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(c) nova Institut
21.01.2025

Six Innovations nominated for Cellulose Fibre Innovation of the Year 2025

It is getting exciting again in Cologne on 12 and 13 March for the cellulose fibres industry. Six new products have been nominated for the popular innovation award.

Every year, the conference organisator nova-Institute together with award sponsor GIG Karasek honours companies that impress with their creativity, technological progress and ecological impact. The aim of the award is not only to recognise the winners’ innovative products, but also to set an example for the courage to innovate.

The nominees’ presentations, the voting and the winner ceremony will take place on 12 March at the Cellulose Fibres Conference 2025. Participants of the conference can vote live for the three winners. More than 220 people are expected to attend.

The Nominees

It is getting exciting again in Cologne on 12 and 13 March for the cellulose fibres industry. Six new products have been nominated for the popular innovation award.

Every year, the conference organisator nova-Institute together with award sponsor GIG Karasek honours companies that impress with their creativity, technological progress and ecological impact. The aim of the award is not only to recognise the winners’ innovative products, but also to set an example for the courage to innovate.

The nominees’ presentations, the voting and the winner ceremony will take place on 12 March at the Cellulose Fibres Conference 2025. Participants of the conference can vote live for the three winners. More than 220 people are expected to attend.

The Nominees

Fibers365 (DE): Hemp365 – Agricultural Decorative and Carrier Material
The solution “hemp365” is characterised by the development of a cost-effective, plant-based decorative and carrier material through the chemical-free processing of a regional agricultural fibre and the use of resulting short fibres in a wet-laid process, allowing for a massive reduction in the amount of fossil based binders required for strength and functionality. The non fibre content is less than 7 % and is also made from biogenic and biodegradable material. Hemp365 is 100% natural and vegan. It has been designed for consumer (fashion) and industrial applications in cooperation with an automotive OEM.

Releaf Paper France (FR): Releaf Fiber – Eco-Friendly Paper from Urban Fallen Leaves
Releaf Paper France transforms urban fallen leaves into sustainable cellulose fibres, offering an eco-friendly alternative to traditional hardwood pulp. Using proprietary low-temperature extraction, high-quality fibres with excellent paper-forming properties are isolated. With a cellulose content of 32-48 % and properties similar to hardwood, RELEAF fibres are ideal for packaging materials like corrugated paper, boxes, and bags. This innovative process, which requires minimal water and non-aggressive solvents, aligns with circular economy principles, repurposing millions of tons of urban leaf waste annually and supporting global brands in achieving sustainable packaging solutions.

SA-Dynamics (DE): Cellulose Aerogel Textiles – Next-Generation Insulation Materials
Cellulose Aerogel Textiles are revolutionary insulation materials made from 100 % biodegradable cellulose aerogel fibres. These combine the flexibility and ease of processing of traditional fabrics with the superior thermal insulation properties of aerogels by utilising a novel aerogel fibre process. Lightweight, highly efficient, and compatible with conventional textile machinery, they provide a sustainable alternative to fossil-based and animal-derived insulation materials. Fully recyclable and free from microplastic emissions, Cellulose Aerogel Textiles set a new benchmark for circular economy solutions in the textile and construction industries. Initial functional demonstrators were developed through two projects, funded by Biotexfuture and RWTH Innovation, respectively.

Sci-Lume Labs (US): Bylon® – Renewable Circular Fibres from Agricultural Waste
Sci-Lume Labs makes Bylon®, a scalable, circular, biosynthetic fibre. Using highly efficient chemistries to valorise agricultural waste, Bylon® seamlessly integrates into every step of the global value chain – from raw material production through textile manufacturing. Bylon® is distinct from incumbent and next-gen materials because it is simultaneously bio-based; waste-derived; degradable; recyclable; downstream-compatible; and melt-spinnable. Bylon® also offers a unique performance profile by combining the mechanical properties and tunability of traditional synthetics with the moisture properties and circularity of natural fibres. By not requiring changes to the supply chain, Bylon® empowers the industry to reduce its environmental impact – without compromising on quality, performance, or cost.

TMG Automotive (PT): REFIBER – Sustainable Automotive Surface Material
Textile-based composite solutions are a growing trend in the automotive sector, especially for decorative and functional interior applications. Innovative plant-based leather demonstrates this trend, combining sustainability with advanced performance. Developed from a biopolymer matrix combined with cellulose waste, this material transforms waste into a premium, eco-friendly solution. Its textile backing and non-woven laminate backing are also made entirely from cellulose fibres, creating a fully integrated bio-based composite. Designed for car interiors and more, this lightweight, durable and aesthetically versatile material sets a new standard for sustainable design, while satisfying the industry’s growing demand for circular and renewable alternatives.

Uluu (AU): Replacing plastic in textiles with natural, seaweed-derived materials
Uluu is an Australian start-up set to replace plastics with natural polymers called PHAs. Uluu materials are made from a regenerative feedstock: farmed seaweed, thus ending reliance on fossil fuels and land crops. Uluu, in partnership with Deakin University, is developing textiles that perform like synthetic polyester but are truly biodegradable and biocompatible, thus eliminating persistent microplastic pollution in fashion. Importantly, Uluu materials are reusable, recyclable, and most importantly, compostable. They are naturally produced through a unique fermentation process that uses seaweed, saltwater microbes and seawater. Uluu pellets can be directly substituted for plastic (e.g., polyester, nylon) in existing melt spinning equipment, creating yarns that can be knitted or woven into textiles. In addition to fibre-grade pellets, Uluu is also producing other grades of pellets to replace plastics used in e.g., buttons, sunglasses, hair clips and packaging.

(c) Messe Düsseldorf / ctillmann
09.01.2025

FET ends 2024 with COMPAMED success.

Fibre Extrusion Technology Ltd (FET) of Leeds, UK enjoyed a highly successful exhibition at COMPAMED 2024 in Düsseldorf. This was the first time that FET had exhibited at this leading international trade fair for the medical technology supplier sector, a reflection of the company’s growing role in the global medical sector. In 2023-24, over 60% of FET’s turnover was derived from the medical market.

“It is never certain whether a new exhibition will prove to be a successful venture until it is tested in practice” commented FET’s Managing Director Richard Slack, “but we are delighted to report that COMPAMED 2024 exceeded all expectations. In fact, we have already booked a stand for next year’s exhibition in November, albeit in a slightly different location”.

Fibre Extrusion Technology Ltd (FET) of Leeds, UK enjoyed a highly successful exhibition at COMPAMED 2024 in Düsseldorf. This was the first time that FET had exhibited at this leading international trade fair for the medical technology supplier sector, a reflection of the company’s growing role in the global medical sector. In 2023-24, over 60% of FET’s turnover was derived from the medical market.

