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21.01.2025

45 Years Trevira CS®

Indorama Ventures exhibited the Trevira CS® brand together with 17 Trevira CS partner companies at the Heimtextil trade fair in Frankfurt, Germany, from January 14-17, 2025.

This year Trevira CS is celebrating its 45th anniversary! In 1980 Trevira CS® was launched on the market, at that time a pioneer for permanently flame retardant textiles whose flame retardant properties neither wash out nor are lost through ageing or use. They are characterized by the fact that they meet all essential fire protection standards without the need for a chemical finish. Fabrics made from specially produced flame-retardant polyester can be labeled as Trevira CS after passing a brand test. Samples, brochures, pictures and short anecdotes from 45 years of Trevira CS will be on display in a special area of the exhibition stand, inviting visitors to browse and smile.

Indorama Ventures exhibited the Trevira CS® brand together with 17 Trevira CS partner companies at the Heimtextil trade fair in Frankfurt, Germany, from January 14-17, 2025.

This year Trevira CS is celebrating its 45th anniversary! In 1980 Trevira CS® was launched on the market, at that time a pioneer for permanently flame retardant textiles whose flame retardant properties neither wash out nor are lost through ageing or use. They are characterized by the fact that they meet all essential fire protection standards without the need for a chemical finish. Fabrics made from specially produced flame-retardant polyester can be labeled as Trevira CS after passing a brand test. Samples, brochures, pictures and short anecdotes from 45 years of Trevira CS will be on display in a special area of the exhibition stand, inviting visitors to browse and smile.

In the anniversary year the focus of the Trevira CS® joint stand will be on permanent flame retardancy and the sustainability approaches of Trevira CS fabrics, which are known for their outstanding properties and versatility in the textile industry. Not only will the latest yarn and fabric developments from the 17 partners be presented, the three sustainability approaches from 1. pre-consumer recycling, 2. the Trevira CS take-back concept in cooperation with the company ALTEX Textil-Recycling GmbH & Co. KG in Gronau, Germany and 3. developments from chemically recycled raw material, but also all submissions to the Trevira CS Fabric Competition 2025. This encouraged Trevira CS participants to explore the interfaces between permanent flame retardancy, textile design, functionality and safety and to submit articles for five different categories.

The BREATHAIR® brand, a 3D upholstery material, was also be presented at the trade fair. This innovative and recyclable product has been specially developed for the upholstery industry and offers new possibilities for sustainable and comfortable furniture designs. Thanks to the nature of BREATHAIR®, it can be recycled at the end of its life cycle . Visitors to the trade fair will have the opportunity to experience the unique comfort of BREATHAIR® up close in a seating lab.

The Deja™ brand is an integral part of Indorama Ventures' commitment to long-term sustainability through recycling and bio-based materials. The product portfolio includes chips, as well as various staple fibers and filament yarns in multiple titer and yarn specifications.

In cooperation with Auping and TWE, Indorama Ventures and Deja™ developed an innovative mattress consisting of two basic components. This new design allows for easier disassembly and therefore more efficient recycling. The partnership aims to promote the circular economy and reduce the environmental impact of mattresses. By using recyclable materials and reducing waste, the companies are actively contributing to a more sustainable future.

Source:

Indorama Ventures Public Company Limited

Flametougher Photo Flametougher Carrington
Flametougher by Carrington
13.01.2025

Carrington: Stretch FR fabrics for workwear in the Middle East

The Middle East’s industrial sector is synonymous with high-risk environments, particularly in oil and gas production. Workers face hazards such as flash fires, chemical splashes and electric arcs—all within the context of demanding conditions, including sweltering heat and long shifts. In response to these challenges, flame-retardant (FR) fabrics with stretch properties are emerging as the next generation of protective workwear, delivering comfort, safety and durability.

Traditionally, FR fabrics prioritised protection over comfort. However, the increasing demand for ergonomic clothing has driven a shift towards stretch solutions. Thanks to innovations in textile engineering and the influence of modern fashion, these fabrics now combine unparalleled flexibility with the stringent safety standards required in high-risk industries.

The Middle East’s industrial sector is synonymous with high-risk environments, particularly in oil and gas production. Workers face hazards such as flash fires, chemical splashes and electric arcs—all within the context of demanding conditions, including sweltering heat and long shifts. In response to these challenges, flame-retardant (FR) fabrics with stretch properties are emerging as the next generation of protective workwear, delivering comfort, safety and durability.

Traditionally, FR fabrics prioritised protection over comfort. However, the increasing demand for ergonomic clothing has driven a shift towards stretch solutions. Thanks to innovations in textile engineering and the influence of modern fashion, these fabrics now combine unparalleled flexibility with the stringent safety standards required in high-risk industries.

Stretch fabrics such as Carrington Textiles’ Flametougher 290AS Flex and Flameflex 300AS demonstrate how this transition is not just a luxury but a necessity. Flametougher 290AS Flex, for example, incorporates 19.5% CORDURA® nylon 6,6 for exceptional durability and strength, blended with 78% cotton for lightweight comfort. At just 290gsm, it ensures workers maintain mobility without compromising on protection.

