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22.03.2024

Fashion for Good: Ten new innovators for 2024 programme

Building on a renewed five-year strategy, Fashion for Good selects ten new innovators for its 2024 programme to receive tailored support validating their technologies. This cohort represents an increased focus on novel footwear material and recycling technologies, man-made cellulosics, and nylon recycling.

The 2024 Innovation Programme provides support based on the development stage and ambitions of each innovator, matching them with relevant industry partners to drive technology and impact technology and impact validation as well as investing activities.

The selected innovators joining the 2024 Innovation Programme are:

Building on a renewed five-year strategy, Fashion for Good selects ten new innovators for its 2024 programme to receive tailored support validating their technologies. This cohort represents an increased focus on novel footwear material and recycling technologies, man-made cellulosics, and nylon recycling.

The 2024 Innovation Programme provides support based on the development stage and ambitions of each innovator, matching them with relevant industry partners to drive technology and impact technology and impact validation as well as investing activities.

The selected innovators joining the 2024 Innovation Programme are:

  • Algreen Ltd: Algreen co-develops alternative materials from algae and biobased sources that can replace fossil-based products such as PU.
  • Balena: Balena creates biodegradable partly biobased polymers for footwear outsoles.
  • Epoch Biodesign: Epoch Biodesign is an enzymatic recycler of PA66 and PA6 textile waste.
  • Fibre52: Fibre52 is a bio-based solution replacing traditional bleach prepared-for-dyeing and dye processes.
  • Gencrest BioProducts Pvt Ltd: Gencrest works with various agri-residues to convert them into textile-grade fibres using their enzymatic technology.
  • HeiQ AeoniQ: HeiQ AeoniQ™ is a continuous cellulose filament yarn with enhanced tensile properties.
  • Nanollose - Nullabor: Nullarbor™Lyocell is developed from microbial cellulose which is converted into pulp pulp to produce a lyocell fibre with their partner Birla Cellulose.  
  • REGENELEY:  REGENELEY pioneers advanced shoe sole recycling technologies by separating and recycling EVA, TPU, and rubber components found in footwear.
  • Samsara Eco: Samsara Eco is an enzymatic recycler of PA66 and PET textile waste.
  • SEFF: SEFF Fibre produces cottonised fibres and blends of hemp fabrics utilising a patented HVPED process.
Source:

Fashion for Good

Deutschland: anmeldestärkste Bereiche Grafik Europäisches Patentamt 2024
19.03.2024

Europäischer Patent Index 2023: Wieder mehr Anmeldungen aus Deutschland

Der am 19. März veröffentlichte Patent Index 2023 zeigt eine neue Höchstmarke: Beim Europäischen Patentamt (EPA) wurden im vergangenen Jahr insgesamt 199.275 Patentanmeldungen eingereicht, was einem Anstieg von +2,9 % gegenüber dem Vorjahr entspricht. Der positive Trend aus den Jahren 2021 (+4,7 %) und 2022 (+2,6 %) hat sich weiter fortgesetzt. Patentanmeldungen stehen als wichtiger Frühindikator für Investitionen der Unternehmen in Forschung und Entwicklung. Zugleich unterstützen sie die Vermarktung von Erfindungen.

Der am 19. März veröffentlichte Patent Index 2023 zeigt eine neue Höchstmarke: Beim Europäischen Patentamt (EPA) wurden im vergangenen Jahr insgesamt 199.275 Patentanmeldungen eingereicht, was einem Anstieg von +2,9 % gegenüber dem Vorjahr entspricht. Der positive Trend aus den Jahren 2021 (+4,7 %) und 2022 (+2,6 %) hat sich weiter fortgesetzt. Patentanmeldungen stehen als wichtiger Frühindikator für Investitionen der Unternehmen in Forschung und Entwicklung. Zugleich unterstützen sie die Vermarktung von Erfindungen.

Aus Deutschland wurden beim EPA im vergangenen Jahr 24.966 Patentanmeldungen eingereicht, +1,4% mehr als im Vorjahr, die erste Zunahme nach drei Jahren mit stagnierendem Anmeldeaufkommen. Deutschland bleibt an der Spitze der europäischen Staaten und steht im weltweiten Ranking der europäischen Patentanmeldungen weiterhin auf dem zweiten Platz hinter den USA. 2023 stammten rund 12,5% aller beim EPA eingereichten Anmeldungen aus Deutschland.  
 
Starkes Wachstum aus China und Korea
Die fünf Länder mit den meisten europäischen Patentanmeldungen im letzten Jahr waren die USA, auf die 24% des gesamten Anmeldeaufkommens entfielen, Deutschland, Japan (11%), China (10%) und die Republik Korea (6%). Der Anstieg der Patentanmeldungen im vergangenen Jahr beruht vor allem auf der weiterhin starken Zunahme aus Korea (+21% zum Vorjahr) und China (+8,8% gegenüber 2022). Damit rückt das Land auf den 5. Platz im Länderranking vor.
 
Technologietrends: Deutschland weiterhin in der Mobilität führend – starkes Wachstum bei Elektrische Maschinen/Energie, in der Computertechnik und Biotechnologie
Die zahlenmäßig stärksten Technologiefelder bei den Patentanmeldungen aus Deutschland waren erneut die traditionell patentintensiven Bereiche Elektrische Maschinen/Geräte/Energie, Transport (einschließlich der Fahrzeugtechnologien) sowie Messtechnik. Daneben wurden insbesondere in zukunftsträchtigen Segmenten wie der Computertechnik (+13,5%) und der Biotechnologie (+13,4%) wieder deutlich mehr Patente angemeldet. Im Länder-Ranking für die Biotechnologie ist Deutschland die Nummer zwei hinter den USA. Unter den 25 anmeldestärksten Unternehmen in diesem Bereich finden sich fünf deutsche Firmen, angeführt von BASF, das auf dem achten Platz rangiert. In der Computertechnik liegt Deutschland auf Rang 3 hinter den USA und China. Unter den Top 25 in Computertechnik befinden sich mit Siemens und der Fraunhofer-Gesellschaft ebenfalls zwei deutsche Anmelder.  
 
In seinen traditionell anmeldestarken Technologiesegmenten hat das „Autoland Deutschland“, im Jahr 2023 seinen Spitzenplatz verteidigt, besonders im Bereich Transport: Mehr als 20% aller im vergangenen Jahr eingereichten europäischen Patentanmeldungen in diesem Sektor stammten aus Deutschland. In der Messtechnik, die auch die für die 4. Industrielle Revolution wichtigen Sensoren umfasst, meldeten nur US-amerikanische Unternehmen mehr Patente an als die deutschen Firmen (+6,5% im Jahresvergleich). Auf dem Gebiet Elektrische Maschinen, Geräte, Energie steht Deutschland weltweit an dritter Stelle beim EPA, hinter den Spitzenreitern China und der Republik Korea. Hier stiegen die Patentanmeldungen aus Deutschland um +7,7% gegenüber dem Vorjahr. Die Firma Robert Bosch liegt im internationalen Vergleich auf Rang 12 der Patentanmelder beim EPA für Erfindungen in der Batterietechnik, einem Teilgebiet von Elektrische Maschinen / Geräte / Energie. 