“It is never certain whether a new exhibition will prove to be a successful venture until it is tested in practice” commented FET’s Managing Director Richard Slack, “but we are delighted to report that COMPAMED 2024 exceeded all expectations. In fact, we have already booked a stand for next year’s exhibition in November, albeit in a slightly different location”.

COMPAMED 2024 attracts suppliers of a comprehensive range of high-quality medical technology components, services and production equipment for the medical industry. FET’s expertise in this sector therefore proved to be a perfect fit. With almost 40 serious customer leads taken at the show from both existing and previously unidentified clients, the initial outlook is for a very successful exhibition which will be followed up by future participation at this annual event.

FET’s established expertise lies in laboratory and pilot melt spinning equipment for a vast range of applications, especially precursor materials used in high value medical devices and specialised novel fibres from exotic and difficult to process polymers. In cases where melt spinning solutions are not suitable, FET provides a viable alternative with pilot and small scale production wet spinning systems.

Central to FET’s success has always been its ability to provide customers with advanced testing facilities and equipment at its Fibre Development Centre in Leeds, complemented by unrivalled knowledge and expertise in research and production techniques.

FET has successfully processed over 100 different polymer types and its systems can melt spin resorbable polymers in multifilament, monofilament and nonwoven formats, collaborating with specialist companies worldwide to promote greater sustainability through innovative manufacturing processes.

Spring 2025 collections of Citizens of Humanity and AGOLDE with Pili biobased indigo Photo (c) Citizens of Humanity Group
Spring 2025 collections of Citizens of Humanity and AGOLDE with Pili biobased indigo
06.01.2025

Pili partners with Citizens of Humanity and Orta

Pili, a French pioneer in biobased dyes and pigments, partners with Orta, the Turkish denim mill and Citizens of Humanity, a California-based high-end denim brand known for its commitment to quality and sustainability.

They are beginning a transformative shift in the denim industry with the commercial launch of the first products dyed with Pili’s biobased indigo. The first products will debut in January in the Spring 2025 collections of Citizens of Humanity and AGOLDE.

A New Ecological Standard for the Denim Industry
In 2024, Pili achieved a major milestone by producing its first tons of biobased indigo, enabling the creation of sustainable denim articles, a turning point in the company's efforts to decarbonize the textile industry especially denim.

Pili, a French pioneer in biobased dyes and pigments, partners with Orta, the Turkish denim mill and Citizens of Humanity, a California-based high-end denim brand known for its commitment to quality and sustainability.

They are beginning a transformative shift in the denim industry with the commercial launch of the first products dyed with Pili’s biobased indigo. The first products will debut in January in the Spring 2025 collections of Citizens of Humanity and AGOLDE.

A New Ecological Standard for the Denim Industry
In 2024, Pili achieved a major milestone by producing its first tons of biobased indigo, enabling the creation of sustainable denim articles, a turning point in the company's efforts to decarbonize the textile industry especially denim.

Pili has developed unique processes combining fermentation and organic chemistry to offer a high-performance, eco-friendly alternative to petrochemical dyes. Their ecological alternative significantly reduces the use of toxic chemicals and fossil resources, while aiming to cut CO2 emissions up to 50%. It meets the same performance as petrochemical indigo while seamlessly integrating into existing dyeing processes without requiring additional investment in commercial dyeing equipment.

Pili’s colors development is based on standardized Life Cycle Assessments (LCAs), ensuring a rigorous process to measure and minimize their environmental impact.

A Partnership Driving Sustainable Transformation in the Industry
Fiber and dye are the two main components of denim products and also the ones with the greatest impact on their production. The partnership between Citizens of Humanity, Pili, and Orta establishes one of the highest ecological standards in the market with the use of regenerative cotton and biobased indigo.

Pili biobased indigo will make its debut in Citizens of Humanity and AGOLDE’s Spring 2025 collections. This long-term partnership between Citizens of Humanity, Orta, and Pili will continue to expand in future collections. The launch will be exclusive on NET-A-PORTER on January 6, 2025, before being extended to agolde.com, citizensofhumanity.com, and other global retailers.

A Key Step Towards the Decarbonization of the Color Industry
Building on this first success, Pili is accelerating the development of coloring solutions for various industrial applications, particularly in the inks, paints, and polymers sectors. The aim is to decarbonize everyday products using high-performance biobased pigments, with the first applicative tests set to begin this year. Pili continues its mission to decarbonize the color industry, paving the way for a sustainable revolution.

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

12.09.2024

INDA Showcases Sustainability Advancements in Nonwovens and Manufacturing

INDA, the Association of the Nonwoven Fabrics Industry, announces the release of the International Fiber Journal’s (IFJ) special sustainability issue dedicated to nonwovens. This special edition, which was sponsored by INDA, is a key piece of the association’s 2024 strategic sustainability initiative, launched at the beginning of 2024 in response to feedback that sustainability remains one of the nonwovens industry’s highest priorities.

The IFJ special issue features exclusive content from industry leaders, including Kimberly-Clark Corporation, Glatfelter, Lenzing Fibers, NatureWorks LLC, Hollingsworth & Vose, MANN+HUMMEL, Nexus Circular, Henkel Corporation, and INDA. This edition explores key sustainability topics, structured around three core pillars vital to the industry’s future: Responsible Sourcing, Innovations in Sustainability, and End-of-Life Solutions. Featured topics include:

INDA, the Association of the Nonwoven Fabrics Industry, announces the release of the International Fiber Journal’s (IFJ) special sustainability issue dedicated to nonwovens. This special edition, which was sponsored by INDA, is a key piece of the association’s 2024 strategic sustainability initiative, launched at the beginning of 2024 in response to feedback that sustainability remains one of the nonwovens industry’s highest priorities.

The IFJ special issue features exclusive content from industry leaders, including Kimberly-Clark Corporation, Glatfelter, Lenzing Fibers, NatureWorks LLC, Hollingsworth & Vose, MANN+HUMMEL, Nexus Circular, Henkel Corporation, and INDA. This edition explores key sustainability topics, structured around three core pillars vital to the industry’s future: Responsible Sourcing, Innovations in Sustainability, and End-of-Life Solutions. Featured topics include:

  • Environmentally sustainable nonwoven materials
  • Circularity in single-use plastics
  • Potential of post-consumer recycled (PCR) materials in nonwovens
  • Navigating regulatory challenges
  • Advances in bio-based nonwovens
  • The role of plastics and polymers in sustainability

“This special issue of the International Fiber Journal is a vital part of our multi-faceted sustainability initiative aimed at providing new and enhanced offerings to INDA members and the nonwovens industry. We are excited to see the industry come together to share insights on the sustainability challenges we face,” said Tony Fragnito, President of INDA.