Meeting the needs of Middle Eastern workers, Flameflex 300AS, weighing 300gsm, provides a perfect balance of durability, flexibility and flame resistance. Its 83% cotton and 14% polyester composition ensures longevity, while 2% EOL fibres enable enhanced elasticity—critical for workers in physically intensive roles such as oil rig operations or refinery maintenance.

Flexibility in workwear isn’t just a matter of comfort, it’s a matter of safety. Restricted movement can lead to fatigue, reduced compliance with safety standards and accidents. Stretch FR fabrics excel in adaptability. Whether it’s a worker scaling scaffolding on an oil platform or handling maintenance in a petrochemical plant, garments made with stretch FR textiles allow for the unrestricted movement critical to performing tasks safely.

The rise of these type of fabrics also owes much to the fashion industry. Decades of innovation in stretch garments for everyday use have created a ripple effect in workwear. Workers increasingly expect the same level of comfort and fit in their protective clothing, and manufacturers are responding.

(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.

The Eton Systems team at the recent Filtech exhibition in Cologne, Germany. Photo Adrian Wilson
The Eton Systems team at the recent Filtech exhibition in Cologne, Germany. Left to right: Magnus Sundgren, Fredrik Andersson, Sven Sörbö and Olof Strömberg.
06.01.2025

Automation: Filter products made by Swedish textile machinery

Members of TMAS – the Swedish textile machinery association – are providing crucial manufacturing and automation services to the filtration sector, which is an often invisible but very significant part of the global textile industry.

Technical woven and nonwoven fabrics are used in a wide variety of products in filtration systems for air, gas and liquid filtration, touching on almost every facet of life in the 21st Century.

They are crucial to aerospace and road transportation and a vast range of industrial processes and also to be found in every home, hotel and institutional building in air conditioning systems and household appliances such as washing machines and vacuum cleaners.

At its Skjåk manufacturing plant in Norway, for example, Interfil manufactures an annual 230,000 air filter units from a staggering range of some 15,000 variants, with 9,000 products moving continuously through the differing stages of the plant at any time each day, and a daily finished output of 1,100 products.

Members of TMAS – the Swedish textile machinery association – are providing crucial manufacturing and automation services to the filtration sector, which is an often invisible but very significant part of the global textile industry.

Technical woven and nonwoven fabrics are used in a wide variety of products in filtration systems for air, gas and liquid filtration, touching on almost every facet of life in the 21st Century.

They are crucial to aerospace and road transportation and a vast range of industrial processes and also to be found in every home, hotel and institutional building in air conditioning systems and household appliances such as washing machines and vacuum cleaners.

At its Skjåk manufacturing plant in Norway, for example, Interfil manufactures an annual 230,000 air filter units from a staggering range of some 15,000 variants, with 9,000 products moving continuously through the differing stages of the plant at any time each day, and a daily finished output of 1,100 products.

It’s a similar situation at the US plant of Filtration System Products (FSP) in Farmington, St Louis, which now has a daily production of over 2,200 filter hoses and media.

Both Interfil and FSP rely on the automated material handling expertise of TMAS member Eton Systems.

Eton’s individually addressable product carriers are designed to eliminate manual transportation and minimise handling throughout a manufacturing plant, ensuring each individual product arrives at its correct position precisely when required for each separate process step.

Interfil has relied on Eton automation since 2014, when a 50-metre overhead conveyor system was designed and installed to link the company’s two production halls at the Skjåk plant, eliminating the need for manual handling and truck transport between the facilities. This has resolved the challenge of having semi-finished products made far from the final assembly area, not only improving efficiency, quality control and component traceability across all parts of production, but also increasing on-site safety due to the need for fewer trucks.

FSP has meanwhile calculated that since installing an Eton system in 2023, it has increased its production output by 60% using the same number of operators and the same working hours as with the previous manual system. Eton’s inbuilt quality system also ensures that only 100% perfect products are unloaded from the system, allowing for a much more efficient quality control process. In addition, Eton’s compact method of moving single units through the production process has saved floor space and created a safer and more ergonomic work environment.

More information:
TMAS filtration technologies
Source:

AWOL for TMAS

Photo: Archroma
14.10.2024

Archroma: Breakthrough in bio-based textile printing

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

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

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

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

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

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

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

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

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

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

 

Source:

Archroma

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

Loomia: Automotive Comfort with Smart Textiles

Traditional heating systems in vehicles often rely on bulky and energy-intensive methods. Smart textiles, equipped with integrated heating elements powered by Loomia’s technology, offer an efficient alternative. These textiles can provide targeted warmth directly to occupants, reducing energy consumption compared to conventional heating systems. Whether integrated into seats, armrests, or steering wheels, smart heating textiles enhance comfort while optimizing energy use.

Smart surfaces in automotive interiors go beyond aesthetics, offering interactive functionalities that improve safety and convenience. Loomia’s smart surfaces can transform mundane surfaces into dynamic interfaces, capable of displaying information, adjusting settings, and responding to touch or gestures. For example, smart door panels can illuminate and provide feedback when touched, enhancing both usability and safety during nighttime operation.

Traditional heating systems in vehicles often rely on bulky and energy-intensive methods. Smart textiles, equipped with integrated heating elements powered by Loomia’s technology, offer an efficient alternative. These textiles can provide targeted warmth directly to occupants, reducing energy consumption compared to conventional heating systems. Whether integrated into seats, armrests, or steering wheels, smart heating textiles enhance comfort while optimizing energy use.