More information:
Europäisches Patentamt Patents
Source:

Europäisches Patentamt

Borealis celebrates 30th anniversary (c) Borealis
05.03.2024

Borealis celebrates 30th anniversary

Borealis is commemorating its thirtieth year of operations. Born of a merger between Statoil and Neste, Borealis has expanded from its early Nordic roots to become one of the top polyolefins players. Its dedication to value creation through innovation has produced proprietary and transformative technologies which benefit society and accelerate the transition to a circular economy. The company is regularly ranked as Austria's top innovator in the European Patent Index and holds an extensive patent portfolio of around 8,900 granted patents. In Europe in particular, Borealis has for decades bolstered the industrial landscape by investing in its capital assets, and by providing thousands of jobs.

Borealis is commemorating its thirtieth year of operations. Born of a merger between Statoil and Neste, Borealis has expanded from its early Nordic roots to become one of the top polyolefins players. Its dedication to value creation through innovation has produced proprietary and transformative technologies which benefit society and accelerate the transition to a circular economy. The company is regularly ranked as Austria's top innovator in the European Patent Index and holds an extensive patent portfolio of around 8,900 granted patents. In Europe in particular, Borealis has for decades bolstered the industrial landscape by investing in its capital assets, and by providing thousands of jobs.

Innovations
Borealis uses technological innovation to add value to polyolefin-based applications, ensure that production processes are made more resource efficient, and to accelerate plastics circularity. Borstar®, the multi-modal proprietary technology for the manufacture of polyethylene (PE) and polypropylene (PP), has been a mainstay of Borealis success since the start-up of the first Borstar PE plant in Porvoo, Finland in 1995. Borstar has since been joined by other technology brands, like Borlink™, an innovation for the power cable industry; Borstar® Nextension Technology, an innovation that among other benefits facilitates the production of monomaterial applications designed for recycling; or the Borcycle™ M technology for mechanical recycling, which breathes new life into polyolefin-based, post-consumer waste, transforming it into applications with a lower carbon footprint.

Global Expansion
With the strong support of its two majority shareholders OMV (Austria) and The Abu Dhabi National Oil Company (ADNOC, UAE), Borealis continues to expand its global footprint. The joint venture Borouge, established in 1998 in the UAE, and listed on the Abu Dhabi Securities Exchange (ADX) since 2022, is one of the largest integrated polyolefin complexes. It is currently the site of the company’s largest-ever growth project: Borouge 4, the new USD 6.2 billion facility in Ruwais, which will serve customers in the Middle East and Asia. In North America, the Baystar™ joint venture, founded in 2017 and operated with partner TotalEnergies, entailed the construction of a new ethane cracker as well as the most advanced Borstar plant ever built outside of Europe. The PE Borstar 3G plant in Pasadena, Texas was started up in late 2023 and has brought Borstar to this continent for the first time. Borealis’ commitment to Europe as a production location is evidenced by the new, world-scale propane dehydrogenation (PDH) plant currently under construction at Borealis operations in Kallo, Belgium.

More information:
Borealis polyolefins Recycling
Source:

Borealis

DITF: Modular cutting tool recognized with JEC Composites Innovation Award Photo: Leitz
Hermann Finckh (DITF) and Andreas Kisselbach (Leitz GmbH & Co. KG)
16.02.2024

DITF: Modular cutting tool recognized with JEC Composites Innovation Award

Hermann Finckh received the JEC Composites Innovation Award in the category Equipment Machinery & Heavy Industries for the innovation MAXIMUM WEIGHT REDUCTION OF COMPOSITE TOOLS. The research team from the German Institutes of Textile and Fiber Research Denkendorf (DITF) developed a new modular cutting tool for woodworking machines, which was produced and successfully tested by the industrial partner Leitz GmbH & Co. KG.

The extremely lightweight planing tool was made from carbon fiber-reinforced plastics (CFRPs) instead of aluminum using a completely new modular construction principle. As a result, it weighs 50 percent less than conventional tools. It enables significantly higher working speed, which enables a one-and-a-half-fold increase in productivity. The development of the extreme-lightweight principle was performed by numerical simulation and every solution was virtually tested in advance. A patent application has been filed for the concept.

Hermann Finckh received the JEC Composites Innovation Award in the category Equipment Machinery & Heavy Industries for the innovation MAXIMUM WEIGHT REDUCTION OF COMPOSITE TOOLS. The research team from the German Institutes of Textile and Fiber Research Denkendorf (DITF) developed a new modular cutting tool for woodworking machines, which was produced and successfully tested by the industrial partner Leitz GmbH & Co. KG.

The extremely lightweight planing tool was made from carbon fiber-reinforced plastics (CFRPs) instead of aluminum using a completely new modular construction principle. As a result, it weighs 50 percent less than conventional tools. It enables significantly higher working speed, which enables a one-and-a-half-fold increase in productivity. The development of the extreme-lightweight principle was performed by numerical simulation and every solution was virtually tested in advance. A patent application has been filed for the concept.

Trumpler and Archroma launch tanning process for leather production Photo: Archroma
06.11.2023

Trumpler and Archroma launch tanning process for leather production

Trumpler has teamed up with Archroma to offer a leather production process that can be used to produce high-performance leather in a more eco-friendly and cost-efficient way.

The new process DyTan®combines offers an alternative to existing metal-free and chrome-tanned leather. It enables the reliable production of leather with great shavability, color depth and migration and abrasion resistance. Free from metal salts and reactive aldehydes, DyTan® is suitable for a wide range of leather applications, from garment and footwear to automotive and furniture upholstery, for today’s eco-conscious leather producers and consumers.

At the core of the DyTan® process is Archroma’s patented AVICUERO® System, which is based on novel molecules that enable more sustainable leather tanning and dyeing, developed by Archroma in cooperation with leather technology consultant Dr Leather. It enables collagen fibers in the leather to be covalently cross-linked through a simplified process at low temperatures. As a result, the system shows strong potential to save energy and water, while also reducing process time and CO2 emissions by up to 23%.*

Trumpler has teamed up with Archroma to offer a leather production process that can be used to produce high-performance leather in a more eco-friendly and cost-efficient way.

The new process DyTan®combines offers an alternative to existing metal-free and chrome-tanned leather. It enables the reliable production of leather with great shavability, color depth and migration and abrasion resistance. Free from metal salts and reactive aldehydes, DyTan® is suitable for a wide range of leather applications, from garment and footwear to automotive and furniture upholstery, for today’s eco-conscious leather producers and consumers.

