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06.02.2025

Oerlikon Manmade Fibers Solutions: „Technology Day 2025“ in Indien

Oerlikon Manmade Fibers Solutions recently hosted its highly anticipated Innovation and Technology Day at the Deltin Hotel in Daman by end of January 2025. The event attracted over 300 participants, including industry experts, partners, and stakeholders, who gathered to explore the latest advancements and trends in the manmade fibers industry in India.

Customer Event in Daman, India
The Innovation and Technology Day commenced with a warm welcome and introduction by Wolfgang Ernst, Chief Sales Officer (CSO) at Oerlikon Manmade Fibers Solutions, and Debabrata Ghosh, Head of Sales at Oerlikon Textile India. They provided an overview of the Indian market and its challenges.

Oerlikon Manmade Fibers Solutions recently hosted its highly anticipated Innovation and Technology Day at the Deltin Hotel in Daman by end of January 2025. The event attracted over 300 participants, including industry experts, partners, and stakeholders, who gathered to explore the latest advancements and trends in the manmade fibers industry in India.

Customer Event in Daman, India
The Innovation and Technology Day commenced with a warm welcome and introduction by Wolfgang Ernst, Chief Sales Officer (CSO) at Oerlikon Manmade Fibers Solutions, and Debabrata Ghosh, Head of Sales at Oerlikon Textile India. They provided an overview of the Indian market and its challenges.

“The Indian textile industry, particularly the chemical fiber sector, is experiencing significant growth and transformation. This development is driven by increasing production capacities, strategic investments, and a shift in global consumption patterns”, said Ghosh. India's production of manmade fibers (MMF) is robust, with annual outputs of 4.8 million tons of Polyester Filament Yarn (PFY), 1.7 million tons of Polyester Staple Fiber (PSF), 0.7 million tons of viscose, 0.2 million tons of Polyamide 6 (PA 6), and 25 thousand tons of acrylic. Additionally, the country boasts substantial capacities for PET bottles and films, growing at rates of 7% and 15% per annum, respectively. The Indian market is witnessing significant expansions in PTA (Purified Terephthalic Acid) capacity, with major projects underway by Indian Oil Corporation, GAIL, MCPI, Reliance Industries, and the Adani-Indorama joint venture. These expansions are set to increase the PTA capacity from the current 6.296 million tons to over 14 million tons by 2030.

Market Dynamics and strategic investments
“The global consumption landscape is shifting towards India and emerging Asia, driven by rising incomes and changing demographics. By 2050, India and emerging Asia are expected to account for 30% of global consumption at purchasing-power parity (PPP), up from 12% in 1997. This shift underscores the growing importance of these regions in the global economic landscape”, Ghosh continuous. Significant investments are being made to enhance production capacities and integrate advanced technologies. Indian Oil Corporation, in a joint venture with MCPI, is establishing a 900 TPD continuous polymerization unit in Odisha, supported by substantial government subsidies. Similarly, the Adani Group, in partnership with Indorama, is entering the petrochemical sector with a $3 billion PTA plant in Maharashtra.

Challenges and Opportunities
Despite the positive outlook, the industry faces challenges such as ensuring cost efficiency, scalability, and the seamless integration of new technologies into existing production processes. However, the sector is optimistic about improving profitability, driven by favorable supply-demand dynamics and strategic investments. “The Indian textile and chemical fiber industry is poised for significant growth, supported by strategic investments, capacity expansions, and a favorable global consumption shift. These developments position India as a key player in the global textile market, driving towards a sustainable and prosperous future”, said Ernst.

After the introduction about the current market situation, the event continued with numerous technical presentations in which Oerlikon and its partners presented their technological and solution expertise along the textile value production chain “From Melt to Yarn, Fibers and Nonwovens”.

“To spin an excellent yarn, you need the prefect melt”, said Moderator André Wissenberg, Head of Marketing, Corporate Communications, and Public Affairs at Oerlikon Manmade Fibers Solutions. How this can be produced using extrusion or continuous polycondensation technology was demonstrated by the keynote speakers Sven Streiber, Regional Sales Director at Oerlikon Barmag, Deepak Lokre, Head of Engineering at Oerlikon Textile India, and Matthias Schmitz, Head of Engineering Recycling Technology at BB Engineering (BBE).

The second session focused on Oerlikons technology partner for manmade fiber spinning mills. Presentations covered topics such as enhancing manmade fiber production with innovative air engineering, automatic handling solutions and quality inspections, as well as air texturizing solutions. Notable speakers included Praveen Kumar Singh, Managing Director of Luwa India, and Luca Lacitignola, Sales Director at Irico Gualchierani Handling (IGH), Simone Ducceschi, Sales & Project Manager at Thema Systems, as well as Ralf Morgenroth, Head of Engineering Textile Machinery at BBE.

The third session delved into solutions for producing the perfect fibers and yarns, with a focus on Oerlikon Barmag POY/DTY, FDY, IDY technologies as well as Oerlikon Neumag BCF and staple fiber line plants. Presentations were delivered by Philip Jungbecker, Head of R&D, and Guido Dresen, Regional Sales Director, both at Oerlikon Barmag, as well Chetan Bhagat, General Manager Sales, and Sameer Mehrotra, General Manager Service at Oerlikon Textile India. Ralf Morgenroth added further insights of the compact spinning solution VarioFil from BBE.

Environmentally friendly recycling solutions
The fourth session highlighted environmentally friendly recycling solutions, featuring insights from Sven Streiber and Sudipto Mandal, Sales and Marketing Manager at Oerlikon Textile India, and again Matthias Schmitz, BBE. They provided a detailed portfolio overview in the field of mechanical and chemical recycling. The new partnership between Oerlikon Barmag and Evonik was also presented to the audience. Finally, this was followed by a session on customer services and digital solutions, where Michael Ruebenhagen, Head of Global Service Sales and Ivan Gallo, Digital Solutions, both at Oerlikon Manmade Fibers Solutions discussed current upgrade and retrofit options, the Digital Academy, and the future of digitalization in manmade fiber spinning mills. Shared Kulkarnie, General Manager Service Sales & Workshops, as well as Chandru Gurbaxani, Digital Solutions, performed together with their German colleagues.

