnability for production efficiency.

“These properties make the new NTR Printing System ideal for the highly competitive denim market, where sustainability, comfort and durability are important; for knits, where very soft handfeel is essential; and on babywear, where both exceptional softness and safety are required,” Joaquin Femat, Market Segment Director for Printing, Archroma, said.

The result of more than two years of research and development, the innovative new NTR Printing System required Archroma to create customized binding and fixing agents to ensure fastness for the pigment black dispersion comparable to current petroleum-based printing systems. All three printing elements are partially based on renewable feedstock to reduce reliance on non-renewable petrochemicals. Archroma also developed the new system to avoid toxic input streams and impurities, including formaldehyde. Two successful bulk trials were conducted with Textprint S. A. and Jeanologia.

The NTR printing system comprises the following highly efficient and robust printing elements:

  • PRINTOFIX® BLACK NTR-TF: A non-gelling pigment black with 79% renewable carbon content*, designed for use in textile applications with no impact on fastness levels.
  • HELIZARIN® NTR-SS: A formaldehyde-free super-soft binder with 40% renewable carbon content, designed to ensure very good overall fastness levels.
  • LUPRINTOL® FIXING AGENT NTR-HF: A formaldehyde-free fixing agent with 40% renewable carbon content**, designed for high wet fastness in rubbing and laundry.

All three elements are currently being evaluated for compliance with globally accepted standards like bluesign®, the Global Organic Textile Standard (GOTS) and Zero Discharge of Hazardous Chemicals (ZDHC). The system also supports major industry restricted substances list (RSL) requirements.

 

Source:

Archroma

Graphic LM Wind Power
14.10.2024

Wind Turbine Blade Recycling: ZEBRA Project Demonstrates Closed-Loop System

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:

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.

Source:

LM Wind Power

Determination of the bacterial penetration with the ReBa2 test device Foto: DITF
Determination of the bacterial penetration with the ReBa2 test device
08.10.2024

Cleanzone Award 2024 for new testing method for cleanroom garments

The Cleanzone, the trade fair for cleanroom and purity technology, hygiene and contamination control, took place in Frankfurt am Main on September 25 and 26, 2024. The Cleanzone Award is presented at the trade fair to recognize groundbreaking advances in innovation, automation, sustainability and efficiency in the field of cleanroom technology. This year, the award went to the German Institutes of Textile and Fiber Research Denkendorf (DITF) and the Dastex Group GmbH for the development of a test method for cleanroom garments - the ReBa2.

The Cleanzone, the trade fair for cleanroom and purity technology, hygiene and contamination control, took place in Frankfurt am Main on September 25 and 26, 2024. The Cleanzone Award is presented at the trade fair to recognize groundbreaking advances in innovation, automation, sustainability and efficiency in the field of cleanroom technology. This year, the award went to the German Institutes of Textile and Fiber Research Denkendorf (DITF) and the Dastex Group GmbH for the development of a test method for cleanroom garments - the ReBa2.

With the Realistic Bacterial Barrier (ReBa2) test method, the DITF offer a new biological method for determining the bacterial penetration for cleanroom garment textiles. Particularly in the manufacturing of sterile pharmaceuticals, bacteria, skin flakes and fiber particles that can originate from persons and their clothing pose a risk to the products manufactured in the cleanroom. Special cleanroom garments have the task of minimizing this risk. To assess the barrier function, the “bacterial penetration” is determined, among other properties. This provides information on how many bacteria from the human skin flora pass through the cleanroom garments to the outside when worn.

The ReBa2 test method largely reproduces the situation when wearing cleanroom garments and thus enables a meaningful determination of the bacterial penetration. It is also possible to consider numerous test scenarios. In addition to the influence of intermediate garments worn under the cleanroom garments, the sweating process or the pre-wetting of the cleanroom garments by liquid splashes in the manufacturing process or by disinfectants can also be tested. The method was developed at the DITF in collaboration with the Dastex Group GmbH.

breathable waterproof solutions (c) eVent® Fabrics
02.10.2024

eVent Fabrics: New talents for global expansion

eVent®️ Fabrics, a global leader in waterproof and breathable laminates, announced the hiring of three key team members to assist with growing demand for the brand’s expanding line of performance laminates and recent expansion into the South Korean market. Founded in 1999, the company impressed the industry with the first air-permeable 100% waterproof membrane and continues to innovate with sustainable, high-performance textiles. eVent is globally recognized for its breathable waterproof solutions and commitment to reliable, high-performance laminates.