At the core of the DyTan® process is Archroma’s patented AVICUERO® System, which is based on novel molecules that enable more sustainable leather tanning and dyeing, developed by Archroma in cooperation with leather technology consultant Dr Leather. It enables collagen fibers in the leather to be covalently cross-linked through a simplified process at low temperatures. As a result, the system shows strong potential to save energy and water, while also reducing process time and CO2 emissions by up to 23%.*

The DyTan® process combines the AVICUERO® System with Trumpler’s bio-based fatliquors and retanning agents based on functional biopolymers produced from hydrolyzed shavings – resource-saving technology that Trumpler has been refining for 15 years.

As a global partner of Archroma, the Trumpler Group is responsible for the distribution of the AVICUERO® System worldwide. Delivering technical support and first-class customer care, Trumpler will help leather manufacturers and brands to implement sustainable tanning and draw on its comprehensive product portfolio and process knowledge of tanning, retanning and fatliquoring processes.
 

* Estimations carried out with the Archroma ONE WAY Impact Calculator show energy savings of up to 25% and reduced process time leading to a reduction in CO2 emissions of up to 23%, compared to traditional chrome tanning. They also show significant water savings compared to other metal-free tanning systems1. With the ONE WAY Impact Calculator, customers will be offered personalized calculations for their specific processes.

1 Trials made at Trumpler GmbH application lab.

Source:

Archroma

A Carbios employee loads textile onto the preparation line Photo Carbios
09.10.2023

Carbios: New textile preparation line for polyester recycling

Carbios, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, inaugurated its textile preparation line at its demonstration plant in Clermont-Ferrand.

To streamline the textile preparation phase, which is currently carried out by hand or on several lines, Carbios has developed a fully integrated and automated line that transforms textile waste from used garments or cutting scraps into raw material suitable for depolymerization with its enzymatic biorecycling process.  

The patented line integrates all preparation stages (shredding and extraction of hard points such as buttons or fasteners), and provides Carbios with a high-performance, scalable development tool. The platform will help validate the biorecycling technology for textiles at demonstration plant scale (by 2024), and provides Carbios with expertise in working with collection and sorting operators to specify the quality of textiles and the preparation steps needed to make them suitable for enzymatic recycling.

Carbios, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, inaugurated its textile preparation line at its demonstration plant in Clermont-Ferrand.

To streamline the textile preparation phase, which is currently carried out by hand or on several lines, Carbios has developed a fully integrated and automated line that transforms textile waste from used garments or cutting scraps into raw material suitable for depolymerization with its enzymatic biorecycling process.  

The patented line integrates all preparation stages (shredding and extraction of hard points such as buttons or fasteners), and provides Carbios with a high-performance, scalable development tool. The platform will help validate the biorecycling technology for textiles at demonstration plant scale (by 2024), and provides Carbios with expertise in working with collection and sorting operators to specify the quality of textiles and the preparation steps needed to make them suitable for enzymatic recycling.

More information:
Carbios enzymatic textile recycling
Source:

Carbios

(c) Kornit Digital
09.06.2023

Kornit Digital presents Enhanced Presto MAX at ITMA

Kornit Digital LTD., a leader in sustainable, on-demand digital fashionx and textile production technologies, announced the Company is taking the power of digital fashion to new heights with enhancements to the Kornit Presto MAX system for digital fabric decoration on demand.

Designed with the fashion and home décor industry in mind, the enhanced solution presents innovative capabilities for transforming virtual concepts into custom fabrics, supplementing digital efficiency and quality with white printing on colored fabrics. The new NeoPigmentTM Vivido ink achieves darker, deeper blacks and colors and establish new fashion standards with a pigment-based process. Kornit’s patented solution offers a streamlined and completely dry process for the a sustainable fabric decoration.

Kornit Digital LTD., a leader in sustainable, on-demand digital fashionx and textile production technologies, announced the Company is taking the power of digital fashion to new heights with enhancements to the Kornit Presto MAX system for digital fabric decoration on demand.

Designed with the fashion and home décor industry in mind, the enhanced solution presents innovative capabilities for transforming virtual concepts into custom fabrics, supplementing digital efficiency and quality with white printing on colored fabrics. The new NeoPigmentTM Vivido ink achieves darker, deeper blacks and colors and establish new fashion standards with a pigment-based process. Kornit’s patented solution offers a streamlined and completely dry process for the a sustainable fabric decoration.

At ITMA 2023, Kornit will also be displaying an end-to-end partner ecosystem – underscoring how integrated solutions ensure a smooth transition towards a digital infrastructure and enable long-term business growth. Highlighting the power of partnership alongside Kornit is Greentex.co, a supplier of textiles and apparel leveraging digitally enabled, eco-friendly waterless printing. The company will be showing Presto MAX with fabrics highlighting the depth of black inks. Working alongside Kornit, Zünd will demonstrate how its modular cutting systems is the foundation for an end-to-end “eco factory,” completing fashion decorated by Presto MAX with their digital cutting solutions. Pentek Textile Machinery joins to display the possibilities for inline, sustainable softening of fabrics for unique and demanding applications.

(c) INDA
10.05.2023

Four Nonwoven Industry Professionals honored with INDA Lifetime Awards

NDA, the Association of the Nonwoven Fabrics Industry, announced four recipients for the Lifetime Service Award and Lifetime Technical Achievement Awards. Jan O’Regan, Seshadri Ramkumar, Jim Robinson, and Ed Thomas are being recognized for their key contributions to the growth of the nonwovens industry and INDA.

NDA, the Association of the Nonwoven Fabrics Industry, announced four recipients for the Lifetime Service Award and Lifetime Technical Achievement Awards. Jan O’Regan, Seshadri Ramkumar, Jim Robinson, and Ed Thomas are being recognized for their key contributions to the growth of the nonwovens industry and INDA.

Jan O’Regan: INDA Lifetime Service Award
Jan O’Regan was the Director, Strategic Initiatives and Nonwovens Marketing, for Cotton Incorporated and retired in 2022. In this capacity, she uncovered new opportunities for cotton to bring value into the nonwovens industry. Her work included leading efforts in strategic planning, technical and market project management, and sharing new ideas and results with the global supply chain.
O’Regan spent over four decades in the nonwovens industry in various roles, including sales, marketing, strategic planning and business management. Market responsibilities included consumer and industrial markets on regional, national, and global teams. Over the most recent years, she applied these broad experiences to new markets for cotton in nontraditional applications.
Serving and volunteering with INDA for decades, O’Regan most recently chaired the World of Wipes® committee, which she efficiently organized to produce innovative conferences for the wipes industry.  She was a frequent speaker at INDA, INSIGHT, EDANA, and other events, and for nearly two decades was a go to source of information for cotton fibers in nonwovens and hygiene. O’Regan earned a BS in Textiles and Business, summa cum laude, from Penn State University and an MBA from New York University’s Stern School of Business.