Source:

INDA, the Association of the Nonwoven Fabrics Industry

FET at COMPAMED 2024 (c) FET
FET extrusion system
06.09.2024

FET at COMPAMED 2024

Fibre Extrusion Technology Ltd (FET) of Leeds, UK will be exhibiting for the first time at COMPAMED 2024 in Düsseldorf, taking place between between 11 – 14 November 2024, to reflect the company’s increasing profile in the medical sector. COMPAMED is a international trade fair for the medical technology supplier sector, showcasing a range of high-quality medical technology components, services and production equipment for the medical industry.

FET are experts in medical fibre technology and innovations, designing and delivering high performance equipment for a range of precursor medical products. This includes turnkey solutions for nonwoven medical devices, wound care and dressings and synthetic absorbable sutures.

Fibre Extrusion Technology Ltd (FET) of Leeds, UK will be exhibiting for the first time at COMPAMED 2024 in Düsseldorf, taking place between between 11 – 14 November 2024, to reflect the company’s increasing profile in the medical sector. COMPAMED is a international trade fair for the medical technology supplier sector, showcasing a range of high-quality medical technology components, services and production equipment for the medical industry.

FET are experts in medical fibre technology and innovations, designing and delivering high performance equipment for a range of precursor medical products. This includes turnkey solutions for nonwoven medical devices, wound care and dressings and synthetic absorbable sutures.

FET’s expertise lies in laboratory and pilot melt spinning equipment for a vast range of applications, especially precursor materials used in high value medical devices and specialised novel fibres from exotic and difficult to process polymers. FET has processed over 100 different polymer types and its systems can melt spin resorbable polymers in multifilament, monofilament and nonwoven formats, collaborating with specialist companies worldwide to promote greater sustainability through innovative manufacturing processes. Where melt spinning solutions are not suitable, FET provides an alternative with pilot and small scale production wet and gel spinning systems.

Source:

Fibre Extrusion Technology Ltd (FET)

Graphic by TBI
14.08.2024

Controlled biodegradation of PLA by incorporation of an optimized enzyme

The Toulouse Biotechnology Institute (TBI), a joint INSA Toulouse/ INRAE/ CNRS research unit, and Carbios, a French green chemistry company pioneering the world of bioplasturgy, presented a study entitled ”An engineered enzyme embedded into PLA to make self-biodegradable plastic”. This study reinforces Carbios and TBI's pioneering work in the field of enzymatic degradation of plastics.

The work describes the engineering strategies deployed to ensure the development of an enzyme capable of biologically depolymerizing polylactic acid (PLA)-based plastic materials over a wide temperature and pH range, reflecting the natural variations found in the life cycle of domestic compost.

The Toulouse Biotechnology Institute (TBI), a joint INSA Toulouse/ INRAE/ CNRS research unit, and Carbios, a French green chemistry company pioneering the world of bioplasturgy, presented a study entitled ”An engineered enzyme embedded into PLA to make self-biodegradable plastic”. This study reinforces Carbios and TBI's pioneering work in the field of enzymatic degradation of plastics.

The work describes the engineering strategies deployed to ensure the development of an enzyme capable of biologically depolymerizing polylactic acid (PLA)-based plastic materials over a wide temperature and pH range, reflecting the natural variations found in the life cycle of domestic compost.

It also describes the methodologies and challenges involved in obtaining homogeneous incorporation of the enzyme into PLA films at high temperatures (170°C), while retaining sufficient activity to enable the plastic produced to degrade completely and rapidly under domestic and industrial composting conditions, as well as in anaerobic digestion (methanization). It highlights the optimization process used to obtain an enzyme capable of withstanding the 170°C required to melt it into PLA by extrusion. The new enzymatic material is shown to disintegrate and biodegrade at a much faster rate than the 26 weeks required for certification for use in home composting, and also to help produce more biomethane, another source of waste recovery. It is also stated that the enzymatic material remains intact during long-term storage, and that its degradation will only be activated when transferred to composting or methanization conditions, thus guaranteeing its compatibility with PLA-based commercial applications such as flexible packaging or short-life items like food containers.

This work was mainly carried out within the INSA/Carbios PoPlaB (Polymers, Plastics and Biotechnology) cooperative laboratory at TBI and was supported by a grant for scientific research (THANAPLAST project, OSEO ISI contract number I 1206040W).

 

More information:
PLA enzymatic
Source:

Toulouse Biotechnology Institute (TBI)

Charlotte Witts Photo FET
Charlotte Witts
12.07.2024

New R&D appointment for FET wet spinning team

Fibre Extrusion Technology Ltd (FET) of Leeds, UK has continued the ongoing process of strengthening its Research & Development team. The latest addition is Charlotte Witts, who is currently studying for a degree in Chemistry at Nottingham University and will work at FET for a 12-month period. She will continue her studies in chemistry as distant learning modules whilst also working at FET. FET designs, develops and manufactures extrusion equipment for a wide range of high value textile material applications worldwide.

“I’m really excited to be joining the team at FET and getting stuck in to the role. Sustainability is a big passion of mine, so I’m looking forward to learning how FET develops new technologies that support the textile industry in this endeavour. I hope that my previous studies within this area will help to foster new ideas.”

Fibre Extrusion Technology Ltd (FET) of Leeds, UK has continued the ongoing process of strengthening its Research & Development team. The latest addition is Charlotte Witts, who is currently studying for a degree in Chemistry at Nottingham University and will work at FET for a 12-month period. She will continue her studies in chemistry as distant learning modules whilst also working at FET. FET designs, develops and manufactures extrusion equipment for a wide range of high value textile material applications worldwide.

“I’m really excited to be joining the team at FET and getting stuck in to the role. Sustainability is a big passion of mine, so I’m looking forward to learning how FET develops new technologies that support the textile industry in this endeavour. I hope that my previous studies within this area will help to foster new ideas.”

Furthermore, FET has a development policy of bringing young people into the industry and has invested heavily in recent years to this end, helping to address the skills gap in the UK textile industry. The company’s R&D department comprises ten scientists and engineers who work closely with customers on process development and new product trials.

Charlotte Witts will be focusing on the wet spinning process which is fortuitous as FET has just finished commissioning their own in-house low viscosity wet spinning system. Over the coming year she will focus on spinning a number of bio-sourced polymers (e.g. alginate, chitosan, gelatin, recombinant proteins). These materials require a strong scientific understanding of the underlying chemistry to successfully produce a high-quality yarn. Furthermore, FET regularly gets customer requests to conduct trial work on these materials to de-risk the equipment purchase process.

Source:

Fibre Extrusion Technology Limited

BioTurf Bild TFI - Institut für Bodensysteme an der RWTH Aachen e.V.
BioTurf
01.07.2024

Aachen researchers develop sustainable artificial turf

The current European Football Championships 2024 in Germany will be played on natural turf, which is very costly to maintain, does not tolerate high frequency of use and has a limited service life of only 6 months in some cases. Artificial turf is easier to maintain and correspondingly popular. In Germany, there are estimated to be more than 5,000 artificial turf pitches and as many as 25,500 across the EU. The drawback: the enormous annual emission of microplastics in the form of infill material, the high CO2 impact and the not environmentally friendly disposal. Researchers in Aachen presented a sustainable alternative: BioTurf is a new artificial turf system made from bio-based polymers that no longer requires polymer infill material!