Recent hires include Bartosz Lassak to the US sales team and Xie Yi to engineer the next generation of eVent textiles. For the recent expansion into Korea, Terry Kim will assist as eVent’s Korean Market Consultant.

eVent®️ Fabrics, a global leader in waterproof and breathable laminates, announced the hiring of three key team members to assist with growing demand for the brand’s expanding line of performance laminates and recent expansion into the South Korean market. Founded in 1999, the company impressed the industry with the first air-permeable 100% waterproof membrane and continues to innovate with sustainable, high-performance textiles. eVent is globally recognized for its breathable waterproof solutions and commitment to reliable, high-performance laminates.

Recent hires include Bartosz Lassak to the US sales team and Xie Yi to engineer the next generation of eVent textiles. For the recent expansion into Korea, Terry Kim will assist as eVent’s Korean Market Consultant.

eVent’s recent expansion into the Korean market includes a new strategic partnership with GEO International Co., LTD, a leading Korean company in the textile industry. This collaboration will introduce eVent’s high-performance waterproof breathable laminate solutions for apparel, footwear, and accessories to the Korean market, catering to the increasing demand for premium outdoor and performance apparel.

eVent’s newest team members include:

Bartosz Lassak – Senior Sales Manager
Based in Washington D.C., Bartosz is a Senior Sales Manager for the Eastern U.S. region and will help expand eVent’s sales footprint as new customers are added to the eVent portfolio. Bartosz brings 20 years of global industry experience and has a deep knowledge of outerwear materials, end use applications, and component brand sales. Most recently, Bartosz was a Territory Sales and Marketing Manager for Primaloft, managing ingredient brand distribution in the UK, Germany, Eastern Europe, Russia, Turkey, and North America.
 
Xie Yi – Textile Engineer
Having recently graduated with a double Master’s Degree in Textile Materials and Product Design from the highly regarded Donghua University, Xie joins the eVent team full time as a Textile Engineer. Xie will be integral as eVent continues to enhance product strategy and new product introductions. Throughout her academic career, Xie worked as a Production Assistant for Oya Jacquard Belt limited and a Research and Development Assistant at Atelier LUMA.

Terry Kim – Senior Consultant in Korea
Terry will support the expansion of eVent’s global footprint into Korean markets and assist with marketing efforts in the Korean market as well. Terry has significant experience in the industry including 20 years working in roles such as Sales Director and New Business Development Director in his time at Gore-Tex. In his most recent role, Terry was the Managing Director of Fabric Division for Gore-Tex.

More information:
eVent® Fabrics Korea expansion
Source:

eVent® Fabrics

25.09.2024

New Salvation Army scheme works with flooring retailers and social housing providers

The Salvation Army Trading Company (SATCoL), the trading arm of The Salvation Army, has introduced a flooring reuse scheme to divert more items away from disposal and extend their useful life. The new service receives donations of excess, postproduction and end-of-season flooring from retailers in the UK, to be made available to those who need it most.
 
During these challenging times, the growing demand for support in the community is ever present. *Research shows 1.2 million people across the UK are living without flooring, 61 per cent of those are social housing tenants - Chartered Institute of Housing research 2023
 
SATCoL, have already partnered with a local authority to provide flooring for residents and are keen to work with more councils and housing associations with this innovative scheme. As the largest charity owned textiles collector in the UK, each year SATCoL diverts over 250 million items to good uses, including over 65,000 tonnes of textiles and carpet tiles from corporate properties, that would be destroyed if not repurposed.
 

The Salvation Army Trading Company (SATCoL), the trading arm of The Salvation Army, has introduced a flooring reuse scheme to divert more items away from disposal and extend their useful life. The new service receives donations of excess, postproduction and end-of-season flooring from retailers in the UK, to be made available to those who need it most.
 