The event concluded with closing remarks again from Wolfgang Ernst, who provided a global market overview and outlook for 2025. Final remarks were given by Atul Vaidya, Managing Director of Oerlikon Textile India. Finaly the event ended with a gala evening with more than 500 participants featuring a fashion show, music, dancing, and excellent food, supported by Decathlon and Garden Vareli.

Source:

Oerlikon Manmade Fibers Solutions

Glass fiber surfacing veil © Freudenberg Performance Materials
Glass fiber surfacing veil
30.01.2025

Freudenberg at JEC World 2025 in Paris

Freudenberg Performance Materials (Freudenberg) will be showcasing its high-performance textile and nonwoven solutions for the composites industry at JEC World, the leading international composites show, in Paris, France. These include Enka®Solutions flow media and spacers for composites manufacturing and surfacing veils.

Composite manufacturers will have the opportunity to discuss solutions for optimizing resin infusion and foam injection molding processes with the experts, focusing on Enka®’s unique 3D polymeric filament structures used in Enka®Solutions flow media and spacers. With this technology, manufacturers benefit from a marked improvement in both quality and efficiency, ensuring their products meet the highest standards.

Freudenberg Performance Materials (Freudenberg) will be showcasing its high-performance textile and nonwoven solutions for the composites industry at JEC World, the leading international composites show, in Paris, France. These include Enka®Solutions flow media and spacers for composites manufacturing and surfacing veils.

Composite manufacturers will have the opportunity to discuss solutions for optimizing resin infusion and foam injection molding processes with the experts, focusing on Enka®’s unique 3D polymeric filament structures used in Enka®Solutions flow media and spacers. With this technology, manufacturers benefit from a marked improvement in both quality and efficiency, ensuring their products meet the highest standards.

In vacuum-assisted resin transfer molding (VARTM) and resin transfer molding (RTM) processes, composites manufactured using Enka®Solutions flow media have a superior bond and enhanced mechanical properties, which significantly decreases the risk of wrinkling and defects in the final products. Enka®Solutions flow media ensure rapid and reliable resin distribution. This guarantees full wet-out of the internal structure whilst keeping glass fiber reinforcement nettings and component surfaces precisely in place.

Freudenberg will also be presenting Enka®Solutions spacers, which contribute to faster production cycles and reproducible high-quality finished products.

Nonwoven surfacing veils for anti-corrosive coatings in piping and tank construction, UV-resistant facade panels, and other FRP end products.

Freudenberg’s surfacing veils are an essential part of FRP components and provide abrasion resistance, corrosion protection, smooth surfaces, and enhanced mechanical strength. As one of the world’s leading nonwoven manufacturers, Freudenberg’ portfolio of technologies is well suited to meeting the different needs of FRP part manufacturers. At JEC, the company’s experts will highlight the wide variety of technical capabilities for combining glass, PAN, and PET, in the shape of fibers or filaments, using their unique nonwoven expertise in wetlaid, drylaid, and spunbond processes.

Source:

Freudenberg Performance Materials

(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.

Winners of the Borealis Scientific Innovation Award 2024 (c) Borealis AG
06.12.2024

Winners of the Borealis Scientific Innovation Award 2024

On December 4, 2024 Borealis proudly announced the winners of the Borealis Scientific Innovation Award 2024 (BSIA) at the Borealis Innovation Day in Linz, Austria.

As a global industry leader, Borealis is rewarding pioneering ideas since 2008 with the Borealis Scientific Innovation Award, celebrating groundbreaking innovations with the potential to impact the world. This year’s focus was on new solutions for the environmentally sustainable production and use of plastics.

Innovative thinkers from the professional and academic scientific communities, entrepreneurs, start-ups, and university researchers were invited to submit their ideas. The winners were selected by a panel from Borealis' research team, who meticulously evaluated all submissions.

This year, submissions were accepted in the following key areas:

  • New catalysts for sustainable production
  • Energy-efficient polymerization processes
  • Recycling of polymers
  • Polymeric materials for energy transition

Winners of the 2024 Borealis Scientific Innovation Award 2024:

On December 4, 2024 Borealis proudly announced the winners of the Borealis Scientific Innovation Award 2024 (BSIA) at the Borealis Innovation Day in Linz, Austria.

As a global industry leader, Borealis is rewarding pioneering ideas since 2008 with the Borealis Scientific Innovation Award, celebrating groundbreaking innovations with the potential to impact the world. This year’s focus was on new solutions for the environmentally sustainable production and use of plastics.

Innovative thinkers from the professional and academic scientific communities, entrepreneurs, start-ups, and university researchers were invited to submit their ideas. The winners were selected by a panel from Borealis' research team, who meticulously evaluated all submissions.

This year, submissions were accepted in the following key areas:

  • New catalysts for sustainable production
  • Energy-efficient polymerization processes
  • Recycling of polymers
  • Polymeric materials for energy transition

Winners of the 2024 Borealis Scientific Innovation Award 2024:

  • First place: Clement Collins Rice (University of Oxford, UK) “Towards designer polyolefins: highly tuneable olefin copolymerisation using a single permethyl-indenyl post-metallocene Catalyst”
  • Second place: Elisabetta Carrieri (Ghent University, Belgium) “Development of a solvent based recycling process for agricultural film”
  • Third place: Esun Selvam (University of Delaware, USA) “Recycling polyolefin plastic waste at short contact times via rapid joule heating”

In addition to receiving monetary prizes, the winners were invited to the Borealis Innovation Headquarters in Linz, Austria, where they participated in the award ceremony during the Borealis Innovation Day 2024.  

The next call for applications for the BSIA will start in spring 2025.

