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31.10.2022

Cinte Techtextil China announces exhibitors for December Edition

From 7 – 9 December 2022, Cinte Techtextil China will welcome visitors sourcing solutions for 12 application areas of technical textiles and nonwovens at the National Exhibition and Convention Center in Shanghai.

A number of countries and regions are represented at the fair’s International Zone, with companies from Austria, Belgium, France, Germany, Hong Kong, Italy, the Netherlands, Spain, Sweden, Switzerland, Taiwan, and the US. Standout international exhibitors include:

From 7 – 9 December 2022, Cinte Techtextil China will welcome visitors sourcing solutions for 12 application areas of technical textiles and nonwovens at the National Exhibition and Convention Center in Shanghai.

A number of countries and regions are represented at the fair’s International Zone, with companies from Austria, Belgium, France, Germany, Hong Kong, Italy, the Netherlands, Spain, Sweden, Switzerland, Taiwan, and the US. Standout international exhibitors include:

  • TESTEX, an international, independent Swiss institute which specialises in the testing and certification of textile and leather products. The organisation is a founding member and official representative of the OEKO-TEX® Association, and will present their certification services at the fairground.
  • Cotton Council International (CCI) is a non-profit trade association that promotes US cotton fibre and manufactured cotton products, with their COTTON USA™ Mark. At this year’s fair they will showcase cotton spunlace fabric, wipes, kitchen tissues, facial masks, cosmetic removers, and more, with their products particularly applicable to Agrotech, Clothtech, Medtech, and Sporttech.
  • Graf + Cie AG is a subsidiary of the Rieter Group, and a leading supplier of clothing for carding and combs for combing machines in the short- and long-staple spinning industry. This year, the Swiss company will showcase stationary flats, and metallic card clothing for roller cards.
  • At the returning German Pavilion, buyers can source sought-after technical textiles and nonwovens that are renowned for their quality. The companies and expertise on display at this pavilion are endorsed by the Federal Republic of Germany, with several exhibitors highlighted below:
  • Brückner Textile Technologies GmbH & Co KG has developed machinery for the textile industry since 1949. Today, the company offers complete line systems for the dry finishing of both woven and knitted fabric, as well as for technical textiles, glass fibres, and floor coverings.
  • Perlon (Zhejiang) Co Ltd is part of a global group of companies that specialises in the manufacture of synthetic filaments, with factories in China, Germany, Poland, and the US. Their products have a diverse range of potential uses, largely categorised in the Agrotech and Indutech application areas.
  • IBENA Textilwerke GmbH produces various functional fabrics for Protech. At the fair, the company will be showcasing insulative, flame retardant (FR) textiles for firefighting and search & rescue services. Developed with DuPont™ aramid material, their FR properties will not diminish after washing or repeated use.

This year’s fair also sees the return of the Taiwan Zone. With support from the Taiwan Nonwoven Fabrics Industry Association, the area will showcase a range of industry leading nonwoven products and services, by brands such as KNH Enterprise, Nan Liu Enterprise, Unique Pretty Ind, and Web-Pro Corporation.

As a world’s largest manufacturer of technical textiles, China is home to a vast array of companies responsible for innovative products. Some domestic exhibitors to look out for are:

  • CTA Hi-Textiles Co Ltd, a high-tech enterprise controlled by China Textile Science Research Institute. In recent years, the company has developed several new textile composite materials, and their products are widely used in sectors such as national defence, policing and public security, medical protection, and engineering and manufacturing.
  • Sateri is one of the world’s largest producers of viscose fibre, with an annual capacity of 1.8 million metric tonnes. At their mills, they make yarn and fibre products applicable to sectors such as beauty, hygiene and personal care, medical, wipes, and protective wear.

To help international buyers stay connected with the Chinese market, Match Plus, the fair’s online business matching platform, will support foreign buyers achieve their sourcing goals despite travel limitations. Further information on Match Plus will be available at a later stage.

The fair’s product categories cover 12 application areas, which comprehensively span a full range of potential uses in modern technical textiles and nonwovens. These categories also cover the entire industry, from upstream technology and raw materials providers to finished fabrics, chemicals and other solutions.