Smart surfaces in automotive interiors go beyond aesthetics, offering interactive functionalities that improve safety and convenience. Loomia’s smart surfaces can transform mundane surfaces into dynamic interfaces, capable of displaying information, adjusting settings, and responding to touch or gestures. For example, smart door panels can illuminate and provide feedback when touched, enhancing both usability and safety during nighttime operation.

Loomia’s expertise in smart textiles allows seamless integration into various aspects of vehicle design. From customizable lighting elements embedded within upholstery to responsive control panels, smart textiles enhance the overall aesthetics and functionality of automotive interiors. These innovations not only elevate the driving experience but also contribute to a more sustainable and technologically advanced automotive industry.

Looking ahead, the potential applications of smart textiles in automotive environments are vast. Future developments could include adaptive textiles that respond to environmental conditions, such as adjusting ventilation based on temperature and humidity levels. Moreover, advancements in sensor technology integrated into smart textiles may enable enhanced vehicle monitoring and diagnostics, further improving safety and efficiency on the road.

Source:

Loomia Technologies Inc

Spinning technical yarns Photo Oerlikon Neumag
08.08.2024

India: Technical textiles on the rise

As a traditional textile country, India has also established a strong position in the field of manmade fiber production in recent decades. The West Asian country has now become the second largest polyester yarn manufacturer in the world. The Indian textile industry covers the entire value chain from the melt to the finished textile end product.

The technical textiles sector in particular is regarded as a future market. With an average growth rate of 12% since 2013, this dynamic sector accounts for around 13% of the entire Indian textile and clothing market, according to the government organization Invest India. The market volume has almost doubled in the past ten years. In India, the production of industrial yarn has so far relied heavily on polyamide. Oerlikon Barmag has a strong market position here. "In recent years, we have commissioned plants for numerous customers," says Dr. Wolfgang Ernst, Head of Sales of the Oerlikon Business Unit Manmade Fibers Solutions.

As a traditional textile country, India has also established a strong position in the field of manmade fiber production in recent decades. The West Asian country has now become the second largest polyester yarn manufacturer in the world. The Indian textile industry covers the entire value chain from the melt to the finished textile end product.

The technical textiles sector in particular is regarded as a future market. With an average growth rate of 12% since 2013, this dynamic sector accounts for around 13% of the entire Indian textile and clothing market, according to the government organization Invest India. The market volume has almost doubled in the past ten years. In India, the production of industrial yarn has so far relied heavily on polyamide. Oerlikon Barmag has a strong market position here. "In recent years, we have commissioned plants for numerous customers," says Dr. Wolfgang Ernst, Head of Sales of the Oerlikon Business Unit Manmade Fibers Solutions.

Increasing demand for industrial polyester yarns
The construction boom and the increasing use of geotextiles and industrial textiles in various infrastructure projects as well as in agriculture and aquaculture show enormous growth potential. This is supported by the government's 2021 industrial development program, which includes technical textiles as one of ten priority sectors. The program is based on reducing dependence on imports. Until now, a large proportion of the technical textiles and yarns required in the country have been imported.

The trend towards high-quality technical textiles for the domestic market has also been noted by the Remscheid-based machine and plant manufacturer. "We are receiving more and more inquiries from Indian customers for spinning systems for industrial yarns," says Dr. Wolfgang Ernst. "What is new is the great interest shown by companies from downstream processes that are looking for backward integration. We attribute this to the stricter regulations of the Bureau of Indian Standards. Until now, industrial yarns were mainly imported from China. In order to guarantee the quality of the processed yarns, this has been strictly regulated by the government since last year. It therefore makes sense for Indian textile producers to enter the yarn manufacturing sector." This development was also noticeable at this year's Techtextil in Frankfurt, where the experts from Oerlikon Barmag were able to hold a disproportionately high number of technical discussions with Indian customers and interested parties.

The flexible spinning concepts of Oerlikon Barmag enable a variety of possible yarn products for numerous applications. The portfolio includes processes for the production of polyamide and polyester yarns with the required physical properties for a wide range of end applications, whether HMLS yarns for car tires, yarns for geotextiles, safety belts or even airbags.

More information:
Oerlikon Neumag
Source:

Oerlikon Barmag

01.08.2024

Azonprinter: Universal Electronics Kit for DTF Printing

Azonprinter Company, a company in the Direct-To-Film (DTF) printing industry, launches its Universal Electronics Kit. This solution addresses the critical challenges of the DTF process, delivering quality, safety, and reliability for apparel and material decoration.

DTF printing has revolutionized the decoration industry with its quality and durability. However, common challenges such as unreliable ink, powder, and film quality, and concerns over the safety and durability of automatic powder electronics during extended unattended operations, have persisted. Azonprinter’s Universal Electronics Kit is designed to overcome these hurdles, ensuring a seamless and superior DTF printing experience.

Azonprinter Company, a company in the Direct-To-Film (DTF) printing industry, launches its Universal Electronics Kit. This solution addresses the critical challenges of the DTF process, delivering quality, safety, and reliability for apparel and material decoration.