30.10.2024

World’s first sports t-shirt made from 100% textile waste

For the first time, a piece of clothing is made entirely from textile waste – no bottles, no packaging, no virgin plastic. 100% biorecycled fibers. By developing and industrializing CARBIOS’ enzymatic depolymerization technology to achieve 100% “fiber-to-fiber” recycling, the consortium collectively advances the textile industry's shift towards a circular economy.

CARBIOS, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, and its “fiber-to-fiber” consortium partners On, Patagonia, PUMA, Salomon, and PVH Corp., parent company of Calvin Klein, unveil the world’s first enzymatically recycled polyester garment made from 100% textile waste using CARBIOS’ pioneering biorecycling technology.

For the first time, a piece of clothing is made entirely from textile waste – no bottles, no packaging, no virgin plastic. 100% biorecycled fibers. By developing and industrializing CARBIOS’ enzymatic depolymerization technology to achieve 100% “fiber-to-fiber” recycling, the consortium collectively advances the textile industry's shift towards a circular economy.

CARBIOS, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, and its “fiber-to-fiber” consortium partners On, Patagonia, PUMA, Salomon, and PVH Corp., parent company of Calvin Klein, unveil the world’s first enzymatically recycled polyester garment made from 100% textile waste using CARBIOS’ pioneering biorecycling technology.

This technological feat contributes to advancing textile circularity when, today, the majority of recycled polyester is made from PET bottles, and only 1% of fibers are recycled into new fibers.  The collective achievement marks an important milestone for the consortium’s ultimate aim of demonstrating fiber-to-fiber closed loop using CARBIOS’ biorecycling process at an industrial scale, and marks an important step forward for the textile industry’s shift towards a circular economy.

A plain, white T-shirt was a deliberate choice to showcase the technological achievement that made its production possible from mixed and colored textile waste.  By using CARBIOS’ biorecycling technology, polyester is broken down using enzymes into its fundamental building blocks which are reformed to produce biorecycled polyester whose quality is on par with oil-based virgin polyester.  Petroleum can now be replaced by textile waste as a raw material to produce polyester textiles, that will in turn become raw materials again, thus fueling a circular economy, with the added benefit of a lower carbon footprint and avoidance of landfill or incineration.

The t-shirt’s production began with all consortium members (On, Patagonia, PUMA, PVH Corp. and Salomon) supplying rolls and production cutting scraps to CARBIOS in Clermont-Ferrand, France.  This textile waste consisted of some mixed blends with cotton or elastane, as well as various treatments (such as durable water repellent) and dyes which render them complex to recycle using conventional methods. The collected waste was deconstructed into its original monomers, PTA and MEG, using CARBIOS’ biorecycling technology at its pilot facility. The resulting monomers were then repolymerized, spun into yarn and woven into new fabric by external partners, demonstrating the seamless integration into existing manufacturing processes.  The resulting sports t-shirt made from 100% textile waste meets the quality standards and sustainability objectives of the apparel brands present in the “fiber-to-fiber” consortium.

CARBIOS’ demonstration plant in Clermont-Ferrand, France, has been up and running since 2021, and its first commercial plant, the world’s first industrial-scale enzymatic PET recycling plant, is currently under construction in Longlaville, France.  In addition, CARBIOS recently announced several letters of intent with PET producers in Asia and Europe, confirming global interest in its biorecycling technology and advancing the international roll-out of its licensing model.

Source:

Carbios

24.09.2024

CARBIOS and Selenis: Strategic partnership to produce PETG

CARBIOS, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, and SELENIS, a leading supplier of high-quality specialty polyester solutions, have signed a Letter of Intent to cooperate in the production of PETG. By leveraging CARBIOS’ enzymatic depolymerization technology and Selenis’ expertise in polymerization, the companies aim to develop a premium, sustainable PETG material made from PET waste for the Cosmetic and Healthcare packaging sectors across Europe and the U.S. This partnership follows a two-year collaboration between the two companies and represents a significant advancement in the plastic recycling industry.

CARBIOS, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, and SELENIS, a leading supplier of high-quality specialty polyester solutions, have signed a Letter of Intent to cooperate in the production of PETG. By leveraging CARBIOS’ enzymatic depolymerization technology and Selenis’ expertise in polymerization, the companies aim to develop a premium, sustainable PETG material made from PET waste for the Cosmetic and Healthcare packaging sectors across Europe and the U.S. This partnership follows a two-year collaboration between the two companies and represents a significant advancement in the plastic recycling industry.

PETG is an indispensable packaging material in both the cosmetics and healthcare industries due to its exceptional clarity, durability, mechanical and chemical resistance. CARBIOS’ enzymatic depolymerization solution breaks down all types of PET waste into PTA and MEG monomers, which are then transformed into PETG through Selenis’ advanced polymerization processes. Thanks to the purity of these monomers, PETG issued from biorecycling presents the same properties as virgin PETG, allowing for products packaged in thick, molded pots and lids to be protected and presented attractively. In the medical and pharmaceutical industries, PETG properties are also critical for guaranteeing top packaging performance, sterility, transparency and optical brightness, making it an ideal choice for complex medical device packaging, pharmaceuticals blisters, or any other packaging of diagnostic equipment. The material’s value is therefore further underscored by combining a sustainable recycling solution whilst guaranteeing all needed properties, aligning with consumer sustainability demands and stringent regulatory requirements.

CARBIOS and Selenis’ partnership is the result of extensive pilot and industrial polymerization trials that have refined the quality of the end product. The result is high-specialty PETG grades issued from biorecycling that meet the strict requirements of sectors like cosmetics and healthcare, where Selenis has a strong presence through its Selcare brand.