(c) Interzero
21.10.2022

Fraunhofer UMSICHT: Studie zu umweltschonenden Kreislauflösungen

In der aktuellen Studie »resources SAVED by recycling« analysierte Fraunhofer UMSICHT für den Kreislaufdienstleister Interzero, welche klimabedingten Umweltschäden sich mit Kreislauflösungen vermeiden lassen und wie hoch die daraus resultierenden Einsparpotenziale sind. Das Ergebnis: Im Jahr 2021 konnte Interzero eine Million Treibhausgasemissionen einsparen und 12,5 Millionen Tonnen Primärressourcen schonen und damit Kosten in Höhe von 199 Millionen Euro für klimabedingte Umweltschäden vermeiden. Weitere Details der Studie präsentiert Interzero auf der K 2022.

Fraunhofer UMSICHT untersucht jährlich für Interzero, welche Effekte seine Kreislauflösungen auf die Umwelt und die Gesellschaft haben. Als Experte für Ökobilanzen und Critical Reviews liefert das Forschungsinstitut strategische Entscheidungsgrundlagen für nachhaltiges Handeln. Die Schwerpunkte liegt dabei auf den Branchen Chemie, Kunststoffe und der Circular Economy.

In der aktuellen Studie »resources SAVED by recycling« analysierte Fraunhofer UMSICHT für den Kreislaufdienstleister Interzero, welche klimabedingten Umweltschäden sich mit Kreislauflösungen vermeiden lassen und wie hoch die daraus resultierenden Einsparpotenziale sind. Das Ergebnis: Im Jahr 2021 konnte Interzero eine Million Treibhausgasemissionen einsparen und 12,5 Millionen Tonnen Primärressourcen schonen und damit Kosten in Höhe von 199 Millionen Euro für klimabedingte Umweltschäden vermeiden. Weitere Details der Studie präsentiert Interzero auf der K 2022.

Fraunhofer UMSICHT untersucht jährlich für Interzero, welche Effekte seine Kreislauflösungen auf die Umwelt und die Gesellschaft haben. Als Experte für Ökobilanzen und Critical Reviews liefert das Forschungsinstitut strategische Entscheidungsgrundlagen für nachhaltiges Handeln. Die Schwerpunkte liegt dabei auf den Branchen Chemie, Kunststoffe und der Circular Economy.

Die aktuellen Ergebnisse der Studie »resources SAVED by recycling« belegen die positive Wirkung der Kreislauflösungen erneut. Interzero hat 2021 die Umwelt erheblich entlastet. Durch die Kreislaufführung von insgesamt 1,8 Millionen Tonnen Wertstoffen konnte Interzero im Jahr 2021 mit seinen Kunden rund 12,5 Millionen Tonnen Primärressourcen einsparen. Zudem konnte der Ausstoß von rund einer Million Tonnen Treibhausgasen vermieden werden. Ohne den Einsatz von Interzero wären das Kosten für klimabedingte Umweltschäden in Höhe von 199 Millionen Euro (gemäß Umweltkostenermittlung des Umweltbundesamtes). Die aktuelle Einsparung an Primärressourcen entspricht dem Gewicht von 5.227 ausgewachsenen Mammutbäumen.

Die genauen Ergebnisse der aktuellen Studie stellt Interzero auf der »K 2022« vom 19. bis 26. Oktober in Düsseldorf vor. Auf der Kunststoffmesse präsentieren die Expertinnen und Experten von Interzero Plastics Recycling innovative Technologien und Services für das Kunststoffrecycling und erläutern die Umweltvorteile des Recyclings gegenüber der Primärproduktion. So haben die Forschenden des Fraunhofer UMSICHT errechnet: Der Einsatz des von Interzero produzierten Recyclingkunststoffs Procyclen spart beispielsweise im Vergleich zu Primärkunststoffen aus Rohöl 56 Prozent klimaschädliche Emissionen ein.

(c) CHT Germany GmbH
19.10.2022

CHT Group launches new brand for jeans and garment treatment

The ecological and social conditions in the production of textiles are coming to the fore and into the consciousness of industry and end customers. With the new LAB102 brand, the "Jeans & Garment" team of the CHT Group to offer its global denim customers sustainable chemical solutions and technologies in the future.