Seshadri Ramkumar: INDA Lifetime Technical Achievement Award
Seshadri Ramkumar has over twenty-five years of experience within the technical nonwovens space, conducting industry leading research and educating nonwovens professionals at Texas Tech University (TTU).  At TTU, he established the Nonwovens Laboratory. Many of Ramkumar’s students have gone on to become technical leaders within their organizations and the nonwovens industry.
Ramkumar has numerous patent and invention disclosures, including Fibertect® toxic chemical decontamination wipes which have been recognized by the American Chemical Society as a notable success of federally supported innovation, endorsed by Lawrence Livermore National Laboratory, and adopted by multiple branches of the military.
In addition to many peer-reviewed publications, articles, and columns collectively over 500, including one on nanofibers that has been cited over 2,100 times, Ramkumar has contributed his expertise on the editorial boards of multiple fiber, nonwoven, and textile journals. Ramkumar has also organized conferences for nonwovens and textiles and actively promoted INDA and its technical training offerings for over 20 years.
He is a longtime member of the INDA Technical Advisory Board, been recognized by TAPPI, Society of Dyers and Colorists (UK), the Textile Institute (UK), and the Textile Association (INDIA), and received numerous awards from TTU.
Ramkumar holds a Bachelors of Technology (Textiles), Graduated with Distinction, and a Masters of Technology (Textiles), University First Rank in the Discipline, Anna University, and a Ph.D. (Textile Materials) from the University of Leeds, UK.

Jim Robinson: INDA Lifetime Technical Achievement Award
Jim Robinson has 33 years in the absorbent hygiene industry, including 28 years as a Technical Service Manager at BASF. He led technical teams that focused on the application of superabsorbent polymers (SAP) in hygiene products. Robinson has extensive knowledge of SAP applications, absorbent core formation, and hygiene article design, performance and testing. While with BASF, Robinson led efforts with multiple external companies to provide co-supplier solutions to hygiene converters.
Robinson’s extensive understanding of test methods and test method development led to his coordinating the establishment of fitness for use standards of adult incontinent products with the National Association for Continence and involvement in development and review of absorbent product test methods with INDA/EDANA. He is also an active contributor to INDA’s Technical Advisory Board and Hygienix organizing committee and was a contributing developer in establishing the INDA Absorbent Hygiene Training Course. Robinson has provided numerous presentations at INSIGHT, Hygienix, and RISE on performance and interactions of absorbent system components.
Recently, Robinson has been consulting and contributing to the success of multiple start-ups including those having been nominated for INDA product awards. Robinson has a BS in Chemistry from Hampden-Sydney College and an MS in Chemistry from Duke University.

Ed Thomas: INDA Lifetime Technical Achievement Award
Ed Thomas retired after 39 years, with 32 years in the nonwovens industry, and has remained active teaching the Intermediate Nonwovens Training Course for INDA and The Nonwovens Institute at North Carolina State University, as well as providing consulting services to the industry.
Thomas’ experience includes Process Engineering Manager and Plant Management, DuPont; Technical Director, Reemay; VP of Research and Operations, VP of Operations and Technology, and Global VP of Research and Development for Fiberweb/BBA Nonwovens; and Head of Research and Product Development, First Quality Nonwovens.
Thomas holds 10 U.S. nonwoven patents and he and his teams have been awarded more than 250 patents for numerous and diverse innovations that have played significant roles in the success of the nonwovens industry. These include applications for the global hygiene market, industrial nonwovens, and filtration media.
During his career, Thomas has presented several keynote addresses and papers to industry conferences, participated in North Carolina State University’s Nonwovens Cooperative Research Center (NCRC) prior to it becoming The Nonwovens Institute (NWI), INDA’s Technical Advisory Board, INDA’s Sustainability Committee, and was Vice Chair of NWI’s Industrial Advisory Board prior to retirement and remains an Emeritus member.
Thomas received his mechanical engineering degree from SUNY Buffalo.

(c) Sadia Rafique
10.05.2023

Renewcell partners with TextileGenesis™ for Circulose® Pulp-to-Retail Transparency

After participating in industry trials, Renewcell and TextileGenesis™ have the intention to establish an agreement for full pulp-to-retail traceability for Renewcell’s CIRCULOSE® recycled raw material across the entire textile supply chain, announcing it at Challenge the Fabric (Milan, Italy).

Renewcell uses a patented process to breakdown and recycle cotton and other cellulosic textile waste, such as worn-out jeans and production scraps, to create CIRCULOSE®, a biodegradable raw material that can be used to create viscose, lyocell, modal, acetate and other man-made cellulosic fibers. These regenerated fibers are then spun into yarns, woven or knitted into fabrics before being cut and sewn into new high-quality textile products.
 
With TextileGenesis™, Renewcell will be able to share real-time digital traceability with its customers and supply chain partners.

After participating in industry trials, Renewcell and TextileGenesis™ have the intention to establish an agreement for full pulp-to-retail traceability for Renewcell’s CIRCULOSE® recycled raw material across the entire textile supply chain, announcing it at Challenge the Fabric (Milan, Italy).

Renewcell uses a patented process to breakdown and recycle cotton and other cellulosic textile waste, such as worn-out jeans and production scraps, to create CIRCULOSE®, a biodegradable raw material that can be used to create viscose, lyocell, modal, acetate and other man-made cellulosic fibers. These regenerated fibers are then spun into yarns, woven or knitted into fabrics before being cut and sewn into new high-quality textile products.
 
With TextileGenesis™, Renewcell will be able to share real-time digital traceability with its customers and supply chain partners.

  • The platform uses digital tokens to ensure a secure chain of custody for all supply chain processes from raw materials to retail.
  • The company’s “fiber-forwards” traceability captures real-time shipments; its Fibercoins™ digital tokens verify point of origin and eliminate “double counting” of sustainable materials.
  • Its AI (augmented intelligence) engine verifies transactions between supply chain partners.  

 
Furthermore, TextileGenesis™ is already partnering with fiber producers including Lenzing AG, Eastman, and Birla Cellulose.

Source:

Re:NewCell AB

(c) Hypetex
26.04.2023

Hypetex: Coloured Carbon Fibre Bike Wheels launched at The Cycle Show

The first set of coloured carbon fibre bike wheels made a debut public appearance at The Cycle Show at Alexandra Palace.

Developed in partnership with leading wheel brand Parcours, the Chrono carbon fibre wheels feature a gold finish made of Hypetex’s Zlatan uni-directional material and offer a lighter and higher-performance product than the traditional painted alternative.

Hypetex is a sustainable colouring technology for advanced materials, such as carbon fibre. Born out of Formula 1 racing, its patented paint-replacing process is a key step in advancing the lightweight revolution. Combining water-based eco-resins with a sustainable curing process, Hypetex materials are made with bold, colourful aesthetics as well as technical and cost-saving benefits.

Parcours is a leading wheel brand that offers high-performance, premium wheelsets that employs the latest advancements in aerodynamic technology. The Parcours X Hypetex gold wheels were featured at The Cycle Show in London on a bespoke Handsling A1R0evo, which was nominated for the Jaw Droppers trophy - a competition for the industry’s most striking designs.

The first set of coloured carbon fibre bike wheels made a debut public appearance at The Cycle Show at Alexandra Palace.