More information:
Carbios PETG
Source:

Carbios

Freudenberg Apparel´s Film Bonding series product in tape form. © Freudenberg Performance Materials
Freudenberg Apparel´s Film Bonding series product in tape form.
12.09.2024

Freudenberg: New Film Bonding series for sew-free garments

Freudenberg Performance Materials Apparel (Freudenberg Apparel) introduces the innovative Film Bonding series. This new line of solutions is expertly designed for advanced sew-free bonding applications, enhancing the manufacturing process with modern efficiency and precision. In conjunction with this launch, Freudenberg Apparel is expanding its Net Bonding and Dot Bonding series, further broadening its range of seamless adhesive solutions to cater to the specific demands of the Stretch Active, Intimate, and Athleisure wear segments.

Freudenberg Apparel's Film Bonding series features a film structure with a high-quality adhesive, delivering robust shear bond and recovery. This enables garments to conform to the body's shape while retaining their shape and integrity after stretching, significantly improving durability and wearer comfort. By eliminating bulky seams, the Film Bonding series also provides a clean, smooth finish to fabric surfaces.

Freudenberg Performance Materials Apparel (Freudenberg Apparel) introduces the innovative Film Bonding series. This new line of solutions is expertly designed for advanced sew-free bonding applications, enhancing the manufacturing process with modern efficiency and precision. In conjunction with this launch, Freudenberg Apparel is expanding its Net Bonding and Dot Bonding series, further broadening its range of seamless adhesive solutions to cater to the specific demands of the Stretch Active, Intimate, and Athleisure wear segments.

Freudenberg Apparel's Film Bonding series features a film structure with a high-quality adhesive, delivering robust shear bond and recovery. This enables garments to conform to the body's shape while retaining their shape and integrity after stretching, significantly improving durability and wearer comfort. By eliminating bulky seams, the Film Bonding series also provides a clean, smooth finish to fabric surfaces.

Available in tape form, Freudenberg Apparel's Film Bonding solutions accommodate a wide range of weight requirements from 90 to 220 g/m², including thin options under 80µm. The series offers an array of TPE and TPU variants with varying softness levels from medium to very soft, reducing reliance on traditional stitching and making them ideal for various applications, including stitch-free seam bonding on briefs, bras, vests, and leggings.

Complementing the Film Bonding series, Freudenberg has introduced an innovative oval net structure to its TPE polymer adhesive Net Bonding series. This new structure, in addition to the existing Diamond and Hexagon patterns, offers a diverse selection of net structures suitable for a wide array of applications. The expanded weight range of 50-240 g/m² for the Net Bonding solutions provides versatility for creating breathable, elastic, and well-controlled garments in leggings, sports bras, and intimate apparel.

Source:

Freudenberg Performance Materials Holding GmbH

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)

06.09.2024

Indorama Ventures: ISCC+ Certification for fiber manufacturing sites

Indorama Ventures Public Company Limited (IVL) has achieved ISCC+ certification for three of its fiber manufacturing sites. In addition to one already ISCC+ certified fiber plant, this marks a significant milestone in the company's ongoing commitment to sustainability and circular economy practices. Across its entire business, a total of nine Indorama Ventures sites are now ISCC+ certified, offering a diverse range of sustainable products, including PTA, PET chips, fibers, and fabrics.

The newly certified high-performance fiber portfolio will serve customers who require technical yarns such as in the Mobility, Tire cords, Airbags, Industrial or Mechanical Rubber Goods sector. The new offerings include:

Indorama Ventures Public Company Limited (IVL) has achieved ISCC+ certification for three of its fiber manufacturing sites. In addition to one already ISCC+ certified fiber plant, this marks a significant milestone in the company's ongoing commitment to sustainability and circular economy practices. Across its entire business, a total of nine Indorama Ventures sites are now ISCC+ certified, offering a diverse range of sustainable products, including PTA, PET chips, fibers, and fabrics.

The newly certified high-performance fiber portfolio will serve customers who require technical yarns such as in the Mobility, Tire cords, Airbags, Industrial or Mechanical Rubber Goods sector. The new offerings include:

  • Mass balanced (M.B.) polyamides PA6.6 and PA4.6 from the company’s sites in Obernburg (Germany) and Pizzighettone (Italy). Developed in collaboration with key partners, these products match the performance of standard polyamide yarns while reducing GHG emissions by approximately 55% at the polymer level.
  • Bio-based high-tenacity PA4.10 (M.B.) yarn made in Obernburg (Germany) for tire and specialties applications. This 100% bio-content polymer, produced from bio-based Sebacic Acid and bio-based Di-Amino Butane (DAB) component via mass balancing, supports significant GHG emissions reduction due to the innovative raw material.
  • Recycled PET yarns and tire cord fabric from Indorama Ventures’ site in Kaiping (China). These yarns and fabrics made from 100% recycled PET, represent the company’s efforts to drive the evolution towards circular practices and lower carbon products.

ISCC+ Certification
The ISCC+ (International Sustainability and Carbon Certification) is a globally recognized standard for the sustainable production of biomass, and bio-based products, including recycled content. This certification ensures that materials are sourced and processed responsibly, reducing the environmental impact and promoting a circular economy.

 

Source:

Indorama Ventures Public Company Limited

26.08.2024

Oerlikon at ITMA Asia + CITME 2024

This year's ITMA Asia + CITME 2024 trade fair appearance of the Oerlikon Polymer Processing Solutions Division between 14 and 18 October 2024 will once again focus on current challenges for the global textile machinery industry: the replacement of old systems with energy-efficient and sustainable technology solutions, the use of digital software and hardware solutions to increase productivity and ensure material quality, and the traceability of all products to enable the recycling of the raw materials used in a future-oriented circular economy.

Oerlikon Polymer Processing Solutions offers complete solutions ranging from extrusion and polycondensation systems to texturized yarn, accompanied by automation and digital solutions. The supply of all process steps from a single source ensures a coordinated technology that guarantees the high quality of the fibers and yarns produced. The entire product portfolio of the supplier of machines and systems primarily to produce polyester, polypropylene and nylon will therefore take centre stage at this year's trade fair.