During these challenging times, the growing demand for support in the community is ever present. *Research shows 1.2 million people across the UK are living without flooring, 61 per cent of those are social housing tenants - Chartered Institute of Housing research 2023
 
SATCoL, have already partnered with a local authority to provide flooring for residents and are keen to work with more councils and housing associations with this innovative scheme. As the largest charity owned textiles collector in the UK, each year SATCoL diverts over 250 million items to good uses, including over 65,000 tonnes of textiles and carpet tiles from corporate properties, that would be destroyed if not repurposed.
 
Schemes like this to help reduce waste and provide cost-effective flooring to the community. And what’s more, the profits raised from the resale of the generous donations SATCoL receives is given to The Salvation Army to continue to support the great work they do across the country.
 

Source:

Salvation Army Trading Company

“PLANET CONSCIOUS+”, a roadmap designed to support brands and mills to chart their sustainability journey. © 2024 Archroma
25.09.2024

Archroma: “PLANET CONSCIOUS+” vision for a more sustainable future

Archroma, a leader in specialty chemicals towards sustainable solutions, honed its vision of the future of the apparel and textile industry with the announcement of “PLANET CONSCIOUS+”, a roadmap designed to support brands and mills to chart their sustainability journey.

“Over the past decade, Archroma has been on a mission to lead the textile industry towards a more sustainable future. But the world’s challenges are escalating – from climate change to economic and geopolitical instability. We believe that the time is right for us to realign our vision to guide the next phase of our development. ‘PLANET CONSCIOUS+’ encapsulates both our responsibility and our potential as a company that touches and colors people’s lives every day, all around the world,” Mark Garrett, Group CEO, Archroma, said.

“PLANET CONSCIOUS+” has six dimensions, the first four of which have been rolled out over the past few months:

Archroma, a leader in specialty chemicals towards sustainable solutions, honed its vision of the future of the apparel and textile industry with the announcement of “PLANET CONSCIOUS+”, a roadmap designed to support brands and mills to chart their sustainability journey.

“Over the past decade, Archroma has been on a mission to lead the textile industry towards a more sustainable future. But the world’s challenges are escalating – from climate change to economic and geopolitical instability. We believe that the time is right for us to realign our vision to guide the next phase of our development. ‘PLANET CONSCIOUS+’ encapsulates both our responsibility and our potential as a company that touches and colors people’s lives every day, all around the world,” Mark Garrett, Group CEO, Archroma, said.

“PLANET CONSCIOUS+” has six dimensions, the first four of which have been rolled out over the past few months:

  • SUPER SYSTEMS+: Powerful end-to-end systems that combine processing solutions and intelligent effects, SUPER SYSTEMS+ deliver measurable environmental impact, more durable colors and effects, and cleaner chemistry as compared to the current market offering. This allows brands and mills to select the impact they want to achieve in line with their sustainability goals.
  • SAFE EDGE+: Groundbreaking initiative represents a major commitment to providing a roadmap for compliance and cleaner chemistries for use in the textile industry by combining The Safe Edge platform with Foundation+. Foundation+, Archroma’s beyond-compliance portfolio, is a curated selection of Archroma products that utilize innovative technologies to either design out hazardous or regulated substances or reduce them by more than 95% compared to the current industry standard limits.
  • ONE WAY+: Combining Archroma’s One Way Impact Calculator, a world-first online tool for sustainable value chain mapping, with its expert-led Sustainability Improvement Program (SIP), ONE WAY+ helps mills and brands overcome their specific challenges with products and tools that offers the highest operational excellence and productivity, achieves savings of resources such as water, energy, and creates differentiation with value-added end-products.
  • COLOR MANAGEMENT+: An advanced color design and development solution, COLOR MANAGEMENT+ helps mills and brands work together for improved sustainability. It incorporates the industry’s largest off-the-shelf color atlas selection alongside color standards created with Archroma’s SUPER SYSTEMS+ for reduced environmental impact and consistent and accurate color reproduction.

The remaining two pillars of “PLANET CONSCIOUS+” are being introduced today to underscore that innovation and transparency are the cornerstones of the Archroma way of working.