The current European Football Championships 2024 in Germany will be played on natural turf, which is very costly to maintain, does not tolerate high frequency of use and has a limited service life of only 6 months in some cases. Artificial turf is easier to maintain and correspondingly popular. In Germany, there are estimated to be more than 5,000 artificial turf pitches and as many as 25,500 across the EU. The drawback: the enormous annual emission of microplastics in the form of infill material, the high CO2 impact and the not environmentally friendly disposal. Researchers in Aachen presented a sustainable alternative: BioTurf is a new artificial turf system made from bio-based polymers that no longer requires polymer infill material!

"Every year, around 500 kilograms of plastic granules are produced per artificial turf pitch, which have to be refilled as infill. This also corresponds to the amount that potentially enters the environment as microplastics per sports pitch," explains Dr Claudia Post from TFI. With an estimated 25,000 artificial turf pitches in the EU, artificial turf in Europe alone produces 12,750 tonnes of microplastics that end up in the environment every year! The TFI - Institut für Bodensysteme an der RWTH Aachen e.V., Institute for Research, Testing and Certification in Europe for Indoor Building Products, has developed the innovative artificial turf system together with the ITA (Institute for Textile Technology at RWTH Aachen University) and in collaboration with the company Morton Extrusionstechnik (MET), a specialist in artificial turf fibres.

"New artificial turf pitches will be phased out by 2031 at the latest due to the ban on plastic granules. Even now, artificial turf pitches with infill material are no longer being subsidised," says Dr Claudia Post. For grassroots sports, clubs, cities and local authorities, converting their existing artificial turf pitches will be a mammoth task in the coming years, as artificial turf pitches have to be replaced every 10-15 years. With BioTurf, an environmentally friendly alternative is now available! The surface can be played on like any other, whether running, passing or kicking. Short, heavily crimped blades support longer blades and this simple approach increases playing comfort. BioTurf fulfils all quality requirements and standards for the highest footballing demands.

"BioTurf is an innovative, holistic solution," emphasises Dirk Hanuschik from TFI. "We use rapeseed oil and agricultural waste that does not compete with food production. BioTurf is also almost completely recyclable".
This is in stark contrast to conventional artificial turf, which can currently only be thermally utilised, i.e. burned to generate heat.

As BioTurf does not require the traditional latex process at all, the energy-intensive drying process can be dispensed with, which has a positive effect on the price. Latex is also difficult to recycle. In contrast, BioTurf uses the new thermobonding technology. Here, the thermoplastic pile yarns are thermally fused to the backing. Further development steps still need to be taken in the endeavour to develop a 100% mono-material artificial turf, as a few percent polypropylene still needs to be processed in the backing in addition to the polyethylene fibre material in order to protect it during thermobonding. However, this does not hinder its recyclability.

Source:

TFI - Institut für Bodensysteme an der RWTH Aachen e.V.

13.03.2024

IDEA®25: Call for abstracts

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

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

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

A few examples of topics for consideration are:

RESPONSIBLE SOURCING

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

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

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

A few examples of topics for consideration are:

RESPONSIBLE SOURCING

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

INNOVATIONS IN SUSTAINABILITY

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

END-OF-LIFE SOLUTIONS

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

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

Source:

INDA - Association of the Nonwoven Fabrics Industry

DITF: Modernized spinning plant for sustainable and functional fibres Photo: DITF
Bi-component BCF spinning plant from Oerlikon Neumag
06.03.2024

DITF: Modernized spinning plant for sustainable and functional fibres

The German Institutes of Textile and Fiber Research Denkendorf (DITF) have modernized and expanded their melt spinning pilot plant with support from the State of Baden-Württemberg. The new facility enables research into new spinning processes, fiber functionalization and sustainable fibers made from biodegradable and bio-based polymers.

In the field of melt spinning, the DITF are working on several pioneering research areas, for example the development of various fibers for medical implants or fibers made from polylactide, a sustainable bio-based polyester. Other focal points include the development of flame-retardant polyamides and their processing into fibers for carpet and automotive applications as well as the development of carbon fibers from melt-spun precursors. The development of a bio-based alternative to petroleum-based polyethylene terephthalate (PET) fibers into polyethylene furanoate (PEF) fibers is also new. Bicomponent spinning technology, in which the fibers can be produced from two different components, plays a particularly important role, too.

The German Institutes of Textile and Fiber Research Denkendorf (DITF) have modernized and expanded their melt spinning pilot plant with support from the State of Baden-Württemberg. The new facility enables research into new spinning processes, fiber functionalization and sustainable fibers made from biodegradable and bio-based polymers.

In the field of melt spinning, the DITF are working on several pioneering research areas, for example the development of various fibers for medical implants or fibers made from polylactide, a sustainable bio-based polyester. Other focal points include the development of flame-retardant polyamides and their processing into fibers for carpet and automotive applications as well as the development of carbon fibers from melt-spun precursors. The development of a bio-based alternative to petroleum-based polyethylene terephthalate (PET) fibers into polyethylene furanoate (PEF) fibers is also new. Bicomponent spinning technology, in which the fibers can be produced from two different components, plays a particularly important role, too.

Since polyamide (PA) and many other polymers were developed more than 85 years ago, various melt-spun fibers have revolutionized the textile world. In the field of technical textiles, they can have on a variety of functions: depending on their exact composition, they can for example be electrically conductive or luminescent. They can also show antimicrobial properties and be flame-retardant. They are suitable for lightweight construction, for medical applications or for insulating buildings.

In order to protect the environment and resources, the use of bio-based fibers will be increased in the future with a special focus on easy-to-recycle fibers. To this end, the DITF are conducting research into sustainable polyamides, polyesters and polyolefins as well as many other polymers. Many 'classic', that is, petroleum-based polymers cannot or only insufficiently be broken down into their components or recycled directly after use. An important goal of new research work is therefore to further establish systematic recycling methods to produce fibers of the highest possible quality.

For these forward-looking tasks, a bicomponent spinning plant from Oerlikon Neumag was set up and commissioned on an industrial scale at the DITF in January. The BCF process (bulk continuous filaments) allows special bundling, bulking and processing of the (multifilament) fibers. This process enables the large-scale synthesis of carpet yarns as well as staple fiber production, a unique feature in a public research institute. The system is supplemented by a so-called spinline rheometer. This allows a range of measurement-specific chemical and physical data to be recorded online and inline, which will contribute to a better understanding of fiber formation. In addition, a new compounder will be used for the development of functionalized polymers and for the energy-saving thermomechanical recycling of textile waste.