DTF printing has revolutionized the decoration industry with its quality and durability. However, common challenges such as unreliable ink, powder, and film quality, and concerns over the safety and durability of automatic powder electronics during extended unattended operations, have persisted. Azonprinter’s Universal Electronics Kit is designed to overcome these hurdles, ensuring a seamless and superior DTF printing experience.

Azon's Universal Electronics Kit is meticulously engineered to guarantee performance and safety, outperforming the alternatives currently on the market. With an open-source programming platform, the kit provides limitless customization possibilities, empowering users to tailor their DTF process to their precise needs. Built for durability, Azon's electronics kit ensures smooth, safe operation even during extended unattended use, mitigating risks associated with inferior quality products.

More information:
Azonprinter Direct-to-Film
Source:

Azonprinter

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

12.06.2024

B.I.G.powers Cushion Vinyl production plant with green energy

Beaulieu International Group is investing €5 million to transition the fossil based energy supply of its Cushion Vinyl production plant in Wielsbeke, Belgium, to bio mass generated steam supply. A transition to renewable energy. To this end, B.I.G. is collaborating with A&U Energie, a company that converts non-recyclable wood waste into green energy and heat. This strategic move aligns with B.I.G.'s commitment to reach ‘net zero’ for their operations by 2030.

The transition from fossil energy to green steam and the switch to waste gas treatment without direct fossil energy brings significant benefits. First, the switch in technology will lead to 88% reduction in their Belgian Cushion Vinyl carbon footprint related to heat supply and waste gas treatment, compared to the current emissions. Second, the use of steam heating and electric energy provides improved energy efficiency. In addition, the use of steam systems is known for its safety and reliability, providing a safer and more stable heating solution for the Belgian Cushion Vinyl facility. Moreover, the switch to steam and electric energy allows for the use of green electricity in the future, if available.

Beaulieu International Group is investing €5 million to transition the fossil based energy supply of its Cushion Vinyl production plant in Wielsbeke, Belgium, to bio mass generated steam supply. A transition to renewable energy. To this end, B.I.G. is collaborating with A&U Energie, a company that converts non-recyclable wood waste into green energy and heat. This strategic move aligns with B.I.G.'s commitment to reach ‘net zero’ for their operations by 2030.

The transition from fossil energy to green steam and the switch to waste gas treatment without direct fossil energy brings significant benefits. First, the switch in technology will lead to 88% reduction in their Belgian Cushion Vinyl carbon footprint related to heat supply and waste gas treatment, compared to the current emissions. Second, the use of steam heating and electric energy provides improved energy efficiency. In addition, the use of steam systems is known for its safety and reliability, providing a safer and more stable heating solution for the Belgian Cushion Vinyl facility. Moreover, the switch to steam and electric energy allows for the use of green electricity in the future, if available.

In addition to transitioning to 100% green energy, Beaulieu International Group is also dedicated to advancing the circular economy. These efforts encompass various initiatives, including increasing the use of recycled and reused materials. For example, 50% of B.I.G.'s PVC floor coverings are already fully recyclable. Additionally, they are actively working to reduce the environmental impact of their solutions by 42% at the end of their life cycle, striving to minimize product emissions to nearly zero, and eliminating pollutants. Recently at the Belgian Flanders Flooring Days, Beauflor launched its Twilight collection, a cushion vinyl floor created with PVC from 100% bio and circular sources resulting in a 40% reduced CO₂ footprint compared to their conventional heterogeneous CV flooring for residential applications

Furthermore, their cushion vinyl brand Beauflor launched the ReLive concept, a specialized program designed for a circular future, ensuring the collection, sorting, and recycling of PVC flooring cutting waste. Currently, this program focuses on post-installation waste and is exclusively available in France, with the goal of expanding its reach to other EU countries.

Through the establishment of strategic partnerships dedicated to finding innovative ways to repurpose waste materials previously slated for incineration, B.I.G. underscores its commitment to sustainable solutions and collaboration with like-minded organizations. 75% of B.I.G.'s post-industrial waste is now being successfully recycled.

Source:

Beaulieu International Group

Completion of Mosque for workers of Fashion Forum Limited (c) Asif Salman
31.05.2024

Completion of Mosque for workers of Fashion Forum Limited

The Zebun Nessa Mosque, recently completed in Ashulia, Dhaka, is a shining example of the progressive initiatives being undertaken by the Bangladeshi garment industry. Fashion Forum Ltd., a company of IDS Group, spearheaded this project, demonstrating a strong commitment to enhancing the welfare and environment for its workers.

Bangladesh, renowned as the second-largest exporter of ready-made garments globally, is setting new benchmarks in workplace safety, worker welfare, and environmental sustainability. Mr. Idris Shakur, managing director of IDS Group, epitomizes the industry’s progressive outlook. He has dedicated the mosque to the workers of Fashion Forum Limited, naming it in honour of his late mother. The gesture is designed to foster compassion and unity within the industrial community.

The Zebun Nessa Mosque, recently completed in Ashulia, Dhaka, is a shining example of the progressive initiatives being undertaken by the Bangladeshi garment industry. Fashion Forum Ltd., a company of IDS Group, spearheaded this project, demonstrating a strong commitment to enhancing the welfare and environment for its workers.