  • INNOVATION+: Archroma brings together science, our technological expertise and in-depth market, customer, and regulatory knowledge to create groundbreaking solutions that have a positive environmental impact. To accelerate the shift to a circular economy and help manufacturers use resources more efficiently, Archroma’s research and development teams across Americas, Asia and Europe focus on innovating for cleaner chemistry and durable effects.
  • COMMUNICATION+: By providing authentic, fact-based information to all stakeholders, Archroma helps improve transparency across the value chain. This enables mills and brands to communicate their sustainability goals and achievements with confidence and navigate issues like regulatory complexity and consumer skepticism.
Source:

Archroma

Photo: Heytex
24.09.2024

Core business of the Heytex Group sold to Freudenberg

Private equity investor Bencis Capital Partners is selling the core business of the Heytex Group with three production sites (two in Germany and one in China) and all central functions, including sales, research and development and administration, to Freudenberg Performance Materials (FPM). FPM is active in the market for coated technical textiles, as Heytex is, under the Mehler Texnologies brand. In 2023, the relevant part of the Heytex Group generated sales of around EUR 100 million with approximately 400 employees. The transaction is subject to the approval of the antitrust authorities.

“The Bramsche, Neugersdorf and Zhangjiagang sites will play a key role in the future direction due to their good investment status, as well as the new synergies and expanded resources,” says Hans-Dieter Kohake, CEO of the Heytex Group.

As part of its strategic orientation, Freudenberg is deliberately focusing on the two German and Chinese sites of the Heytex Group, which are ideally suited to the company's goals and focus. The sites will make a significant contribution to the further development and expansion of the new Group's market leadership.

Private equity investor Bencis Capital Partners is selling the core business of the Heytex Group with three production sites (two in Germany and one in China) and all central functions, including sales, research and development and administration, to Freudenberg Performance Materials (FPM). FPM is active in the market for coated technical textiles, as Heytex is, under the Mehler Texnologies brand. In 2023, the relevant part of the Heytex Group generated sales of around EUR 100 million with approximately 400 employees. The transaction is subject to the approval of the antitrust authorities.

“The Bramsche, Neugersdorf and Zhangjiagang sites will play a key role in the future direction due to their good investment status, as well as the new synergies and expanded resources,” says Hans-Dieter Kohake, CEO of the Heytex Group.

As part of its strategic orientation, Freudenberg is deliberately focusing on the two German and Chinese sites of the Heytex Group, which are ideally suited to the company's goals and focus. The sites will make a significant contribution to the further development and expansion of the new Group's market leadership.

The Pulaski (USA) and Nijverdal (Netherlands) sites of Heytex will remain with the current shareholder Bencis Capital Partners and will continue to operate independently.

Source:

Heytex Bramsche GmbH

True Joy Photo: AkzoNobel
True Joy
10.09.2024

Radiating Yellow: True Joy is AkzoNobel’s Color of the Year 2025

A sunny yellow shade on a mission to fill our homes with optimism, pride and a splash of vibrant color – that’s True Joy™, AkzoNobel’s Color of the Year for 2025.

A sunny yellow shade on a mission to fill our homes with optimism, pride and a splash of vibrant color – that’s True Joy™, AkzoNobel’s Color of the Year for 2025.

Supported by three complementary color palettes, True Joy is the result of extensive research into color, design, cultural, economic and social trends, which identified a desire to make a joyful leap into the unknown, celebrate craftsmanship and embrace who we are.  
 
“In this rapidly changing world, it’s easy to feel uncertain about our next steps,” explains Heleen van Gent, Creative Director of AkzoNobel’s Global Aesthetic Center. “But change creates an opportunity for imagination; a chance to create something even better. With our new Color of the Year and ColourFutures 2025 palettes, we want to inspire consumers to celebrate their roots and creativity and embrace the optimism of moving forward in their homes and spaces.”
 
AkzoNobel’s Global Aesthetic Center has been translating trends into desirable colors for homes for more than 30 years. Its annual ColourFutures trend forecast meeting brings together in-house experts, international architects, designers and journalists to share insights into how our reactions to the world around us impact our color choices. Junior designers and interns were also included for the first time this year, to ensure that consumers from the widest possible age range were represented in the influential Color of the Year decision-making process.
 