Developed in partnership with leading wheel brand Parcours, the Chrono carbon fibre wheels feature a gold finish made of Hypetex’s Zlatan uni-directional material and offer a lighter and higher-performance product than the traditional painted alternative.

Hypetex is a sustainable colouring technology for advanced materials, such as carbon fibre. Born out of Formula 1 racing, its patented paint-replacing process is a key step in advancing the lightweight revolution. Combining water-based eco-resins with a sustainable curing process, Hypetex materials are made with bold, colourful aesthetics as well as technical and cost-saving benefits.

Parcours is a leading wheel brand that offers high-performance, premium wheelsets that employs the latest advancements in aerodynamic technology. The Parcours X Hypetex gold wheels were featured at The Cycle Show in London on a bespoke Handsling A1R0evo, which was nominated for the Jaw Droppers trophy - a competition for the industry’s most striking designs.

Source:

Hypetex

(c) nova-Institut GmbH
24.01.2023

Six nominees for„Cellulose Fibre Innovation of the Year 2023“

For the third time, nova-Institute awards the “Cellulose Fibre Innovation of the Year” award in the frame of the “Cellulose Fibres Conference 2023” (8-9 March 2023). The conference advisory board nominated six remarkable products, including cellulose fibres from textile waste, banana production waste and bacterial pulp, a novel technology for producing lyocell yarns and a hygiene product. The innovations will be put to the vote of the conference audience on the first day of the event, with the awards ceremony taking place in the evening. The innovation award “Cellulose Fibre Innovation of the Year 2023” is sponsored by GIG Karasek (AT).

For the third time, nova-Institute awards the “Cellulose Fibre Innovation of the Year” award in the frame of the “Cellulose Fibres Conference 2023” (8-9 March 2023). The conference advisory board nominated six remarkable products, including cellulose fibres from textile waste, banana production waste and bacterial pulp, a novel technology for producing lyocell yarns and a hygiene product. The innovations will be put to the vote of the conference audience on the first day of the event, with the awards ceremony taking place in the evening. The innovation award “Cellulose Fibre Innovation of the Year 2023” is sponsored by GIG Karasek (AT).

Here are the six nominees
Vybrana – The new generation banana fibre – GenCrest Bioproducts (India)

Vybrana is a Gencrest’s Sustainable Cellulosic Fibre upcycled from agrowaste. Raw fibres are extracted from the Banana Pseudo stem at the end of the plant lifecycle. The biomass waste is then treated by the Gencrest patented Fiberzyme technology. Here, cocktail enzyme formulations remove the high lignin content and other impurities and help fibre fibrillation. The company's proprietary cottonisation process provides fine, spinnable cellulose staple fibres suitable for blending with other staple fibres and can be spun on any conventional spinning systems giving yarns sustainable apparel. Vybrana is produced without the use of heavy chemicals and minimized water consumption and in a waste-free process where balance biomass is converted to bio stimulants Agrosatva and Bio Fertilizers & organic manure.

HeiQ AeoniQ™ – technology for more sustainability of textiles – HeiQ (Austria)
HeiQ AeoniQ™ is the disruptive technology and key initiative from HeiQ with the potential to change the sustainability of textiles. It is the first climate-positive continuous cellulose filament yarn, made in a proprietary manufacturing process and the first to reproduce the properties of polyester and nylon yarns in a cellulosic, biodegradable, and endlessly recyclable fibre.
HeiQ AeoniQ™ can be manufactured from different cellulosic raw materials such as pre- and post-consumer textile waste, biotech cellulose, and non-valorized agricultural waste, such as ground coffee waste or banana peels. It naturally degrades after only 12 weeks in the soil. Each ton of HeiQ AeoniQ™ saves 5 tons of CO2 emissions. The first garments made with this innovative cellulosic filament fiber were commercially launched in January 2023.

TENCEL™ LUXE – lyocell filament yarn – Lenzing (Austria)
TENCEL™ LUXE is LENZING’s new versatile lyocell yarn that offers an urgently needed sustainable filament solution for the textile and fashion industry. A possible botanical alternative for silk, long-staple cotton, and petrol-based synthetic filaments, is derived from wood grown in renewable, sustainably managed forests, and produced in an environmentally sound, closed-loop process that recycles water and reuses more than 99 % of organic solvent. Certified by The Vegan Society, it is suitable for a wide range of applications and fabric developments, from finer high fashion propositions to denim constructions, seamless and activewear innovations, and even agricultural and technical solutions.

Nullarbor™ – Nanollose & Birla Cellulose (Australia/India)
In 2020, Nanollose & Birla Cellulose started a journey to develop and commercialize tree-free lyocell from bacterial cellulose, called Nullarbor™. The name derives from the Latin “nulla arbor” which means “no trees”. Initial lab research at both ends led to a joint patent application with the patent “production of high-tenacity lyocell fibres made from bacterial cellulose”.
Nullarbor is significantly stronger than lyocell made from wood-based pulp; even adding small amounts of bacterial cellulose to wood pulp increases the fibre toughness. In 2022, the first pilot batch of 260kg was produced with 20 % bacterial pulp share. Several high-quality fabrics and garments were produced with this fibre. The collaboration between Nanollose & Birla Cellulose now focuses on increasing the production scale and amount of bacterial pulp in the fibre.

Circulose® – makes fashion circular – Renewcell (Sweden)
Circulose® made by Renewcell is a branded dissolving pulp made from 100 % textile waste, like worn-out clothes and production scraps. It provides a unique material for fashion that is 100 % recycled, recyclable, biodegradable, and of virgin-equivalent quality. It is used by fibre producers to make staple fibre or filaments like viscose, lyocell, modal, acetate or other types of man-made cellulosic fibres. In 2022, Renewcell, opened the world’s first textile-to-textile chemical recycling plant in Sundsvall, Sweden – Renewcell 1. The plant will eventually reach 120,000 tons of annual capacity.

Sparkle sustainable sanitary pads – Sparkle Innovations (United States)
Globally, around 300 billion period products are discarded every year, resulting in millions of tons of non-biodegradable waste. Since most conventional sanitary pads contain up to 90 % plastics, they do not biodegrade for around 600 years. Sparkle has designed sustainable, plastic-free, biodegradable and compostable Sparkle sanitary pads. From product to packaging, they are made up of around 90 % cellulose-based materials with top sheet, absorbent core, release paper, wrapping paper and packaging made of cellulose-based fibres. Whether Sparkle pads end up in a compost pit, are incinerated or end up in a landfill, they are a more sustainable alternative compared to conventional pads that contain large amounts of plastics, complex petro-chemical based ingredients and artificial fragrances. When tested according to ISO 14855-1 by a leading independent lab in Europe, Sparkle pads reached over 90 % absolute biodegradation within 90 days in commercial composting conditions.

(c) Anthropics Technology
02.12.2022

Zyler wins Grosvenor Social Shopping Experience Challenge

Grosvenor, an international retail development and investment company, has launched a search for new technologies that promote innovation and create a social customer experience. A major aim of the challenge was to drive retail recovery in a post-pandemic world where bricks and mortar stores saw footfall slump. Zyler’s try-on solution impressed the judges and the companies will launch the technology with Grosvenor’s retail tenants.