This year's ITMA Asia + CITME 2024 trade fair appearance of the Oerlikon Polymer Processing Solutions Division between 14 and 18 October 2024 will once again focus on current challenges for the global textile machinery industry: the replacement of old systems with energy-efficient and sustainable technology solutions, the use of digital software and hardware solutions to increase productivity and ensure material quality, and the traceability of all products to enable the recycling of the raw materials used in a future-oriented circular economy.

Oerlikon Polymer Processing Solutions offers complete solutions ranging from extrusion and polycondensation systems to texturized yarn, accompanied by automation and digital solutions. The supply of all process steps from a single source ensures a coordinated technology that guarantees the high quality of the fibers and yarns produced. The entire product portfolio of the supplier of machines and systems primarily to produce polyester, polypropylene and nylon will therefore take centre stage at this year's trade fair.

“The Chinese market continues to have enormous potential for us, even if it has not been able to match the previous times in terms of large new installations of manmade fiber plants and the associated expansion of production capacity for good two years. However, there is still a great need for renewal, especially in terms of sustainability. Shutting down old plants and replacing them with new, modern and energy-efficient technologies is the path to a better and lower-emission future for us all,” explains André Wissenberg, Head of Marketing, Corporate Communications and Public Affairs. “We have been contributing to sustainability with our technology solutions for decades. Be it by increasing energy efficiency with each new generation of machines or by processing new materials,” Wissenberg continues. Oerlikon is proud of the fact that the company has been offering solutions for the textile industry under the e-save sustainability label for 20 years and has saved over 15 million tons of CO2 thanks to the machines and systems developed and installed on the market during this time.

Source:

Oerlikon Textile GmbH & Co. KG

23.08.2024

Expansion of service and spare parts business at Oerlikon Polymer Processing Solutions

The Oerlikon Polymer Processing Solutions Division of the Swiss Oerlikon Group is expanding its customer services and spare parts business in the area of machines and systems for the production of carpet yarns (BCF) and industrial yarns (IDY). To this end, the company concluded an agreement with the Truetzschler Group, based in Moenchengladbach, Germany, in August. Technology experts and service staff from Oerlikon Neumag are now the new contacts for customer services and the spare parts business for Truetzschler's BCF and IDY technologies installed in the market. The Moenchengladbach-based textile machinery manufacturer is withdrawing from this business segment in order to concentrate on the spinning, card clothing and nonwovens businesses in future.

Oerlikon Polymer Processing Solutions offers complete solutions for the manmade fiber industry. They range from extrusion and polycondensation plants to texturized yarn, and are accompanied by automation and digital solutions. The supply of all process steps from a single source ensures a harmonized technology that guarantees high quality of the yarns produced.

The Oerlikon Polymer Processing Solutions Division of the Swiss Oerlikon Group is expanding its customer services and spare parts business in the area of machines and systems for the production of carpet yarns (BCF) and industrial yarns (IDY). To this end, the company concluded an agreement with the Truetzschler Group, based in Moenchengladbach, Germany, in August. Technology experts and service staff from Oerlikon Neumag are now the new contacts for customer services and the spare parts business for Truetzschler's BCF and IDY technologies installed in the market. The Moenchengladbach-based textile machinery manufacturer is withdrawing from this business segment in order to concentrate on the spinning, card clothing and nonwovens businesses in future.

Oerlikon Polymer Processing Solutions offers complete solutions for the manmade fiber industry. They range from extrusion and polycondensation plants to texturized yarn, and are accompanied by automation and digital solutions. The supply of all process steps from a single source ensures a harmonized technology that guarantees high quality of the yarns produced.

Based in Neumuenster, Germany, Oerlikon Neumag, a branch of Oerlikon Textile GmbH & Co. KG and a brand of the Oerlikon Polymer Processing Solutions Division, has been an established and broadly positioned international supplier with proven expertise in the field of BCF for decades. The division's sister company Oerlikon Barmag from Remscheid, Germany, contributes its expertise in the field of IDY systems.

Source:

Oerlikon Textile GmbH & Co. KG

07.08.2024

CARBIOS and FCC Environment: Joint project for UK-based PET biorecycling facility

CARBIOS and FCC Environment UK, a recycling and waste management companies in the UK, have signed a Letter of Intent (LOI) to jointly study the implementation of a UK-based plant using CARBIOS’ PET biorecycling licensed technology.  CARBIOS’ biorecycling technology is key to supporting FCC’s continuing goal of contributing to the circular economy by exploring new processes and technologies to produce recycled PET (r-PET) from PET plastic and textiles. For CARBIOS, this LOI confirms interest from the waste management sector, in addition to plastic producers, and would mean a foothold for its technology in the UK.

CARBIOS and FCC Environment UK, a recycling and waste management companies in the UK, have signed a Letter of Intent (LOI) to jointly study the implementation of a UK-based plant using CARBIOS’ PET biorecycling licensed technology.  CARBIOS’ biorecycling technology is key to supporting FCC’s continuing goal of contributing to the circular economy by exploring new processes and technologies to produce recycled PET (r-PET) from PET plastic and textiles. For CARBIOS, this LOI confirms interest from the waste management sector, in addition to plastic producers, and would mean a foothold for its technology in the UK.

FCC’s continuing contribution to the UK circular economy
Recycling has plateaued in the UK in recent years, but UK Government policy very much supports a continual move to a more circular economy which FCC Environment supports. Achieving a circular economy however requires innovation and investment to deliver real environmental change. Exploring biorecycling is one way of doing this, so FCC is keen to understand this technology better by seeking an evidence based view on the advantages of using enzymes for the treatment of PET such as lower energy consumption and better circularity of the polymers back into the PET production lines. The depolymerization process developed by CARBIOS also facilitates the recycling of all kinds of PET waste, including problematic fractions such as polyester textiles, into high-quality recycled PET.