DITF: Biopolymers from bacteria protect technical textiles Photo: DITF
Charging a doctor blade with molten PHA using a hot-melt gun
23.02.2024

DITF: Biopolymers from bacteria protect technical textiles

Textiles for technical applications often derive their special function via the application of coatings. This way, textiles become, for example wind and water proof or more resistant to abrasion. Usually, petroleum-based substances such as polyacrylates or polyurethanes are used. However, these consume exhaustible resources and the materials can end up in the environment if handled improperly. Therefore, the German Institutes of Textile and Fiber Research Denkendorf (DITF) are researching materials from renewable sources that are recyclable and do not pollute the environment after use. Polymers that can be produced from bacteria are here of particular interest.

Textiles for technical applications often derive their special function via the application of coatings. This way, textiles become, for example wind and water proof or more resistant to abrasion. Usually, petroleum-based substances such as polyacrylates or polyurethanes are used. However, these consume exhaustible resources and the materials can end up in the environment if handled improperly. Therefore, the German Institutes of Textile and Fiber Research Denkendorf (DITF) are researching materials from renewable sources that are recyclable and do not pollute the environment after use. Polymers that can be produced from bacteria are here of particular interest.

These biopolymers have the advantage that they can be produced in anything from small laboratory reactors to large production plants. The most promising biopolymers include polysaccharides, polyamides from amino acids and polyesters such as polylactic acid or polyhydroxyalkanoates (PHAs), all of which are derived from renewable raw materials. PHAs is an umbrella term for a group of biotechnologically produced polyesters. The main difference between these polyesters is the number of carbon atoms in the repeat unit. To date, they have mainly been investigated for medical applications. As PHAs products are increasingly available on the market, coatings made from PHAs may also be increasingly used in technical applications in the future.

The bacteria from which the PHAs are obtained grow with the help of carbohydrates, fats and an increased CO2 concentration and light with suitable wavelength.

The properties of PHA can be adapted by varying the structure of the repeat unit. This makes polyhydroxyalkanoates a particularly interesting class of compounds for technical textile coatings, which has hardly been investigated to date. Due to their water-repellent properties, which stem from their molecular structure, and their stable structure, polyhydroxyalkanoates have great potential for the production of water-repellent, mechanically resilient textiles, such as those in demand in the automotive sector and for outdoor clothing.

The DITF have already carried out successful research work in this area. Coatings on cotton yarns and fabrics made of cotton, polyamide and polyester showed smooth and quite good adhesion. The PHA types for the coating were both procured on the open market and produced by the research partner Fraunhofer IGB. It was shown that the molten polymer can be applied to cotton yarns by extrusion through a coating nozzle. The molten polymer was successfully coated onto fabric using a doctor blade. The length of the molecular side chain of the PHA plays an important role in the properties of the coated textile. Although PHAs with medium-length side chains are better suited to achieving low stiffness and a good textile handle, their wash resistance is low. PHAs with short side chains are suitable for achieving high wash and abrasion resistance, but the textile handle is somewhat stiffer.

The team is currently investigating how the properties of PHAs can be changed in order to achieve the desired resistance and textile properties in equal measure. There are also plans to formulate aqueous formulations for yarn and textile finishing. This will allow much thinner coatings to be applied to textiles than is possible with molten PHAs.

Other DITF research teams are investigating whether PHAs are also suitable for the production of fibers and nonwovens.

Source:

Deutsche Institute für Textil- und Faserforschung (DITF)

Celanese and Under Armour introduce elastane alternative (c) Celanese Corporation
24.01.2024

Celanese and Under Armour introduce elastane alternative

Celanese Corporation, a specialty materials and chemical company, and Under Armour, Inc., a company in athletic apparel and footwear, have collaborated to develop a new fiber for performance stretch fabrics called NEOLAST™. The innovative material will offer the apparel industry a high-performing alternative to elastane – an elastic fiber that gives apparel stretch, commonly called spandex. This new alternative could unlock the potential for end users to recycle performance stretch fabrics, a legacy aspect that has yet to be solved in the pursuit of circular manufacturing with respect to stretch fabrics.

NEOLAST™ fibers feature the powerful stretch, durability, comfort, and improved wicking expected from elite performance fabrics yet are also designed to begin addressing sustainability challenges associated with elastane, including recyclability. The fibers are produced using a proprietary solvent-free melt-extrusion process, eliminating potentially hazardous chemicals typically used to create stretch fabrics made with elastane.

Celanese Corporation, a specialty materials and chemical company, and Under Armour, Inc., a company in athletic apparel and footwear, have collaborated to develop a new fiber for performance stretch fabrics called NEOLAST™. The innovative material will offer the apparel industry a high-performing alternative to elastane – an elastic fiber that gives apparel stretch, commonly called spandex. This new alternative could unlock the potential for end users to recycle performance stretch fabrics, a legacy aspect that has yet to be solved in the pursuit of circular manufacturing with respect to stretch fabrics.

NEOLAST™ fibers feature the powerful stretch, durability, comfort, and improved wicking expected from elite performance fabrics yet are also designed to begin addressing sustainability challenges associated with elastane, including recyclability. The fibers are produced using a proprietary solvent-free melt-extrusion process, eliminating potentially hazardous chemicals typically used to create stretch fabrics made with elastane.

NEOLAST™ fibers will be produced using recyclable elastoester polymers. As end users transition to a more circular economy, Celanese and Under Armour are exploring the potential of the fibers to improve the compatibility of stretch fabrics with future recycling systems and infrastructure.

In addition to the sustainability benefits, the new NEOLAST™ fibers deliver increased production precision, allowing spinners to dial power-stretch levels up or down and engineer fibers to meet a broader array of fabric specifications.

Source:

Celanese Corporation

RadiciGroup: Biofeel Eleven Photo RadiciGroup
RadiciGroup: Biofeel Eleven
28.11.2023

ISPO Textrends award to Biofeel Eleven

RadiciGroup's 100% natural nylon awarded in the Fibers and Insulation category: Biofeel eleven, the 100% nylon yarn from natural sources launched a few months ago by RadiciGroup, won the ISPO Textrends award for the Fall/Winter 2025/26 collections. The award - curated by a jury of experts - rewards innovative trends in the textile and apparel sectors and is part of the ISPO fair in Munich dedicated in particular to the fabrics and sportswear sector - scheduled from 28 to 30 November 2023.

After its market launch last March, Biofeel Eleven is already in the "Top Ten" of new products in the yarn sector thanks to its technical and environmental performance. This special yarn of natural origin comes from a small inedible bean grown in India in semi-arid soils that are not competitive with food production. These beans yield a special oil ideal for obtaining biopolymers that are then into yarn at RadiciGroup in Italy.