Zyler’s patented technology allows customers to see themselves in any outfit with a head and shoulders photo and basic measurements virtually. For retailers, the try-on experience can be embedded into a website or existing app with only a small snippet of code needed.

Grosvenor, an international retail development and investment company, has launched a search for new technologies that promote innovation and create a social customer experience. A major aim of the challenge was to drive retail recovery in a post-pandemic world where bricks and mortar stores saw footfall slump. Zyler’s try-on solution impressed the judges and the companies will launch the technology with Grosvenor’s retail tenants.

Zyler’s patented technology allows customers to see themselves in any outfit with a head and shoulders photo and basic measurements virtually. For retailers, the try-on experience can be embedded into a website or existing app with only a small snippet of code needed.

Source:

Anthropics Technology

(c) Madewell / ISKO
25.10.2022

Madewell launches denim with ISKO fabrics that are bluesign® APPROVED

Madewell has created a denim style using bluesign® APPROVED ISKO fabrics, prioritizing sustainability in the production of a pair of women’s denim jeans. The jeans are made with ISKO’s fabrics that are dyed and finished with bluesign® APPROVED chemical products and produced in a resource-conserving way with a minimum impact on people and the environment. ISKO’s Reform™ technology, one of the denim ingredient brand’s most successful patented stretch innovations, has obtained bluesign® APPROVED status, which is a unique challenge for a denim mill.

The bluesign® APPROVED label is awarded only to the bluesign® SYSTEM PARTNER manufacturers that meet the strict safety and environmental requirements of the bluesign® CRITERIA, such as ensuring production sites are safe for workers, reducing CO2e emissions and water consumption, as well as avoiding hazardous substances in production among many others.

Madewell has created a denim style using bluesign® APPROVED ISKO fabrics, prioritizing sustainability in the production of a pair of women’s denim jeans. The jeans are made with ISKO’s fabrics that are dyed and finished with bluesign® APPROVED chemical products and produced in a resource-conserving way with a minimum impact on people and the environment. ISKO’s Reform™ technology, one of the denim ingredient brand’s most successful patented stretch innovations, has obtained bluesign® APPROVED status, which is a unique challenge for a denim mill.

The bluesign® APPROVED label is awarded only to the bluesign® SYSTEM PARTNER manufacturers that meet the strict safety and environmental requirements of the bluesign® CRITERIA, such as ensuring production sites are safe for workers, reducing CO2e emissions and water consumption, as well as avoiding hazardous substances in production among many others.

More information:
Isko bluesign® Madewell Denim
Source:

ISKO

Photo: Unsplash, Sheraz Shaikh
24.10.2022

C.L.A.S.S. presents its new partner Orange Fiber

Founded in Catania, Italy in 2014, Orange Fiber has developed a process to transform what remains from the industrial pressing process of citrus fruits for juice into a unique textile material. The innovative process has been patented in Italy and extended to major citrus juice producing countries around the world.

Recently, Orange Fiber and the Lenzing Group, a leading manufacturer of textile fibers specialties from wood, started a collaboration to produce the first lyocell fiber branded TENCEL™ composed of cellulose from orange and from wood. Produced using the same closed-loop process as the TENCEL™ Lyocell fibers, the TENCEL™ Limited Edition x Orange Fiber contributes to promote sustainability in the textiles. The name of the fiber is LENZING Lyocell LE orange, abbreviated to OF in the yarn and in the fabric composition.

Founded in Catania, Italy in 2014, Orange Fiber has developed a process to transform what remains from the industrial pressing process of citrus fruits for juice into a unique textile material. The innovative process has been patented in Italy and extended to major citrus juice producing countries around the world.

Recently, Orange Fiber and the Lenzing Group, a leading manufacturer of textile fibers specialties from wood, started a collaboration to produce the first lyocell fiber branded TENCEL™ composed of cellulose from orange and from wood. Produced using the same closed-loop process as the TENCEL™ Lyocell fibers, the TENCEL™ Limited Edition x Orange Fiber contributes to promote sustainability in the textiles. The name of the fiber is LENZING Lyocell LE orange, abbreviated to OF in the yarn and in the fabric composition.

Source:

C.L.A.S.S.

(c) BTMA by AWOL Media
08.09.2022

Shelton Vision presents new fabric inspection technique

A new fabric inspection technique for accurately detecting the most subtle of defects on patterned fabrics during high speed production has been developed by BTMA member Shelton Vision, of Leicester, UK.

The patent-pending system has been integrated into the company’s WebSpector platform and validated through factory trials on a purpose-built full scale in-house demonstration system with sophisticated fabric transport capabilities. As a result, a first system has already been ordered by a manufacturer of both plain and patterned fabrics, including camouflage, in Colombia. This follows the successful conclusion of a 21-month Innovate UK project in which techniques for the resolution of complex pattern deformations were developed by machine vision and computer scientists in the company, backed up by the machine vision and robotics department at Loughborough University.

A new fabric inspection technique for accurately detecting the most subtle of defects on patterned fabrics during high speed production has been developed by BTMA member Shelton Vision, of Leicester, UK.

The patent-pending system has been integrated into the company’s WebSpector platform and validated through factory trials on a purpose-built full scale in-house demonstration system with sophisticated fabric transport capabilities. As a result, a first system has already been ordered by a manufacturer of both plain and patterned fabrics, including camouflage, in Colombia. This follows the successful conclusion of a 21-month Innovate UK project in which techniques for the resolution of complex pattern deformations were developed by machine vision and computer scientists in the company, backed up by the machine vision and robotics department at Loughborough University.

Restrictions
Traditional methods for defect detection rely on human inspection which is ineffective, with detection rates under 65%, while the Shelton WebSpector machine vision system offers a sophisticated platform for automated defect detection of over 97%, but until now has been restricted to plain textiles.

While pattern matching and neural network approaches have previously been tried for patterned textiles, they have failed to provide a practical solution due to the extreme complexity associated with pattern matching on deformable substrates like textiles, as well as the time required to train a neural network for each pattern type.

Challenges
The challenge is that fabrics are not rigid and can be creased or stretched and are also subject to local distortion,” says Shelton Vision Managing Director and CEO Mark Shelton. “As a result, inspection without the technique we have developed, would lead to thousands of false positives. Our sophisticated pattern inspection software techniques ensure a clean image, allowing the detection of faults on fabrics running at speeds of up to a hundred metres a minute.”

The full system consists of:

  • A camera and lighting system for optimum image capture at high speed and associated image processing hardware.
  • Self-training software utilising statistical analysis to automate the system configuration for new textile products.
  • An advanced suite of defect detection algorithms for the detection of all textile defect types.
  • An AI-driven defect classification system which learns and automates defect naming in real time, as well as a real time defect grading capability based on client decision rules.
  • A system for recording and retrieving complete roll map images for subsequent review and quality control.