UK PET biorecycling plant would process hard-to-recycle waste
In order to tackle the plastic waste crisis, CARBIOS has developed a enzymatic depolymerization technology that enables efficient and solvent-free recycling of PET plastic and textile waste into virgin-like products. CARBIOS has ambitious plans to become a leading technology provider in the recycling of PET by 2035. In addition to the world’s first industrial-scale enzymatic PET recycling plant which is currently under construction in Longlaville, France, this UK-based plant would process PET waste that is currently not recyclable using conventional recycling technologies, such as colored, multilayered or textile waste.

05.08.2024

CARBIOS and SASA enter discussions for PET biorecycling facility in Turkey

CARBIOS and SASA, a manufacturer of polyester, fiber, filament yarn, polyester-based polymers, specialty polymers and intermediates, have signed a Letter of Intent (LOI) to cooperate through SASA’s potential acquisition of a license for CARBIOS’ unique PET biorecycling technology. This licensing agreement would allow SASA to construct and operate an enzymatic depolymerization plant in Adana, Turkey, with a capacity of 100,000 tons per year of prepared PET waste, and would give access to a circular recycling technology, enabling the production of polyester pellets, fibers and textiles from various waste sources, including polyester textile waste. With CARBIOS' biorecycling technology, SASA would diversify its offering to meet the growing global demand for sustainable materials in the textile industry, primarily catering to the European market.

CARBIOS and SASA, a manufacturer of polyester, fiber, filament yarn, polyester-based polymers, specialty polymers and intermediates, have signed a Letter of Intent (LOI) to cooperate through SASA’s potential acquisition of a license for CARBIOS’ unique PET biorecycling technology. This licensing agreement would allow SASA to construct and operate an enzymatic depolymerization plant in Adana, Turkey, with a capacity of 100,000 tons per year of prepared PET waste, and would give access to a circular recycling technology, enabling the production of polyester pellets, fibers and textiles from various waste sources, including polyester textile waste. With CARBIOS' biorecycling technology, SASA would diversify its offering to meet the growing global demand for sustainable materials in the textile industry, primarily catering to the European market.

Less than 1% of textile waste is currently recycled into new textile fibers[1].  With European regulations moving towards the incorporation of more recycled content (at least 20% of recycled fibers by 2030), demand for recycled polyester in the EU is anticipated to increase, naturally positioning Turkey as a major producer alongside Asian countries.  In this context, SASA is striving to become the largest supplier of high value-added polyester in the region and beyond. To achieve this, SASA aims to introduce recycling as part of its activities, which already encompass the whole value chain from PET production to fiber and textile conversion. CARBIOS’ PET biorecycling technology plays an important part in SASA’s ongoing transformation strategy, which includes back integration, capacity expansion, even higher competitiveness, as well as circularity.

CARBIOS has developed a enzymatic depolymerization technology that enables efficient and solvent-free recycling of PET plastic and textile waste into virgin-like products. CARBIOS has ambitious plans to become a leading technology provider in the recycling of PET by 2035. After the recent announcement of a joint Letter of Intent with Zhink Group in China, this new Letter of Intent for a potential licensing agreement in Europe confirms global traction for CARBIOS biorecycling technology, and marks another significant step in the international roll-out of its licensing model. In addition to the world’s first industrial-scale enzymatic PET recycling plant which is currently under construction in Longlaville, France, this potential plant in Turkey would process PET waste that is currently not recyclable using conventional recycling technologies.

[1] System Circularity and Innovative Recycling of Textiles | Circular Cities and Regions Initiative (europa.eu)

Source:

Carbios

Cooperation between CARBIOS and Nouvelles Fibres Textiles (c) CARBIOS
(L-R) Emmanuel Ladent (CEO, CARBIOS), Eric Boël (Co-director of Nouvelles Fibres Textiles) and Mathieu Berthoud (Strategic Sourcing Director, CARBIOS)
26.07.2024

Cooperation between CARBIOS and Nouvelles Fibres Textiles

CARBIOS and Nouvelles Fibres Textiles, a French company specializing in the recovery of end-of-life textiles, announce the signing of a Memorandum of Understanding to establish a contract for the supply of polyester textiles to the world's first PET biorecycling plant currently under construction in Longlaville, France. The polyester textiles supplied will come from used or end-of-life textiles prepared in France by Nouvelles Fibres Textiles for recycling using CARBIOS' enzymatic depolymerization technology. This contract will enable 5,000 tons a year of these textiles to be redirected towards biorecycling from 2026 onwards, over an initial 5-year period, demonstrating the commitment of industrial players all along the value chain to achieving textile circularity for a more sustainable textile sector.

CARBIOS and Nouvelles Fibres Textiles, a French company specializing in the recovery of end-of-life textiles, announce the signing of a Memorandum of Understanding to establish a contract for the supply of polyester textiles to the world's first PET biorecycling plant currently under construction in Longlaville, France. The polyester textiles supplied will come from used or end-of-life textiles prepared in France by Nouvelles Fibres Textiles for recycling using CARBIOS' enzymatic depolymerization technology. This contract will enable 5,000 tons a year of these textiles to be redirected towards biorecycling from 2026 onwards, over an initial 5-year period, demonstrating the commitment of industrial players all along the value chain to achieving textile circularity for a more sustainable textile sector.

Nouvelles Fibres Textiles and its various partners opened a semi-industrial site with an annual capacity of 1,000 tons in November 2023, the first step towards building a 20,000-to-30,000-ton unit in 2026. This first site, a research center for textile recycling, combines the know-how of Andritz Laroche (a leader in textile recycling), Pellenc ST (French leader in intelligent sorting solutions), Synergie TLC (a French player in collection and first sorting for solidarity) and the Tissages de Charlieu group (a French player in weaving, garment manufacturing and textile recycling). This unit transforms used textiles into high-quality raw materials, supplying the various industries that use textile fibers (non-wovens, insulation, plastic, textiles, etc.) by automatically sorting them by composition, while eliminating hard points (buttons, zips, patches, etc.).