Bangladesh, renowned as the second-largest exporter of ready-made garments globally, is setting new benchmarks in workplace safety, worker welfare, and environmental sustainability. Mr. Idris Shakur, managing director of IDS Group, epitomizes the industry’s progressive outlook. He has dedicated the mosque to the workers of Fashion Forum Limited, naming it in honour of his late mother. The gesture is designed to foster compassion and unity within the industrial community.

The mosque, designed by Studio Morphogenesis and completed in 2023, reflects a forward-thinking architectural philosophy. Sustainability was a core consideration, with the design incorporating recycled red bricks from demolished houses for the exterior walls. Pink concrete, weatherproofed with lime plaster mixed with red brick powder, blends tradition with modernity, creating a spiritual and communal haven for the workers.

A key feature of the mosque is its majestic arched opening facing the qibla, offering worshippers a serene view of the adjacent waterbody and enhancing their connection with nature. The structure's double-layered walls provide thermal comfort and facilitate natural light and ventilation, transforming the mosque into a "breathing pavilion." Enclosed gardens, reminiscent of light courts, provide a peaceful retreat from the bustling industrial environment.

Inside, an intricate perforated metal stairway leads to a crescent-shaped upper floor, dedicated exclusively to the female workers. This space serves as a serene meeting area and prayer room, empowering women and reinforcing their importance within the workforce.

The Zebun Nessa Mosque also showcases advanced construction technology, designed to withstand extreme weather conditions, further underscoring the innovative and resilient spirit of Bangladeshi garment manufacturers.

This mosque stands as a testament to the progressive and compassionate ethos driving Bangladesh’s garment industry. It highlights how manufacturers are not only focusing on economic growth but also prioritising the well-being and empowerment of workers, setting new standards for the industry worldwide.

Source:

Bangladesh Apparel Exchange

06.05.2024

Lenzing: Outstanding results for social sustainability

The Lenzing Group has achieved outstanding results in the Higg Facility Social & Labor Module (FSLM) certification for five of its production sites. This involved measuring the social impact of production in areas such as wages, working hours, health and safety and treatment of employees.

One of Lenzing's key sustainability goals is to obtain a valid, independently audited and accredited social standard certificate for each of the Lenzing Group's production sites by 2024. This goal is pursued through the Higg Facility Social & Labor Module (Higg FSLM), which assesses social and labor-related conditions. In 2023, more than 7,200 companies worldwide underwent this audit, with Lenzing's result placing it in the top 25 percent of all verified Higg FSLM facilities.

The Lenzing Group has achieved outstanding results in the Higg Facility Social & Labor Module (FSLM) certification for five of its production sites. This involved measuring the social impact of production in areas such as wages, working hours, health and safety and treatment of employees.

One of Lenzing's key sustainability goals is to obtain a valid, independently audited and accredited social standard certificate for each of the Lenzing Group's production sites by 2024. This goal is pursued through the Higg Facility Social & Labor Module (Higg FSLM), which assesses social and labor-related conditions. In 2023, more than 7,200 companies worldwide underwent this audit, with Lenzing's result placing it in the top 25 percent of all verified Higg FSLM facilities.

A recent study by the Society for Applied Economic Research in Innsbruck (Austria)1 emphasises Lenzing's responsibility as an important employer. The Lenzing Group creates a total of 25,292 jobs in the five countries in which it operates production facilities. This figure includes not only employees, but also indirect jobs - because every direct job created creates more than two additional indirect jobs in other sectors of the economy.

1 GAW Wirtschaftsforschung: Economic and Regional Importance of the Lenzing Group in 2023; March 2024

Source:

Lenzing Group

Tensile Tester by James  Heal (c) James Heal
22.04.2024

James Heal: New Product Launch of the Titan Tensile Tester

UK-based textile testing solutions provider James Heal has launched two new instruments in its tensile and compression testing range, marking 25 years of innovation since their first Titan universal testing machine was developed in 1999.

Having seen sustained growth in the market for personal protective equipment (PPE), particularly safety workwear, equipment and footwear, James Heal designed the Titan 25 to meet demand for quality testing products that require higher capacity tests. In addition, the company has experienced increasing demand in testing solutions for wider sporting, industrial and transportation applications, which also influenced the decision to develop higher capacity test instrumentation.

The new Titan 25 is the highest capacity universal testing machine to join the range capable of tests up to 25kN, while the 10kN Titan 10 has been newly refined. The new instruments offer efficiencies through automation, quick change connections for tooling with compatibility across the range, upgraded software, plus enhanced safety features.

UK-based textile testing solutions provider James Heal has launched two new instruments in its tensile and compression testing range, marking 25 years of innovation since their first Titan universal testing machine was developed in 1999.

Having seen sustained growth in the market for personal protective equipment (PPE), particularly safety workwear, equipment and footwear, James Heal designed the Titan 25 to meet demand for quality testing products that require higher capacity tests. In addition, the company has experienced increasing demand in testing solutions for wider sporting, industrial and transportation applications, which also influenced the decision to develop higher capacity test instrumentation.

The new Titan 25 is the highest capacity universal testing machine to join the range capable of tests up to 25kN, while the 10kN Titan 10 has been newly refined. The new instruments offer efficiencies through automation, quick change connections for tooling with compatibility across the range, upgraded software, plus enhanced safety features.