The generation of textile roll maps with complete defect data allows for an optimised textile cut plan, improved downstream processing and quality assurance.

Source:

BTMA by AWOL Media

(c) AVANTI/Hologenix
28.07.2022

AVANTI introduces dog beds powered by CELLIANT®

Hologenix’s CELLIANT® infrared technology, an ingredient in textiles across many categories including bedding, is now offered in a new line of sustainable dog beds. The first performance fabric product from AVANTI, RESPOND is a wellness collection that promotes good health not only for pets but also for the planet. It is made from 100% recycled PET and uses patented CELLIANT technology for unmatched performance.

CELLIANT transforms the body’s heat into full-spectrum infrared energy. This energy is reflected back to the body, making it possible for the tissue and muscle to absorb it, promoting local circulation and tissue oxygenation. This technology helps keep the body dry and at the appropriate temperature. CELLIANT has been demonstrated to enhance energy, endurance, strength, stamina and comfort as well as promote faster recovery and more restful sleep. The RESPOND beds’ orthopedic memory foam filler adds an extra layer of comfort and wellness.

Hologenix’s CELLIANT® infrared technology, an ingredient in textiles across many categories including bedding, is now offered in a new line of sustainable dog beds. The first performance fabric product from AVANTI, RESPOND is a wellness collection that promotes good health not only for pets but also for the planet. It is made from 100% recycled PET and uses patented CELLIANT technology for unmatched performance.

CELLIANT transforms the body’s heat into full-spectrum infrared energy. This energy is reflected back to the body, making it possible for the tissue and muscle to absorb it, promoting local circulation and tissue oxygenation. This technology helps keep the body dry and at the appropriate temperature. CELLIANT has been demonstrated to enhance energy, endurance, strength, stamina and comfort as well as promote faster recovery and more restful sleep. The RESPOND beds’ orthopedic memory foam filler adds an extra layer of comfort and wellness.

Introduced at Interzoo in Germany in May, RESPOND dog bedding was the result of determination by AVANTI leaders Raghav and Devika Modi to become champions of pet wellness and performance products while also aligning with the New Delhi, India-based company’s focus on sustainability.  

Ideal for ailing and senior pets, RESPOND beds are made from GRS-certified 100% recycled polyester CELLIANT yarns and orthopedic memory foam and have natural latex-coated bases for extra skid-resistance. AVANTI pet bed covers are removable and washable.

RESPOND dog beds are offered in nine SKUs, three different shapes and three colorways of each shape: grey, blue/grey and green/grey in shades that are associated with wellness.

More information:
Hologenix Celliant AVANTI Bedding
Source:

Hologenix, LLC

(c) INDA
06.07.2022

INDA: Highlights of the World of Wipes® International Conference

More than 450 participants from 18 countries made in-person connections and gained innovative insights into the segment’s future at the World of Wipes® (WOW) International Conference at the Marriott Marquis in Chicago.

INDA, the Association of the Nonwoven Fabrics Industry, reported strong attendance and activity at its 16th WOW conference, June 27-30. Highlights included a conference, award presentations, a separate 1.5-day WIPES Academy training course, and a new mentorship program.  

WOW speakers focused on the future of the $17 billion wipes sector amid changing consumer trends, supply chain complexities, sustainable packaging demands, and medical disinfection challenges. Program sessions included Circular and Sustainable Wipes, Supply Chain Challenges, Sustainable Substrates, Disinfection Concerns, Sustainable Packaging Trends, and Flushability Developments.

Tony Fragnito welcomed participants in his new role as INDA President for the first time since succeeding Dave Rousse, now President Emeritus and advisor.

More than 450 participants from 18 countries made in-person connections and gained innovative insights into the segment’s future at the World of Wipes® (WOW) International Conference at the Marriott Marquis in Chicago.

INDA, the Association of the Nonwoven Fabrics Industry, reported strong attendance and activity at its 16th WOW conference, June 27-30. Highlights included a conference, award presentations, a separate 1.5-day WIPES Academy training course, and a new mentorship program.  

WOW speakers focused on the future of the $17 billion wipes sector amid changing consumer trends, supply chain complexities, sustainable packaging demands, and medical disinfection challenges. Program sessions included Circular and Sustainable Wipes, Supply Chain Challenges, Sustainable Substrates, Disinfection Concerns, Sustainable Packaging Trends, and Flushability Developments.

Tony Fragnito welcomed participants in his new role as INDA President for the first time since succeeding Dave Rousse, now President Emeritus and advisor.

WOW highlights included the announcement of Nice’ N CLEAN® SecureFLUSH™ Technology Flushable Wipes from Nice-Pak as the winner of this year’s World of Wipes Innovation Award® for their flushable wipes made of 100 percent cellulose nonwoven. A specialty “lock and key” design of plant-based fibers and formula leverages patent-pending technology to ensure responsible care of plumbing and wastewater.

Other highlights included the presentation of the 2022 INDA Lifetime Technical Award to Richard Knowlson, Principal, RPK Consulting. The award honors an individual with a long-established nonwovens career that advance technology and the commercial success of the North American nonwovens industry. Knowlson pioneered the use of powder super absorbents in airlaid forming systems creating new period product designs for ultra-thin products. He co-founded Airformed Composites, co-invented the first commercial multi-bonded airlaid products in North America that were used in characters for Sesame Street and served in leadership positions with Rayonier, Ciba/Huntsman and Jacob Holm.

Archroma
04.07.2022

Perapret® AIR, new air purification textile technology

Archroma launched Perapret® AIR liq, a new light-activated air purification technology for all kinds of fabrics. The new innovation was presented at the Techtextil last month.

The mineral-based Perapret® AIR liq eliminates air pollutants and airborne smells by imitating the natural process of photocatalysis under normal day and artificial light sources.

The chemistry usually used in such applications is nano-sized TiO2 (dioxide titanium), which attack every organic matter, including the textile fiber, and not only pollutants.

Perapret® AIR liq is produced using a patented Core Shell technology that partially surrounds the TiO2 molecules, solving the issue of fiber damage, and at the same time still allowing the photocatalytic process to work efficiently.

Therefore, the innovative Core Shell technology behind Perapret® AIR liq makes it possible to use the capabilities of nano-sized TiO2 also on organic based substances such as cotton, polyester, polyamide, viscose and any additional fiber and its blends.

In addition, the treatment is highly durable, as the product doesn’t self-consume and retains its performance over time.

Archroma launched Perapret® AIR liq, a new light-activated air purification technology for all kinds of fabrics. The new innovation was presented at the Techtextil last month.

The mineral-based Perapret® AIR liq eliminates air pollutants and airborne smells by imitating the natural process of photocatalysis under normal day and artificial light sources.

The chemistry usually used in such applications is nano-sized TiO2 (dioxide titanium), which attack every organic matter, including the textile fiber, and not only pollutants.

Perapret® AIR liq is produced using a patented Core Shell technology that partially surrounds the TiO2 molecules, solving the issue of fiber damage, and at the same time still allowing the photocatalytic process to work efficiently.