CARBIOS' biorecycling technology uses enzymes to break down polyester fibers into their basic components. These components are then used to produce high-quality recycled PET materials, such as fibers for the textile industry. This “fiber-to-fiber” solution will enable polyester to become a truly circular fiber on a large scale.

Source:

CARBIOS

Call for Borealis Scientific Innovation Award (c) Borealis
22.07.2024

Call for Borealis Scientific Innovation Award

Achieving Borealis’ vision of leading a sustainable transformation through innovative plastics and base chemicals solutions to create a fully circular future requires fresh thinking. Through the Borealis Scientific Innovation Awards (BSIA), Borealis provides a platform for ideas that accelerate the circular transformation and encourages the dedication and diligence needed to drive sustainable progress.
 
This year, the BSIA will recognize peer-reviewed publications or theses (publication paper, Bachelor, Master, PHD, Postdoc) that describe an innovative idea within the focus area of new solutions for the sustainable production and use of plastics. This includes e.g. new catalysts, energy efficient polymerization processes, recycling of polymers and polymeric materials for energy transformation.  
 

Achieving Borealis’ vision of leading a sustainable transformation through innovative plastics and base chemicals solutions to create a fully circular future requires fresh thinking. Through the Borealis Scientific Innovation Awards (BSIA), Borealis provides a platform for ideas that accelerate the circular transformation and encourages the dedication and diligence needed to drive sustainable progress.
 
This year, the BSIA will recognize peer-reviewed publications or theses (publication paper, Bachelor, Master, PHD, Postdoc) that describe an innovative idea within the focus area of new solutions for the sustainable production and use of plastics. This includes e.g. new catalysts, energy efficient polymerization processes, recycling of polymers and polymeric materials for energy transformation.  
 
The call for submissions is open thinkers from the professional and academic scientific communities, from entrepreneurs, engineers, chemical engineers and start-ups to university researchers. Applicants can submit their peer-reviewed publication or theses (publication paper, Bachelor, Master, PHD, Postdoc) until September 15, 2024 via the Borealis website.  
 
Upon submission, a panel of Borealis research representatives will review the applications and select three winners. The awardees will be invited to present their work in person at an award ceremony at the Borealis Innovation Headquarters in Linz, Austria.  
 
The awards consist of a certificate, a cash prize (EUR 5,000 for first place, EUR 2,000 for second place, and EUR 1,000 for third place), a Borealis-funded trip to Linz, Austria and, of course, the invaluable opportunity for exposure and networking.

Source:

Borealis

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

CARBIOS and Zhink Group: Partnership for PET biorecycling in China (c) CARBIOS
03.07.2024

CARBIOS and Zhink Group: Partnership for PET biorecycling in China

CARBIOS and Zhink Group, specializing in two global industries, PET and textiles, announce the signing of a joint Letter of Intent to build a biorecycling plant in China using CARBIOS’ revolutionary enzymatic depolymerization technology to serve the global market. This agreement officializes collaboration towards a long-term partnership in view of a first licensing contract to build a plant with a minimum annual processing capacity of 50k tons of prepared PET waste and would contribute to accelerating a circular economy for plastic and textiles. China is a key market for CARBIOS, and this agreement would establish a presence in this dominant market.

With 67 million tons of PET produced annually, representing 61% of global production[1], China is the world's largest PET producer. With regional and global demand for recycled PET growing, China also has the potential to take the lead in recycled PET (r-PET) production. In 2021, 58% of the world’s r-PET was consumed in Asia (with 38% in China[2]) underscoring this region’s importance both as a major producer and consumer.

CARBIOS and Zhink Group, specializing in two global industries, PET and textiles, announce the signing of a joint Letter of Intent to build a biorecycling plant in China using CARBIOS’ revolutionary enzymatic depolymerization technology to serve the global market. This agreement officializes collaboration towards a long-term partnership in view of a first licensing contract to build a plant with a minimum annual processing capacity of 50k tons of prepared PET waste and would contribute to accelerating a circular economy for plastic and textiles. China is a key market for CARBIOS, and this agreement would establish a presence in this dominant market.

With 67 million tons of PET produced annually, representing 61% of global production[1], China is the world's largest PET producer. With regional and global demand for recycled PET growing, China also has the potential to take the lead in recycled PET (r-PET) production. In 2021, 58% of the world’s r-PET was consumed in Asia (with 38% in China[2]) underscoring this region’s importance both as a major producer and consumer.

Furthermore, China is a key transformer of PET into resins and fibers used in numerous applications in the packaging and textile industries.  Most notably, China is the primary country for transforming PET into fiber, representing 78% of all PET fiber transformation in the world[3].

For Zhink, the strategic focus is on the development of two global industries, PET and textiles, and to be a leader with sustainable competitiveness. Zhink is a major actor within the PET market with an annual production of 3 million tons of PET, serving domestic and global markets. CARBIOS has developed a enzymatic depolymerization technology that enables efficient and solvent-free recycling of PET plastic and textile waste into virgin-like products. The initial agreement between the two groups would allow Zhink to increase its recycled PET capacities and meet its sustainable competitiveness objectives by offering r-PET from enzymatic recycling: a circular recycling solution that can process all types of PET waste including hard-to-recycle waste (such as opaque and colored bottles, multilayer food trays and textile waste) while reducing CO2 emissions by 57%[4] compared with virgin PET production. For CARBIOS, this agreement marks a significant step in the deployment of its technology worldwide and roll-out of its licensing model to achieve its ambition to become a leading technology provider in the recycling of PET by 2035. This Asia-based plant under license by Zhink would come in addition to the world’s first industrial-scale enzymatic PET recycling plant which is currently under construction in Longlaville, France.