These dual column instruments enable testing on larger specimens across a wide range of tensile and compression tests. Load cells from 100N to 25kN allow testing to as low as 2N giving laboratories maximum flexibility and return for their investment.

Simple to use, the new Titan testers have over 750 pre-loaded standard procedures in the TestWise software, with the option for users to customise and save their own standards. The software automatically sets parameters for each selected test, reducing set up time and eliminating user error.

More information:
James Heal Tensile Tester
Source:

James  Heal

17.04.2024

Stahl: 2023 ESG Report

Stahl has published its 2023 Environmental, Social and Governance (ESG) Report. The report outlines Stahl's recent progress on its ESG Roadmap to 2030 and the steps the company is taking to live its purpose of Touching lives, for a better world.

Stahl’s ESG Roadmap to 2030 includes interim targets for 2023, making this a year in which Stahl reached several important milestones. For example, the company reduced its scope 1 and 2 greenhouse gas (GHG) emissions by 22% versus 2022. Furthermore, in 2023 the Science Based Targets initiative (SBTi) validated Stahl's scope 1, 2 and 3 targets, making it one of the first coatings companies on the SBTi-approved list.

To reduce its GHG emissions, Stahl is actively increasing its use of clean energy. At the end of 2023, renewable energy generation, such as solar panels, had been installed at four Stahl sites, compared to its target of three.

Stahl has published its 2023 Environmental, Social and Governance (ESG) Report. The report outlines Stahl's recent progress on its ESG Roadmap to 2030 and the steps the company is taking to live its purpose of Touching lives, for a better world.

Stahl’s ESG Roadmap to 2030 includes interim targets for 2023, making this a year in which Stahl reached several important milestones. For example, the company reduced its scope 1 and 2 greenhouse gas (GHG) emissions by 22% versus 2022. Furthermore, in 2023 the Science Based Targets initiative (SBTi) validated Stahl's scope 1, 2 and 3 targets, making it one of the first coatings companies on the SBTi-approved list.

To reduce its GHG emissions, Stahl is actively increasing its use of clean energy. At the end of 2023, renewable energy generation, such as solar panels, had been installed at four Stahl sites, compared to its target of three.

Measuring – and reducing – the impact of products is an important step in the company’s scope 3 emissions. As such, 353 Stahl products now have either life cycle assessment (LCA) or product carbon footprint (PCF) data, far exceeding the 2023 target of 50.
 
New ratings and certifications
In 2023, 2,161 of Stahl's products were certified by Zero Discharge of Hazardous Chemicals (ZDHC), in line with ZDHC MRSL V3.1. These products represented 70% of the company’s sales revenue, demonstrating increased demand for coatings with a lower risk to health and the environment.

Stahl was also proud to achieve a Platinum rating from EcoVadis for the second year in a row, which places it in the top 1% of companies evaluated. Stahl also exceeded its 2023 target of an average EcoVadis rating of at least 60/100 for their top ten suppliers, with an average rating of 68/100 reported in December 2023.
Fostering a safe and welcoming work environment

A core pillar of Stahl’s ESG approach is how it supports its employees’ physical and mental well-being. The 2023 ESG Report outlines several examples of this commitment, such as improvement in its key safety KPIs for the third year in a row.

Besides keeping people safe, Stahl continues to make progress in fostering an open and inclusive workplace. For example, in support of diversity, equity and inclusion (DEI), Stahl appointed its first female leadership team member, trained 98% of its staff in DEI and established DEI committees at all Stahl sites. In addition, to strengthen communication, engagement and collaboration across the workforce, Stahl also established an internal workplace hub, MyStahl.

More information:
Stahl Coatings ESG
Source:

Stahl

16.04.2024

Stratasys published Second ESG and Sustainability Report

Stratasys Ltd. published its second Mindful Manufacturing™ ESG and Sustainability Report in accordance with the Global Reporting Initiative (GRI) standards, fulfilling its commitment to transparency. The report includes an extensive overview of activities and advancements in Stratasys’ environmental, social and governance (ESG) programs.

Some highlights of the Mindful Manufacturing ESG and Sustainability report, by category, include:

Environmental

  • Stratasys reduced water intensity by 32.5 percent across global operations, leading to an overall reduction in water usage by the company.
  • Solar panels installed at Israeli facilities generated 441,339 kWh of renewable energy, which contributed to 207 metric tons of reduced CO2 emissions, or the equivalent of planting 3,423 trees
  • Double digit (11.3 percent) increases in the number of spools, cartridges and canisters recycled through a new recycling program.

Social

Stratasys Ltd. published its second Mindful Manufacturing™ ESG and Sustainability Report in accordance with the Global Reporting Initiative (GRI) standards, fulfilling its commitment to transparency. The report includes an extensive overview of activities and advancements in Stratasys’ environmental, social and governance (ESG) programs.

Some highlights of the Mindful Manufacturing ESG and Sustainability report, by category, include:

Environmental

  • Stratasys reduced water intensity by 32.5 percent across global operations, leading to an overall reduction in water usage by the company.
  • Solar panels installed at Israeli facilities generated 441,339 kWh of renewable energy, which contributed to 207 metric tons of reduced CO2 emissions, or the equivalent of planting 3,423 trees
  • Double digit (11.3 percent) increases in the number of spools, cartridges and canisters recycled through a new recycling program.