Therefore, the innovative Core Shell technology behind Perapret® AIR liq makes it possible to use the capabilities of nano-sized TiO2 also on organic based substances such as cotton, polyester, polyamide, viscose and any additional fiber and its blends.

In addition, the treatment is highly durable, as the product doesn’t self-consume and retains its performance over time.

Perapret® AIR liq is ideally suited for indoor applications, such as curtains, textile wall coverings, as well as cars and other automotive interiors, allowing to reduce air pollutants and airborne smells and thus improving overall air quality*.

The technology is at the core of CLEAN AIR, a new system that combines Perapret® AIR liq with other recent innovations such as Smartrepel® Hydro TS liq for PFC-free** durable water repellence, and Sanitized® T27-22 liq antimicrobial agent.

More information:
air purification Archroma
Source:

Archroma

(c) Autoneum Management AG
27.06.2022

Autoneum: Sound-insulating technologies for electric drives

Catering to the acoustic requirements of electric vehicles, Autoneum has extended its concepts for noise-reducing engine encapsulations to new applications related to electric drives. Hybrid-Acoustics PET and the foam-based alternatives Hybrid-Acoustics FLEX and Fit FLEX ensure optimum noise protection in e-cars and thus improve driving comfort. All three technologies are characterized by a high acoustic performance tailored to specific customer needs and zero waste production.

Disturbing noises such as the high-frequency sounds of e-motors and other electric devices or the whining noise of the gearbox are posing new acoustic challenges for vehicle manufacturers worldwide. Anticipating the increasing demand for sound-reducing components in both the front and the rear of e-cars early on, Autoneum has expanded its technologies for noise protection in the engine bay to new tailor-made applications for electric vehicles.

Catering to the acoustic requirements of electric vehicles, Autoneum has extended its concepts for noise-reducing engine encapsulations to new applications related to electric drives. Hybrid-Acoustics PET and the foam-based alternatives Hybrid-Acoustics FLEX and Fit FLEX ensure optimum noise protection in e-cars and thus improve driving comfort. All three technologies are characterized by a high acoustic performance tailored to specific customer needs and zero waste production.

Disturbing noises such as the high-frequency sounds of e-motors and other electric devices or the whining noise of the gearbox are posing new acoustic challenges for vehicle manufacturers worldwide. Anticipating the increasing demand for sound-reducing components in both the front and the rear of e-cars early on, Autoneum has expanded its technologies for noise protection in the engine bay to new tailor-made applications for electric vehicles.

With the fibrous technology Hybrid-Acoustics PET and the two foam alternatives Hybrid-Acoustics FLEX and Fit FLEX, the Company offers three standardized technologies that reduce noise directly at the source, thereby improving driver comfort. All three technologies are produced waste-free and their adaptive capacity to different sizes and shapes allows for a broad spectrum of uses in electric vehicles: from e-motor encapsulations to the reduction of noise and vibration of inverters, gearbox, pumps and compressors. By offering both fibrous and foam-based variants, Autoneum is able to flexibly cater to individual customer needs and preferences with regard to material, acoustic concept, sustainability and costs.

In terms of sustainable noise protection in the engine bay, Autoneum’s patented innovation Hybrid-
Acoustics PET sets the tone: it is made of 100 percent PET with up to 50 percent recycled fibers; cut-offs in production are reclaimed, processed and reused and the material can be fully recycled at the end of product life. The unique textile technology, which is part of the Company’s sustainability label Autoneum Pure, is particularly suited to attenuating high-frequency sounds of the electric drive unit and offers the optimum balance of absorption and insulation. Moreover, components made of Hybrid-Acoustics PET are up to 40 percent lighter compared to standard insulators.

To accommodate the differing preferences of vehicle manufacturers, Autoneum has complemented its lightweight textile technology with two foam-based alternatives. Since the foam is injected in both technologies, no waste is generated during production either. Hybrid-Acoustics FLEX is based on the same acoustic concept as Hybrid-Acoustics PET, but the decoupler is made of foam instead of felt. Autoneum’s Fit FLEX, on the other hand, combines the foam decoupler with an injection molded heavy layer. Thanks to the high geometrical adaptability of foam to even complex shapes, both technologies offer outstanding acoustic performance in the insulation of e-motors and other noise sources in electric vehicles. Furthermore, the absorbing or insulating acoustic quality of the foam can be flexibly tuned to specific customer needs.

Source:

Autoneum Management AG

(c) Officina39
18.05.2022

Officina39 with Trustainable™ collection FW 23 at Denim Première Vision

The Italian company presented its newest innovations and synergies, among the introduction of SMART O3, a new Ozone Booster improving the bleaching on indigo, and the educational experience Circular Explorations: Recipe for Change, in collaboration with Adriana Galijasevic’s Cocircular Lab at Denim Première Vision.

The Trustainable™ collection FW 23 presents the SMART 03
For Officina39, “Trustainable” is a term that expresses the company’s approach based on honesty, transparency and social responsibility: this attitude once again characterizes the technologies that have given shape to the Trustainable™ collection FW 23.

The latest technological addition to the line is represented by the new Ozone Booster SMART 03,
which assures more final bluish indigo shades, activating the reaction of Ozone on indigo without any strong oxidizing agent. Better results, less aggressive bleaching.

The Italian company presented its newest innovations and synergies, among the introduction of SMART O3, a new Ozone Booster improving the bleaching on indigo, and the educational experience Circular Explorations: Recipe for Change, in collaboration with Adriana Galijasevic’s Cocircular Lab at Denim Première Vision.

The Trustainable™ collection FW 23 presents the SMART 03
For Officina39, “Trustainable” is a term that expresses the company’s approach based on honesty, transparency and social responsibility: this attitude once again characterizes the technologies that have given shape to the Trustainable™ collection FW 23.

The latest technological addition to the line is represented by the new Ozone Booster SMART 03,
which assures more final bluish indigo shades, activating the reaction of Ozone on indigo without any strong oxidizing agent. Better results, less aggressive bleaching.

Less water, plus sustainability, empowered result
The new collection also marks the debut of Aqualess Fade, a technology that recreates the bleaching effect of chlorine on fabrics, a waterless special compound for the discoloration of denim on indigo/black garments which reduces resource consumption and environmental impact. This newest innovation completes and integrates Aqualess Mission, a combination of technologies that allows garment laundry processes to reduce 75% of the water use.

Officina39 and Adriana Galijasevic join forces
Circular Explorations: Recipe for Change is the collaborative and educational project developed by Officina39 and Adriana Galijasevic’s Cocircular Lab, showcasing the use of waste as a resource and prolonging the life of the garment through color. Several brands (C.P. Company, Tommy for Life/PVH Corp., Organic Basics, Asics, Lenzing and Camo) donated overstock garments as well as second-grade production or damaged, unsold pieces to be updated with newly developed applications made with Officina39’s Recycrom™, patented dyestuffs range made from textile waste.

Source:

Officina39 / Menabò Group srl