Their discussions led to three decorative paint color stories being designed around True Joy to help consumers find the right complementary colors to match their mood and design preferences. The Bold color story urges you to leave your comfort zone and inject adventure into your home with bright and uplifting colors, while the Human color story encourages you to bring creativity into your home by filling it with unique handmade pieces. The Proud color palette invites you to embrace your identity and have the confidence to create a home that’s just as unique as you are.
 
Apart from Deco brands, the on-trend colors, textures and special effects have been designed for other key markets and segments, including aerospace, automotive, consumer electronics, metal furniture, lighting, cabinetry, flooring, and building and architectural products.

Source:

AkzoNobel

DITF: 3D Printing Setting for Lignin-Coated Protective Gloves (c) DITF
06.09.2024

DITF: 3D Printing Setting for Lignin-Coated Protective Gloves

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.

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.

Source:

Deutsche Institute für Textil- und Faserforschung (DITF)

RISE® Innovation Award: Three Finalists (c) INDA
06.09.2024

RISE® Innovation Award: Three Finalists

INDA, the Association of the Nonwoven Fabrics Industry, has announced the finalists for the 2024 RISE® Innovation Award. On October 1-2, technology scouts, product developers, and business development professionals will gather at the James B. Hunt, Jr. Library, North Carolina State University, Raleigh, NC, to explore nonwoven research and advancements.

Finalists will present their innovations to RISE participants on Tuesday, October 1st. The Award winner will be revealed on Wednesday afternoon, October 2nd.

The 2024 Award Finalists:
Dual-Layer Filtration Media by Ahlstrom Italia S.p.A. – Ahlstrom’s new dual-layer filter media technology enhances engine air intake filtration performances, offering up to double the dust holding capacity and extending filter lifetime by over 50% compared to single-layer media. It also enables smaller, lighter filter designs, meeting current and future engine specifications, including fuel cells. Dual-layer filter media can be offered with flame-retardant functionality for various transportation and industrial applications, ensuring safety, improved performances and reduced environmental impact.

INDA, the Association of the Nonwoven Fabrics Industry, has announced the finalists for the 2024 RISE® Innovation Award. On October 1-2, technology scouts, product developers, and business development professionals will gather at the James B. Hunt, Jr. Library, North Carolina State University, Raleigh, NC, to explore nonwoven research and advancements.

Finalists will present their innovations to RISE participants on Tuesday, October 1st. The Award winner will be revealed on Wednesday afternoon, October 2nd.

The 2024 Award Finalists:
Dual-Layer Filtration Media by Ahlstrom Italia S.p.A. – Ahlstrom’s new dual-layer filter media technology enhances engine air intake filtration performances, offering up to double the dust holding capacity and extending filter lifetime by over 50% compared to single-layer media. It also enables smaller, lighter filter designs, meeting current and future engine specifications, including fuel cells. Dual-layer filter media can be offered with flame-retardant functionality for various transportation and industrial applications, ensuring safety, improved performances and reduced environmental impact.

ENDURA™ rPP Spunbond & SMS by Berry Global – A pre-consumer recycled Spunbond and SMS product, recognized by SCS Recycled Content Certification. With Spunbond products containing up to 90% recycled content and SMS products containing up to 40% recycled content, customers/consumers are provided a product with greenhouse gas emissions benefits, validated with life cycle assessment tools assumptions based on the actual production.  ENDURA Spunbond products have the opportunity to reduce CO2 emissions per kilogram of production by 70%, versus previous generation of product.

PlantPanel X by Hempitecture Inc. – PlantPanel X is a rigid continuous insulation material used in exterior above-ground applications. With an R Value of R3.25 per inch, PlantPanel adds to thermal and acoustic comfort and performance. Engineered with a density to resist compression and deflection, PlantPanel is used in split-insulation wall and roof assemblies with either a rain screen cladding or roofing material, depending on the application. With 100% biobased and recycled content, PlantPanel is a sustainable, low carbon continuous insulation solution that’s easy to install and safe to handle.

2023 RISE Innovation Award winner:
TiHive won the 2023 RISE Innovation Award for their SAPMonit technology. TiHive’s innovation, SAPMonit, inspects millions of diapers weekly. SAPMonit delivers lightning-speed inline inspection of superabsorbents’ weight and distribution, optimizes resources, detects flaws, and accelerates R&D.

Source:

INDA, the Association of the Nonwoven Fabrics Industry