Social

  • More than 38,000 hours of employee training were provided, equaling 18 hours of training per employee.
  • Approaching world-class status with employee engagement, with a 78 percent participation rate in the last all-employee survey, with an all-time high engagement score of 73.
  • 81 percent of managers participated in management training.
  • 4 diversity KPIs were set in 2022, focusing on hiring practices. Targets were:
  • 100 percent of candidate slates for manager and above will have a diverse slate
  • 35 percent of management hires will be women
  • 25 percent of tech hires will be women
  • 40 percent of intern/student hires to reflect a range of ethnicity and gender diversity.

Governance

  • 100 percent of new suppliers in 2021 and 2022 signed the Supplier Code of Conduct, which includes environmental, social and ethical standards.
  • More than 97% of all employees completed compliance training.
  • No product-related health and safety incidents of non-compliance occurred in 2021 or 2022.
Source:

Stratasys Ltd.

06.03.2024

SHIMA SEIKI at FIMEC 2024 in Brazil

SHIMA SEIKI MFG., LTD. of Wakayama, Japan, will together with its Brazilian representative BRASTEMA TECNOLOGIA TEXTIL LTDA. participate in the FIMEC 2024 47th International Fair of Leather, Chemicals, Components, Machines and Equipment for Footwear and Tanneries in Rio Grande do Sul, Brazil from 12th - 14th March 2024.

FIMEC offers the opportunity to reach out to the Brazilian shoe manufacturing industry with proposals for flat knitted fabrics as an alternative to conventional leather. Since participating in FIMEC over the years, SHIMA SEIKI has steadily expanded its market for shoe-upper knitting machines in Brazil. It will be showcasing its latest computerized flat knitting technology to demonstrate how they apply to footwear and other sportswear as well.

SHIMA SEIKI MFG., LTD. of Wakayama, Japan, will together with its Brazilian representative BRASTEMA TECNOLOGIA TEXTIL LTDA. participate in the FIMEC 2024 47th International Fair of Leather, Chemicals, Components, Machines and Equipment for Footwear and Tanneries in Rio Grande do Sul, Brazil from 12th - 14th March 2024.

FIMEC offers the opportunity to reach out to the Brazilian shoe manufacturing industry with proposals for flat knitted fabrics as an alternative to conventional leather. Since participating in FIMEC over the years, SHIMA SEIKI has steadily expanded its market for shoe-upper knitting machines in Brazil. It will be showcasing its latest computerized flat knitting technology to demonstrate how they apply to footwear and other sportswear as well.

The company is showing its new SWG-XR® WHOLEGARMENT® knitting machine for the first time in Brazil. SWG-XR® features 4 needle beds and SHIMA SEIKI’s original SlideNeedle™, capable of producing high-quality fine gauge WHOLEGARMENT® products in all needles, and will be knitting WHOLEGARMENT® sportswear at FIMEC. For conventional shaped knitting, the compact SVR®093 machine with a short knitting width is specially developed for knitting shoe uppers, while the workhorse N.SSR®112 shaping machine features the latest garment knitting technology in an economical yet reliable package.
Both SVR®093 and N.SSR®112 will be knitting shoe uppers at FIMEC while utilizing the R2CARRIAGE®, WideGauge® knitting, spring-type moveable sinker, DSCS® Digital Stitch Control System, stitch presser, yarn gripper and cutter, and takedown comb. The classic SFG® seamless glove knitting machine will be knitting safety-oriented work gloves to round out SHIMA SEIKI’s multi-faceted display.

SHIMA SEIKI’s SDS®-ONE APEX4 3D design system will also be available for demonstrations in design
and simulation suited to shoe production.

More information:
Shima Seiki FIMEC shoes Brazil
Source:

SHIMA SEIKI MFG., LTD

FET: New Senior Materials and Process Scientist (c) FET
R&D Manager Dr Jonny Hunter (left) welcomes Dr Kristoffer Kortsen, Senior Materials and Process Scientist
28.02.2024

FET: New Senior Materials and Process Scientist

Fibre Extrusion Technology Ltd (FET) of Leeds, UK has appointed Dr Kristoffer Kortsen as Senior Materials and Process Scientist. He will report directly to R&D Manager, Dr Jonny Hunter, who joined FET in early 2023 in a growing Research and Development team.

Kortsen’s main area of work is in Gel Spinning of UHMWPE (Ultra-High Molecular Weight Polyethylene). His contribution will help provide gel spinning expertise and equipment in the near future to a range of industries including medical, aerospace, defence aerospace and marine.

Fibre Extrusion Technology Ltd (FET) of Leeds, UK has appointed Dr Kristoffer Kortsen as Senior Materials and Process Scientist. He will report directly to R&D Manager, Dr Jonny Hunter, who joined FET in early 2023 in a growing Research and Development team.

Kortsen’s main area of work is in Gel Spinning of UHMWPE (Ultra-High Molecular Weight Polyethylene). His contribution will help provide gel spinning expertise and equipment in the near future to a range of industries including medical, aerospace, defence aerospace and marine.