Where does the name "LAB102 - Blue veins of CHT" come from?
LAB was chosen not only because the English word for laboratory fits perfectly with a chemical company, but also because it stands for innovation, development, and discovery. The digits 102 in the name refer to the house number of CHT's corporate headquarters in Tübingen.
The slogan "Blue veins of CHT" maintains the connection to the name CHT which is well-known in the industry. Moreover, the denim or jeans industry is traditionally and historically indigo - thus blue.

The ecological and social conditions in the production of textiles are coming to the fore and into the consciousness of industry and end customers. With the new LAB102 brand, the "Jeans & Garment" team of the CHT Group to offer its global denim customers sustainable chemical solutions and technologies in the future.

Where does the name "LAB102 - Blue veins of CHT" come from?
LAB was chosen not only because the English word for laboratory fits perfectly with a chemical company, but also because it stands for innovation, development, and discovery. The digits 102 in the name refer to the house number of CHT's corporate headquarters in Tübingen.
The slogan "Blue veins of CHT" maintains the connection to the name CHT which is well-known in the industry. Moreover, the denim or jeans industry is traditionally and historically indigo - thus blue.

Focus on sustainability
LAB102 focuses not only on chemistry, but also on technology. Fogging, laser, and ozone technologies are innovations that currently enable new approaches in jeans and garment treatment and are at a high ecological level. Their use can lead to savings in water and energy. The use of chemicals can also be reduced if processes are optimized and adapted to the new requirements. To this end, the CHT Group's "Jeans & Garment" team works with the leading machine manufacturers on new developments.

Source:

CHT Germany GmbH

(c) Fraunhofer UMSICHT/Mike Henning
Prof. Christian Doetsch (l.) and Prof. Manfred Renner (r.)
09.08.2022

Fraunhofer UMSICHT: New institute directors

Prof. Manfred Renner and Prof. Christian Doetsch will take joint leadership of the Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT from August 2022. As renowned scientists, they have most recently shaped the direction of the institute as heads of the Products division and Energy division respectively, and will now follow in the footsteps of Prof. Eckhard Weidner, who has entered retirement.

This is the first time in its history that Fraunhofer UMSICHT is led by two directors. Both institute directors began their professional careers at the institute and from August they will have a joint hand in its future.

Prof. Manfred Renner and Prof. Christian Doetsch will take joint leadership of the Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT from August 2022. As renowned scientists, they have most recently shaped the direction of the institute as heads of the Products division and Energy division respectively, and will now follow in the footsteps of Prof. Eckhard Weidner, who has entered retirement.

This is the first time in its history that Fraunhofer UMSICHT is led by two directors. Both institute directors began their professional careers at the institute and from August they will have a joint hand in its future.

Prof. Manfred Renner holds a doctorate in mechanical engineering, specializing in process engineering and business development. Since 2006, he has held various roles at Fraunhofer UMSICHT, most recently heading up the Products division and overseeing its 126 employees and its budget of 14.8 million euros. He has set international standards through his award-winning research into a free of water tanning leather tanning process that uses compressed carbon dioxide. With the development of innovative aerogel-based insulation materials for building facades, he has made a significant contribution to environmentally friendly, circular applications in the construction industry and initiated a number of industrial projects. One of the notable technological breakthroughs made by his team was the development of a new type of fire-resistant glass, which can withstand even the most extreme heat. This won his development team the Joseph von Fraunhofer Prize in October 2020.

Alongside becoming institute director, Prof. Renner will also take over the leadership of the Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE in August 2022. In this role, he will represent the Fraunhofer-Gesellschaft on a national and international level with regard to the transformation of industry and society to a circular economy. In addition, he will start his professorship in Responsible Process Engineering at the Faculty of Mechanical Engineering of the Ruhr-Universität Bochum. Over the course of his professorship, he will shape the systemic development of the circular economy at a corporate, regional and European level.