[1] HIS Markit 2021, Market Research Future 2021
[2] HIS Markit 2021, Market Research Future 2021
[3] HIS Markit 2021, Market Research Future 2021
[4] Database ecoinvent 3.8; French scenario, taking into account the detour of 50% of PET waste from conventional end-of-life. Virgin PET: 2.53 kg CO2/kg (cradle to gate)

Source:

CARBIOS

CARBIOS and TOMRA Textiles join forces (c) CARBIOS
Mathieu BERTHOUD, Strategic Sourcing Director, CARBIOS; Vibeke KROHN, Head of TOMRA Textiles; Emmanuel LADENT, CEO, CARBIOS; Mari Larsen SÆTHER, Recycling Lead, TOMRA Textiles
18.06.2024

CARBIOS and TOMRA Textiles join forces

CARBIOS and TOMRA Textiles, a tech venture set up by the sorting technology company TOMRA, announce the signing of an agreement to collaborate on establishing an efficient stream in Northern Europe from textile waste collection, sorting and preparation to recycling using CARBIOS’ enzymatic depolymerization technology at its first commercial plant currently under construction in Longlaville, France

The monomers obtained will be used to produce recycled polyester (r-PET) fiber, closing the loop for polyester textile circularity.

The innovations from both TOMRA Textiles and CARBIOS contribute to addressing critical gaps in the value chain and significantly increase textile-to-textile recycling from its current rate of 1%1. By accelerating a circular economy for polyester, a sustainable alternative to incineration or landfill is made available.

CARBIOS and TOMRA Textiles, a tech venture set up by the sorting technology company TOMRA, announce the signing of an agreement to collaborate on establishing an efficient stream in Northern Europe from textile waste collection, sorting and preparation to recycling using CARBIOS’ enzymatic depolymerization technology at its first commercial plant currently under construction in Longlaville, France

The monomers obtained will be used to produce recycled polyester (r-PET) fiber, closing the loop for polyester textile circularity.

The innovations from both TOMRA Textiles and CARBIOS contribute to addressing critical gaps in the value chain and significantly increase textile-to-textile recycling from its current rate of 1%1. By accelerating a circular economy for polyester, a sustainable alternative to incineration or landfill is made available.

TOMRA Textiles is on a mission to close the gap in textile circularity, by contributing to designing and scaling textile sorting plants. Under this partnership agreement, TOMRA Textiles will explore specific, tangible measures to enable the preparation of post-consumer polyester waste for biorecycling according to CARBIOS’ specifications.

CARBIOS' biorecycling technology involves breaking down polyester fibers into their basic components using enzymes, which are then used to produce high-quality recycled PET materials such as fibers for the textile industry. The breakthrough collaboration with TOMRA will redirect the challenging PET fraction of polyester textile waste towards biorecycling, showcasing a mutual dedication to pioneering recycling solutions for a circular economy.

1 Ellen MacArthur Foundation, 2017

Source:

CARBIOS

07.06.2024

Stratasys: Expanded Materials and Technology Updates

Stratasys Ltd. is announcing updates to several Industrial and Healthcare Business Unit products and Stratasys Direct. These include a new open platform for the F900™ 3D printer, more on-demand 3D printing capabilities and a new high-performance material for its Fused Deposition Modeling line.

OpenAM comes to the F900
Stratasys OpenAM™ is a software application that enables the user to modify machine controls to achieve results beyond standard print settings. Already available for the Fortus 450®mc printer, Stratasys is now making its OpenAM software available for the F900 printer. This will allow for expanded functionality and capabilities and will unlock new materials for F900 users.

Stratasys Ltd. is announcing updates to several Industrial and Healthcare Business Unit products and Stratasys Direct. These include a new open platform for the F900™ 3D printer, more on-demand 3D printing capabilities and a new high-performance material for its Fused Deposition Modeling line.

OpenAM comes to the F900
Stratasys OpenAM™ is a software application that enables the user to modify machine controls to achieve results beyond standard print settings. Already available for the Fortus 450®mc printer, Stratasys is now making its OpenAM software available for the F900 printer. This will allow for expanded functionality and capabilities and will unlock new materials for F900 users.

New VICTREX AM 200 material for FDM
A new material offering that opens the application potential for demanding industries like aerospace and medical, where material properties are critical components of a 3D-printed solutions. This new high-performance, high-strength, validated material, VICTREX AM™ 200, will be available for the Fortus 450mc and the F900. VICTREX AM 200 is a PEEK-based polymer that is temperature, corrosion, and chemical resistant, with excellent mechanical properties which can be utilized with soluble and breakaway support material.

Carbon Fiber Visual Print Option for the F-Series
Carbon Fiber Visual Print Option is a new 5-slice (0.005”) layer height across the F-123 Series™ line of printers that is coming later this month for FDM®ABS-CF10. It produces a smoother surface finish, to provide the perfect finish when a part’s visual appearance is important to the application. It is built for applications that demand the durability of a carbon-filled polymer, but also requires a visually appealing result without additional post-processing.

F770 adds New Colors
The F770® printer can now print in multiple colors, in addition to its original single ivory color. Six new ASA colors, including red, white, light gray, black, blue, and yellow, will allow for more application versatility with FDM® ASA and ABS-M30 tried-and-true engineering plastics. The new colors enable printing without painting or other post-production marking, allowing parts to be available much faster, increasing productivity.

Somos NeXt Validated for SLA
Somos® NeXt™ is now a validated material for Stratasys NEO® stereolithography 3D printers. Somos NeXt is a resin with superior strength and can be used in automotive and consumer products, along with other applications, including prototyping, to produce durable, accurate and detailed parts.

New GrabCAD Software Print Integration Enhances On-Demand 3D Printing Capabilities
Stratasys has introduced Parts on Demand by GrabCAD, a new integration that synchronizes the company's software platform with Stratasys Direct. This addition allows GrabCAD Print™ customers to access Stratasys Direct’s fleet of 3D printers, allowing for larger and more intricate designs, a selection of more than 50 engineered materials, and the assurance of stringent quality inspections.

Source:

Stratasys Ltd.