He completed a Master’s in chemistry at KU Leuven, graduating magna cum laude in 2018. For his Master’s placement, he worked on the production of impact modifier additives for PVC at Kaneka Belgium. Continuing a partnership with this international chemical manufacturing company, he joined the Howdle group at the University of Nottingham for a PhD project looking into the industrial potential of scCO2 dispersion polymerisations for additive production. After graduating, he worked in the Shaver group at the University of Manchester, developing a holistic approach to plastics recycling and sustainability across the many stakeholders in the field.

Source:

Fibre Extrusion Technology Ltd (FET)

60th anniversary of Eltex of Sweden AB (c) Eltex of Sweden
21.02.2024

60th anniversary of Eltex of Sweden AB

Eltex of Sweden, a pioneer in the adoption of electronic sensors by the weaving machinery industry, is marking its 60th anniversary this month.

The electronic detection of broken or missing weft yarns during production was the problem Eltex founders Åke Rydborn and Ragnar Henriksson set out to solve with the development of the world’s first electronic weft-stop-motion. Its potential was recognised on its introduction at the 1963 ITMA exhibition in Hannover, Germany, leading to the foundation of the company in a modest 12-square-metre workshop in Älmhult, Sweden, in February 1964.

Eltex of Sweden, a pioneer in the adoption of electronic sensors by the weaving machinery industry, is marking its 60th anniversary this month.

The electronic detection of broken or missing weft yarns during production was the problem Eltex founders Åke Rydborn and Ragnar Henriksson set out to solve with the development of the world’s first electronic weft-stop-motion. Its potential was recognised on its introduction at the 1963 ITMA exhibition in Hannover, Germany, leading to the foundation of the company in a modest 12-square-metre workshop in Älmhult, Sweden, in February 1964.

By 1968 the company was operating from a modern 3,000-square-metre plant and beginning to establish a global presence, introducing the first all-in-one printed circuit board (PCB) for its sensor systems in 1971. As exports increased, further Eltex operations were established in the USA and Ireland and the company expanded its product range including energy control devices, temperature and humidity loggers, food handling safety systems, and military grade battery chargers. Further textile milestones in parallel to advances in weaving technology included optical arrival detectors for air-jet weaving machines at the beginning of the 1980s, and the QTV system for warp preparation, which introduced digital stop-motion control to the industry at the start of the 1990s. In 2009, the company branched out into carpet tufting, first with the CoTS clamp-on tube sensor for tufting machines, followed by the Compact sensor for tufting machines in 2013. In 2019 the Compact II further cemented the company’s position in this sector.

Newly developed Eltex EyETM and ACT-R
Most recently, Eltex has launched the Eltex EyETM system for the monitoring of yarn tension on warp beams. Not only does it eliminate problems when warping, but also in the subsequent weaving or tufting processes. Eltex EyETM monitors the yarn tension on all positions in real-time and a minimum and maximum allowable tension value can be set. If any yarn’s tension falls outside these values the operator can be warned or the machine stopped.

The Eltex ACT and ACT-R units meanwhile go beyond yarn tension monitoring to actually control yarn tension. This extends the application range greatly. The plug and play system automatically compensates for any differences in yarn tension that arise, for example from irregularities in yarn packages.

Eltex has been owned by Brian Hicks, Seamus O’Dwyer and Jonathan Bell since 2007, following a management buy-out and the subsequent formation of Eltex Global Holdings in Ireland. Today, its head office, Eltex of Sweden AB, is in Osby, Sweden where it provides research and development, administration and global sales for the group. Eltex Manufacturing in Ireland is now the group’s primary production facility and Eltex US, Inc. provides sales and service for North America.

Source:

Eltex of Sweden

19.02.2024

CARBIOS and De Smet Engineers & Contractors: Partnership for construction of PET biorecycling plant

CARBIOS and De Smet Engineers & Contractors (DSEC), a provider of Engineering, Procurement and Construction services in the biotech’s and agro-processing industries, announce their collaboration to spearhead the construction of the world's first PET biorecycling plant. Under the agreement, De Smet has been entrusted with the project management and detailed engineering, including procurement assistance and CARBIOS partners’ management, to ensure the execution of the plant's construction in Longlaville, France, due for commissioning in 2025.  CARBIOS’ first commercial facility will play a key role in the fight against plastic pollution by offering an industrial-scale solution for the enzymatic depolymerization of PET waste to accelerate a circular economy for plastic and textiles.

With over 70 members of De Smet's expert team dedicated to the project and working alongside CARBIOS teams, the collaboration aims to guarantee the project timeline and budget while upholding quality, safety, health, and environmental standards. Construction is currently underway and on schedule.

CARBIOS and De Smet Engineers & Contractors (DSEC), a provider of Engineering, Procurement and Construction services in the biotech’s and agro-processing industries, announce their collaboration to spearhead the construction of the world's first PET biorecycling plant. Under the agreement, De Smet has been entrusted with the project management and detailed engineering, including procurement assistance and CARBIOS partners’ management, to ensure the execution of the plant's construction in Longlaville, France, due for commissioning in 2025.  CARBIOS’ first commercial facility will play a key role in the fight against plastic pollution by offering an industrial-scale solution for the enzymatic depolymerization of PET waste to accelerate a circular economy for plastic and textiles.

With over 70 members of De Smet's expert team dedicated to the project and working alongside CARBIOS teams, the collaboration aims to guarantee the project timeline and budget while upholding quality, safety, health, and environmental standards. Construction is currently underway and on schedule.