RadiciGroup's 100% natural nylon awarded in the Fibers and Insulation category: Biofeel eleven, the 100% nylon yarn from natural sources launched a few months ago by RadiciGroup, won the ISPO Textrends award for the Fall/Winter 2025/26 collections. The award - curated by a jury of experts - rewards innovative trends in the textile and apparel sectors and is part of the ISPO fair in Munich dedicated in particular to the fabrics and sportswear sector - scheduled from 28 to 30 November 2023.

After its market launch last March, Biofeel Eleven is already in the "Top Ten" of new products in the yarn sector thanks to its technical and environmental performance. This special yarn of natural origin comes from a small inedible bean grown in India in semi-arid soils that are not competitive with food production. These beans yield a special oil ideal for obtaining biopolymers that are then into yarn at RadiciGroup in Italy.

The yarn has special characteristics, such as low water absorption, increased lightness and improved strength properties. This means being able to produce fabrics that are both durable and comfortable to the touch and skin, fundamental requirements also in sportswear.

More information:
ISPO Textrends Award RadiciGroup
Source:

RadiciGroup

22.09.2023

INDA Partners & Waterloo Filtration Institute: Partnering for the FiltXPO™ 2023 Technical Program

INDA, the Association of the Nonwoven Fabrics Industry, is partnering with the Waterloo Filtration Institute to deliver the FiltXPO™ technical program on October 10-11, 2023 in Chicago, Illinois. The Waterloo Filtration Institute was instrumental in recommending program topics and world-class presenters.

Engineers, scientists, and industry professionals will gain the latest insights into the filtration and separation topics affecting the industry today and into the future. The program features presentations include: filter media technologies, advancements and opportunities in filtration machinery and equipment, innovations in clean air for homes and urban areas, standards and testing, industry trends and new developments, and filtration challenges and opportunities.

The keynote for this year’s event is “IAQ Is the New Black” presented by Suzanne Shelton, President & CEO, Shelton Group. Shelton will share the latest data around consumer views on health, safety, people, and the planet. Participants will gain an understanding of the filtration opportunities and the challenges manufacturers face in communicating the value of their products.

INDA, the Association of the Nonwoven Fabrics Industry, is partnering with the Waterloo Filtration Institute to deliver the FiltXPO™ technical program on October 10-11, 2023 in Chicago, Illinois. The Waterloo Filtration Institute was instrumental in recommending program topics and world-class presenters.

Engineers, scientists, and industry professionals will gain the latest insights into the filtration and separation topics affecting the industry today and into the future. The program features presentations include: filter media technologies, advancements and opportunities in filtration machinery and equipment, innovations in clean air for homes and urban areas, standards and testing, industry trends and new developments, and filtration challenges and opportunities.

The keynote for this year’s event is “IAQ Is the New Black” presented by Suzanne Shelton, President & CEO, Shelton Group. Shelton will share the latest data around consumer views on health, safety, people, and the planet. Participants will gain an understanding of the filtration opportunities and the challenges manufacturers face in communicating the value of their products.

A preview of the subject matter experts includes:

  • AAF Flanders – “Air Filter Standards Activity and What It Means for Innovation”
  • Ahlstrom – “Expanding Wetlaid Filtration Media Performance Through Innovation”
  • Air Techniques International – “Application of Automated Filter Tester in Quality Control Testing: Importance of Consistent Aerosol Particle Size Distribution”
  • American Truetzschler, Inc. – “How Really Good Filter Media Is Made”
  • CEREX Advanced Fabrics – “The Antimicrobial Nylon Advantage”
  • Elsner Engineering Works, Inc. – “When Does Automation Make Sense”
  • Hollingsworth & Vose – “Accelerating Membrane Adoption with ROI”
  • INDA – “Beyond Porter’s Five Forces – When Regulation Reshapes Markets”
  • MANN+HUMMEL GmbH – “Filtration for Cleaner Urban Mobility – Introducing Horizon Europe Innovation Action Aersolfd”
  • NatureWorks – “Optimizing Biopolymers to Improve Filter Performance – A Spectrum of Approaches and Opportunities”
  • Palas GmbH – “Influence of Temperature and Humidity to Filter Efficiency and Dust Holding Capacity”
  • Ptak Consulting – “Residential Filtration – Performance Against Infectious Aerosols”
  • The University of Georgia – “Recent Advances in Melt Blown Nonwovens and Filter Media Research”

New this year to FiltXPO are Lightning Talks. Lightning Talks are an opportunity to connect with new trends, products, innovations, and ideas with speakers rotating every eight minutes. Presenting companies include Ahlstrom, Elsner Engineering Works, Inc., Gottlieb Binder GmbH, TSI, and the Waterloo Filtration Institute.

The FiltXPO exhibition takes place October 10-12 and will run concurrently with the technical program.

More information:
INDA Filtxpo Conference
Source:

INDA, the Association of the Nonwoven Fabrics Industry

Association of the Nonwoven Fabrics Industry INDA
22.08.2023

INDA Announces Conference Program for Hygienix™ 2023

INDA, the Association of the Nonwoven Fabrics Industry, announced the conference program for Hygienix™ 2023, November 13-16 to be held at The Roosevelt New Orleans Hotel, New Orleans, LA.

The program details can be found on the Hygienix website.

The keynote speaker is Courtney Scharf, Chief Client Officer, Trend Hunter. Trend Hunter leverages big data, human researchers, and AI to identify consumer insights, and deep dive opportunities for the world’s most innovative companies, such as Unilever, Colgate-Palmolive, Georgia-Pacific, Kroger, Johnson & Johnson, Reckitt Benckiser, Samsung, and Bacardi. Trend Hunter utilizes Artificial Intelligence and research to identify and curate top insights and trends to advise brands and businesses in their pursuit of innovation.

The Hygienix program will feature thought leaders in consumer-centric innovations, the circular economy, raw material advancements in sustainability, opportunities for advanced recycling in absorbent hygiene, optimizing the packaging footprint, new approaches for odor control, and market trends and drivers.

Experts presenting at Hygienix include:

INDA, the Association of the Nonwoven Fabrics Industry, announced the conference program for Hygienix™ 2023, November 13-16 to be held at The Roosevelt New Orleans Hotel, New Orleans, LA.

The program details can be found on the Hygienix website.

The keynote speaker is Courtney Scharf, Chief Client Officer, Trend Hunter. Trend Hunter leverages big data, human researchers, and AI to identify consumer insights, and deep dive opportunities for the world’s most innovative companies, such as Unilever, Colgate-Palmolive, Georgia-Pacific, Kroger, Johnson & Johnson, Reckitt Benckiser, Samsung, and Bacardi. Trend Hunter utilizes Artificial Intelligence and research to identify and curate top insights and trends to advise brands and businesses in their pursuit of innovation.