Prof. Christian Doetsch has worked in energy research for more than 25 years, spending most of this time at Fraunhofer UMSICHT. As head of the Energy division, he managed a team of around 145 employees and was responsible for a budget of approximately 10.4 million euros. His technological focal points are energy storage, Power-to-X technologies including hydrogen electrolysis and chemical conversion, catalysts, and energy system modeling and optimization. His overarching aim is the integration of renewable energies into a cross-sectoral, resilient energy system.

In 2015, Doetsch co-founded the award-winning start-up Volterion GmbH & Co. KG, which develops redox flow batteries. He attained high visibility on a global scale by redesigning stacks, one of the main components of redox flow batteries, an achievement for which he, his team and Volterion representatives were awarded the Joseph von Fraunhofer Prize in May 2021. The energy expert also acts as deputy spokesperson for the Fraunhofer Energy Alliance and task manager for the energy storage group at the International Energy Agency (IEA). He also co-founded the “Open District Hub e. V.,” an association that promotes the energy transition in the sector by means of energy systems integration.

Since January 2020, he has been Professor of Cross Energy Systems at the Faculty of Mechanical Engineering of the Ruhr-Universität Bochum. In this role, he conducts research into ecological evaluation and resilience of cross-sectoral energy systems.

Source:

Fraunhofer UMSICHT

(c) Fraunhofer IAP
Faserverstärktes Monomaterialkomposit aus PLA
28.07.2022

Fraunhofer CCPE: Technische Produktinnovationen für eine zirkuläre Kunststoffwirtschaft

Ziel des Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE ist es, die Wertschöpfungskette Kunststoff zirkulär zu gestalten. Sechs Fraunhofer-Institute erforschen am Beispiel Kunststoff, wie der Wandel von einer linearen zur einer zirkulären Kunststoffwirtschaft gelingen kann. Auf der ACHEMA in Frankfurt, der internationalen Messe für die Prozessindustrie, stellt das Fraunhofer CCPE vom 22. bis zum 26. August zwei technische Produktinnovationen und ein Bewertungstool für Unternehmen der Circular Economy vor.

Seit 2018 erforschen die sechs Fraunhofer-Institute — IAP, ICT, IML, LBF, IVV und UMSICHT – wie eine nachhaltige Transformation einer gesamten Wertschöpfungskette unter Prinzipien der Circular Economy erfolgen kann. Durch einen Multi-Stakeholder-Ansatz können FuE-Kompetenzen gebündelt werden, um Produkte zirkulär zu gestalten, passende Geschäftsmodelle zu entwickeln und End-of-Life Verluste bei Kunststoffabfällen zu reduzieren. Auf der ACHEMA werden die folgenden Projekte ausgestellt:

Ziel des Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE ist es, die Wertschöpfungskette Kunststoff zirkulär zu gestalten. Sechs Fraunhofer-Institute erforschen am Beispiel Kunststoff, wie der Wandel von einer linearen zur einer zirkulären Kunststoffwirtschaft gelingen kann. Auf der ACHEMA in Frankfurt, der internationalen Messe für die Prozessindustrie, stellt das Fraunhofer CCPE vom 22. bis zum 26. August zwei technische Produktinnovationen und ein Bewertungstool für Unternehmen der Circular Economy vor.

Seit 2018 erforschen die sechs Fraunhofer-Institute — IAP, ICT, IML, LBF, IVV und UMSICHT – wie eine nachhaltige Transformation einer gesamten Wertschöpfungskette unter Prinzipien der Circular Economy erfolgen kann. Durch einen Multi-Stakeholder-Ansatz können FuE-Kompetenzen gebündelt werden, um Produkte zirkulär zu gestalten, passende Geschäftsmodelle zu entwickeln und End-of-Life Verluste bei Kunststoffabfällen zu reduzieren. Auf der ACHEMA werden die folgenden Projekte ausgestellt:

  • Faserverstärktes Monomaterialkomposit aus PLA
    Biobasierte Kunststoffe werden zunehmend für technisch anspruchsvolle Einsatzbereiche z.B. in der Automobil- und Textilindustrie nachgefragt. Zwei zentrale Anforderungen sind dabei ihre Stabilität und ihre Recyclingfähigkeit. Forschende der Fraunhofer-Institute IAP und ICT entwickelten innovative PLA-basierte Monomaterial-Komposite (Organobleche), die technische Applikationen adressieren und insbesondere mit Hinblick auf die Rezyklisierbarkeit einen Beitrag zur Umsetzung der Sustainable Development Goals der UN leisten können.
  • Optisch und mechanisch verbesserte Folienrezyklate
    Bei der Herstellung von Folien zählt neben den mechanischen Eigenschaften besonders der visuelle Eindruck. Es dürfen keine Fehlstellen in Form von Stippen, Fischaugen oder Abrissen auftreten, die insbesondere bei Verwendung von Rezyklaten zu Problemen führen können. Die direkte Verwendung eines Folienregranulats führt jedoch häufig zu vielen Abrissen während der Folienherstellung, die zudem fatale Auswirkungen auf die mechanischen Materialeigenschaften haben. Durch die Zugabe einer geeigneten Additivformulierung konnte die Folienqualität nun signifikant verbessert werden.

Ist ein Produkt reif für die Circular Economy?
Weiterhin präsentieren die Forschenden nun auf der ACHEMA das webbasierte Tool CRL®, mit dem Unternehmen den Reifegrad von Produkten oder Produktsystemen im Hinblick auf die Circular Economy selbst bewerten können. Es prüft, inwieweit ein Produkt die Strategien der Kreislaufwirtschaft in den Bereichen Produktdesign, Produktdienstleistungssystem, End-of-Life-Management und Kreislaufwirtschaft bereits berücksichtigt und wo noch Verbesserungspotenzial besteht.

Source:

Fraunhofer-Institut für Umwelt-, Sicherheits- und Energietechnik UMSICHT

04.07.2022

Call for Papers »BIO-raffiniert XII« 2023

The process industry today still relies primarily on fossil raw materials. A transformation towards regenerative resources, in particular renewable raw materials, is under way. In addition, circular economy, recycling and resilience play important roles in existing and new value chains. The congress "BIO-raffiniert XII", March 7 and 8, 2023 at the Fraunhofer UMSICHT in Oberhausen, takes up these topics and focuses on innovative technologies, sustainability strategies as well as logistics and supply chains. Its thematic focal points will be: Bioeconomy - Strategy and Implementation, Transformation Pathways and New Value Chains. Regional as well as international developments will be addressed.

The institute invites interested experts to present their innovations, concepts, or industrial practice solutions around the bioeconomy transformation in the context of short presentations in English (10 min presentation). The deadline for proposals outlined in a one-page abstract is: Tuesday, September 16, 2022.

Further information online.

The process industry today still relies primarily on fossil raw materials. A transformation towards regenerative resources, in particular renewable raw materials, is under way. In addition, circular economy, recycling and resilience play important roles in existing and new value chains. The congress "BIO-raffiniert XII", March 7 and 8, 2023 at the Fraunhofer UMSICHT in Oberhausen, takes up these topics and focuses on innovative technologies, sustainability strategies as well as logistics and supply chains. Its thematic focal points will be: Bioeconomy - Strategy and Implementation, Transformation Pathways and New Value Chains. Regional as well as international developments will be addressed.

The institute invites interested experts to present their innovations, concepts, or industrial practice solutions around the bioeconomy transformation in the context of short presentations in English (10 min presentation). The deadline for proposals outlined in a one-page abstract is: Tuesday, September 16, 2022.

Further information online.

Source:

Fraunhofer-Institut für Umwelt-, Sicherheits- und Energietechnik UMSICHT

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) Fraunhofer UMSICHT
01.07.2022

Fraunhofer UMSICHT: Materialien auf Pilzbasis

Weg von fossilen Rohstoffen und deren Knappheit – hin zu bisher ungenutzten Rohstoffen aus Pflanzen und Pilzen. Um diesen Wandel zu nachwachsenden Roststoffen zu unterstützen, hat das Fraunhofer UMSICHT im Projekt »FungiFacturing« Pilzwerkstoffe untersucht, die aus Reststoffen wie Stroh oder Holzspäne bestehen. Zum Abschluss des Vorhabens zeigen die Forschenden, dass sie neben einem Schallabsorber auf Pilzbasis auch weitere biobasierte Lösungen für die Bauindustrie entwickelt haben.