The Hygienix program will feature thought leaders in consumer-centric innovations, the circular economy, raw material advancements in sustainability, opportunities for advanced recycling in absorbent hygiene, optimizing the packaging footprint, new approaches for odor control, and market trends and drivers.

Experts presenting at Hygienix include:

  • Aquapak Polymers Ltd. – “Creating Sustainable Nonwovens for Hygiene Applications with Thermally Processable Polyvinyl Alcohol; A Water Soluble, Environmentally Friendly and High-Performance Polymer”
  • Asahi Kasei Advance Corporation – “Continuous-Filament Cellulose Nonwovens”
  • Confitex Technology – “Reusables Production: It’s Not All Green”
  • Egal Pads, Inc. – “Closing the Circularity Gap One Used Pad at a Time”
  • Essity – “Diaper Collection & Recycling in Australia”
  • ExxonMobil Chemical Company – “Innovate New Levels of Strong Comfort with Hygiene Solutions”
  • Henkel Corporation – “Reducing the Packaging Waste from Personal Hygiene Products”
  • INNOVATEGRN – “Accelerating Innovation / Embracing a Consumer-Centric Approach”
  • Kuraray Europe GmbH – “Safe and Eco-friendly Elastics for Absorbent Hygiene Products”
  • Nexus Circular – “Increasing Plastics Circularity for the Hygiene Segment Through Advanced Recycling”
  • W. Pelz GmbH –“Disposable Pads Meet Reusable Underwear”
  • Price Hanna Consultants – “Squaring the Circle: Why Demonstration Projects = Good Sustainability Strategy” and “Wellness and Natural Materials”
  • Rem Brands, Inc. – “Effective Reduction of Material Odors, In-use Odors, and Post-use Odors”
  • Sequel – “Spiraling into Business: How a Dramatic Innovation to the Tampon Met the World’s Largest Manufacturer of Feminine Hygiene”
  • Sparkle Innovations Inc. – Sustainability and Circularity in the Absorbent Hygiene Products Industry”

The Hygienix program will offer a hands-on workshop as well as two pre-conference webinars. Jim Robinson, Principal, Absorbent Hygiene Insights, LLC, will lead the in-person workshop on AHP Absorbent Hygiene Systems, Monday afternoon, November 13th. This workshop evaluates SAP absorption for different SAPs and participants have the opportunity to deconstruct and examine several hygiene products including infant, adult, and period care products to increase the understanding of these systems.

More information:
Hygienix INDA
Source:

Association of the Nonwoven Fabrics Industry INDA

(c) gr3n
26.07.2023

gr3n: First manufacturing plant for depolymerization of PET in Spain

To reach its goal of being the world’s leading supplier of enhanced recycled polyethylene terephthalate (PET), gr3n is signing a binding Memorandum of Understanding (MOU) with its shareholder Intecsa Industrial to set up a Joint Venture.

gr3n together with Intecsa Industrial will join forces and build a “First-of-a-Kind” manufacturing facility able to produce 40.000 tons of virgin-like PET, commencing EPC phase in Q4-2024 and aiming to be operational in 2027. gr3n’s chemical recycling technology is capable of processing PET from various industries including textile waste, closing the loop for hard-to-recycle PET applications.

To reach its goal of being the world’s leading supplier of enhanced recycled polyethylene terephthalate (PET), gr3n is signing a binding Memorandum of Understanding (MOU) with its shareholder Intecsa Industrial to set up a Joint Venture.

gr3n together with Intecsa Industrial will join forces and build a “First-of-a-Kind” manufacturing facility able to produce 40.000 tons of virgin-like PET, commencing EPC phase in Q4-2024 and aiming to be operational in 2027. gr3n’s chemical recycling technology is capable of processing PET from various industries including textile waste, closing the loop for hard-to-recycle PET applications.

The world’s first industrial-scale MADE PET recycling plant will have the capability to process post-industrial and post-consumer PET waste including hard-to-recycle waste, to produce approximately 40.000 tons of virgin PET chips from the recycled monomers saving nearly 2 million tons of CO2 during its operating life. The post-consumer and/or post-industrial polyesters will be both from bottles (colored, colorless, transparent, opaque) and textiles (100% polyester but also mixtures of other materials like PU, cotton, polyether, polyurea, etc. with up to 30% of presence in the raw textile).

The technical concept of the MADE plant is to break down PET into its main components (monomers) so they can potentially be re-polymerized endlessly to provide brand new virgin PET or any other polymer using one of the monomers. Polymers obtained can be used to produce new bottles/trays and/or new garments, essentially completely displacing feedstock material from fossil fuels, as the recycled product has the same functionality as that derived traditionally. This means that gr3n can potentially achieve bottle-to-textile, textile-to-textile, or even textile-to-bottle recycling, moving from a linear to a circular system.

gr3n’s process has the potential to change the way PET is recycled worldwide, enabling huge benefits for both the recycling industry and the entire polyester value chain. Many efforts have been made in the past to transfer enhanced recycling from research laboratories to the manufacturing industry, but the economics and skepticism of the first adopters have constantly blocked the progress of the proposed solutions. Thanks to the MADE technology developed by gr3n, this approach is now feasible and makes gr3n one of the few companies with the potential to provide a reliable enhanced recycling solution that closes the life cycle of PET, and also offers food grade polymer material, processes a large variety of waste and reduces the carbon footprint of these materials usually destined for incineration or landfill.

More information:
gr3n PET Intecsa
Source:

gr3n

RadiciGroup at Phygital Sustainability Expo photo: Phygital Sustainability Expo/RadiciGroup
07.07.2023

RadiciGroup at Phygital Sustainability Expo presenting Biofeel® eleven

RadiciGroup took part in the Phygital Sustainability Expo, this year in its fourth edition, which was held in Rome on 5 and 6 July. This event is entirely dedicated to the ecological transition of fashion and design brands through technological innovation. The show is an important platform for discussion on sustainable transition issues, involving Italian and international brands, fashion tech start-ups, representatives from the institutional, business and educational fields, and consumers.

RadiciGroup took part in the Phygital Sustainability Expo, this year in its fourth edition, which was held in Rome on 5 and 6 July. This event is entirely dedicated to the ecological transition of fashion and design brands through technological innovation. The show is an important platform for discussion on sustainable transition issues, involving Italian and international brands, fashion tech start-ups, representatives from the institutional, business and educational fields, and consumers.

RadiciGroup's participation in the event was further evidence of the Group's commitment to making a contribution to sustainability and circularity in the fashion and textile industry, in collaboration with all the other players in the supply chain. During the narrated fashion show, held on the evening of Wednesday, 5 July, in the evocative archaeological complex of the Imperial Forum Museum, RadiciGroup presented a maxi dress made of Biofeel® eleven, a yarn of completely natural origin featuring high technical, aesthetic and environmental performance. This yarn is produced starting from a small bean cultivated in India on semi-arid land and thus does not compete with human food production. These beans yield a special oil ideal for obtaining biopolymers, such as the one produced by Arkema and spun into yarn at RadiciGroup in Italy.

The dress is not only made from a low environmental impact raw material, but is also an example of ecodesign: the garment was realized on a Shima Seiki WholeGarment knitting machine, where the entire item was knit directly from spools of Biofeel® eleven yarn, bypassing the traditional stages of weaving and tailoring. It is a zero-waste process, as only the quantity of yarn strictly needed for the garment is used.

Biofeel® eleven yarn endows the dress with unique characteristics, including low moisture absorption, greater lightness and high resistance and durability. Besides being 100% biobased, the yarn is also 100% recyclable because it is made of a mono-material polymer, which facilitates its end-of-life recycling and processing into new materials suitable for any application requiring high performance.

12.06.2023

Circular Polymers by Ascend launches Cerene™

Nylon 6, nylon 6,6, polypropylene, PET and calcium carbonate are available through the company’s proprietary carpet recycling process

Circular Polymers by Ascend, a market-leading recycler of post-consumer carpet, today the launch of Cerene™, a line of recycled polymers and materials made from the company’s proprietary carpet reclaiming technology. Cerene is available as polyamide 6 and 66, PET, polypropylene and calcium carbonate as a consistent,
sustainable feedstock for many applications, including molding and compounding.
Recycling experts from Circular Polymers will be showcasing Cerene at Compounding World Expo on June 14-15 at the Messe Essen in Germany.

Ascend Performance Materials, a fully integrated producer of durable high-performance materials and the majority owner of Circular Polymers by Ascend, is known for its innovations in nylon 6,6. Cerene will continue that legacy with offerings in nylon 6,6 while also bringing to market recycled polymers such as nylon 6, PET and PP.

Nylon 6, nylon 6,6, polypropylene, PET and calcium carbonate are available through the company’s proprietary carpet recycling process

Circular Polymers by Ascend, a market-leading recycler of post-consumer carpet, today the launch of Cerene™, a line of recycled polymers and materials made from the company’s proprietary carpet reclaiming technology. Cerene is available as polyamide 6 and 66, PET, polypropylene and calcium carbonate as a consistent,
sustainable feedstock for many applications, including molding and compounding.
Recycling experts from Circular Polymers will be showcasing Cerene at Compounding World Expo on June 14-15 at the Messe Essen in Germany.

Ascend Performance Materials, a fully integrated producer of durable high-performance materials and the majority owner of Circular Polymers by Ascend, is known for its innovations in nylon 6,6. Cerene will continue that legacy with offerings in nylon 6,6 while also bringing to market recycled polymers such as nylon 6, PET and PP.

“Customers around the globe are seeking consistent and reliable post-consumer recycled materials,” said Maria Field, business director of Circular Polymers by Ascend. “Cerene is mechanically recycled using a process that minimizes our carbon footprint and environmental impact.”

Circular Polymers by Ascend converts post-consumer carpet into fiber and pellets. The company uses a proprietary process in its California-based facilities to achieve high efficiency in recycling, successfully providing a new life for virtually every component of the carpet and backing. The company has redirected 85 million pounds of carpet from landfills into new goods since 2018.

Source:

Circular Polymers by Ascend

(c) Beaulieu International Group
22.05.2023

B.I.G. Yarns launches Sustainable Yarns at Clerkenwell Design Week

B.I.G. Yarns unveils its new “SustainableYarns” platform, with Clerkenwell Design Week visitors the first to be invited to get on board and focus on what matters most for the design and manufacture of sustainable soft floorings.

The expert in polyamide (PA) 1 step 3 ply yarns offers a range of options for manufacturers to introduce sustainable yarns into carpet solutions and reach sustainability targets faster and more efficiently.

The Sustainable Yarns range creates opportunities to design with recycled content yarn (EqoCycle), to work with renewable resources (EqoBalance), and, following the launch of new polyamide 6 (PA6) EqoYarn at Clerkenwell Design Week, to also leverage the low-impact value chain.

New addition EqoYarn is a new low-impact PA6 carpet yarn based on the most recent innovations in polymer production, which enable yarn manufacturers to lower their carbon footprint by nearly 50% and give carpet manufacturers more options to reduce their impact.

B.I.G. Yarns unveils its new “SustainableYarns” platform, with Clerkenwell Design Week visitors the first to be invited to get on board and focus on what matters most for the design and manufacture of sustainable soft floorings.

The expert in polyamide (PA) 1 step 3 ply yarns offers a range of options for manufacturers to introduce sustainable yarns into carpet solutions and reach sustainability targets faster and more efficiently.

The Sustainable Yarns range creates opportunities to design with recycled content yarn (EqoCycle), to work with renewable resources (EqoBalance), and, following the launch of new polyamide 6 (PA6) EqoYarn at Clerkenwell Design Week, to also leverage the low-impact value chain.

New addition EqoYarn is a new low-impact PA6 carpet yarn based on the most recent innovations in polymer production, which enable yarn manufacturers to lower their carbon footprint by nearly 50% and give carpet manufacturers more options to reduce their impact.

For its EqoYarn Bulk Continuous Filament (BCF) production process, B.I.G. Yarns has selected the few best-in-class partners that have made major steps forward in terms of sustainability, and reduced their greenhouse gas emissions thanks to continuous investments in process efficiency, green energy, heat optimization and waste reduction. The result is EqoYarn with a carbon footprint of 4 kg CO2 eq/kg yarns, which is a CO2 reduction of up to 50% compared to conventional PA yarns.

EqoBalance PA6 yarns enable customers to reach an even higher CO2 reduction of up to 75%. Manufactured with polymers made from renewable resources such as organic waste from cooking oil instead of virgin or fossil feedstock, these yarns have a carbon footprint of 1.98 kg CO2 eq./ kg yarns. They help carpet manufacturers to create products with an extremely low carbon footprint.

EqoCycle PA6 yarns are fully recyclable and incorporate 75% recycled content originating from recycled and regenerated PA6 granules. With a carbon footprint of 4.64 kg CO2 eq./ kg yarns, they deliver the same high-quality performance of virgin PA6 yarn with the benefit of 37% CO2 reduction. EqoCycle yarns offer carpet manufacturers a sustainable alternative to help reduce the ecological footprint of their products and move towards a circular economy without jeopardizing the end-product quality.

In addition to the different CO2-reducing options, B.I.G. Yarns’ customers can access an unlimited colour range to elevate their designs. Its BCF technology for polyamide yarns, twisted and heat-set yarns, one-colour to multi-colour, between 650 and 15000 dTex, along with its colour studio, are available to support their creation of customised collections.

Source:

Beaulieu International Group