Ein Werkstoff aus pflanzlichen Rohstoffen und Pilzmyzel als Double-Porosity-Schallabsorber - so lautete das Ziel des Projektes FungiFacturing von August 2019 bis Juli 2021. »Pilzwerkstoffe stellen eine biobasierte Alternative zu konventionellen Materialien wie Polyesterschäumen oder Verbundstoffen auf Mineralbasis dar«, erklärt Julia Krayer, Biodesignerin am Fraunhofer UMSICHT. »Der Schallabsorber besteht aus Pilzen und pflanzlichen Reststoffen. Sägespäne, Treber aus der Bierproduktion oder Stroh nutzen wir als Nährboden, um die Pilze zu züchten und nutzen zu können.«

Weg von fossilen Rohstoffen und deren Knappheit – hin zu bisher ungenutzten Rohstoffen aus Pflanzen und Pilzen. Um diesen Wandel zu nachwachsenden Roststoffen zu unterstützen, hat das Fraunhofer UMSICHT im Projekt »FungiFacturing« Pilzwerkstoffe untersucht, die aus Reststoffen wie Stroh oder Holzspäne bestehen. Zum Abschluss des Vorhabens zeigen die Forschenden, dass sie neben einem Schallabsorber auf Pilzbasis auch weitere biobasierte Lösungen für die Bauindustrie entwickelt haben.

Ein Werkstoff aus pflanzlichen Rohstoffen und Pilzmyzel als Double-Porosity-Schallabsorber - so lautete das Ziel des Projektes FungiFacturing von August 2019 bis Juli 2021. »Pilzwerkstoffe stellen eine biobasierte Alternative zu konventionellen Materialien wie Polyesterschäumen oder Verbundstoffen auf Mineralbasis dar«, erklärt Julia Krayer, Biodesignerin am Fraunhofer UMSICHT. »Der Schallabsorber besteht aus Pilzen und pflanzlichen Reststoffen. Sägespäne, Treber aus der Bierproduktion oder Stroh nutzen wir als Nährboden, um die Pilze zu züchten und nutzen zu können.«

Die richtige Rezeptur für Paste und 3D-Druck
Gestartet haben die Forschenden des Fraunhofer UMSICHT das Projekt mit der Entwicklung einer pilzbasierten Paste, die mittels eines 3D-Druckverfahrens in die gewünschte Form gebracht werden konnten. Parallel dazu haben sie die Bewachsbarkeit der Paste untersucht. »Wir haben dabei festgestellt, dass der Pilz erfolgreich auf dem Treber wächst«, erläutert Lina Vieres, Biologin am Fraunhofer UMSICHT. »Allerdings behindert der Treber den Druckvorgang durch die enthaltenen Spelzen. Daher verzichten wir auf ihn als Substratzugabe und haben weitere Rezepturen mit Stroh und Holzspänen getestet.«

Rezeptur und Grundsubstrat haben gleichzeitig auch Auswirkungen auf die akustische Leistung des Materials. Hier stellte sich beispielsweise heraus, dass sich die sehr feinen Fasern für den Druck sehr vorteilhaft zeigen. Für die Akustik sind die Fasern aber eher hinderlich. Ebenso behinderten sie das Pilzwachstum, da dieser auf einen Gasaustausch in dem Material angewiesen ist. Mithilfe einer genauen Abstimmung zwischen Paste, Pilzwachstum, Eigenschaften und 3D-Druck haben die Forschenden eine Lösung gefunden: eine durchwachsbare, druckbare Paste.

Mehr als ein Schallabsorber
Die im Projekt FungiFacturing getesteten Werkstoffe besitzen weiterhin vielversprechende Eigenschaften in Bezug auf Druckfestigkeit, Wärmedämmung und Brandverhalten. »Mit diesen Eigenschaften eigenen sich Pilzwerkstoffe für weit mehr als nur Schallabsorber«, betont Krayer. Die Werkstoffe seien beispielsweise druckstabil und besitzen gute wärmedämmende Eigenschaften, die mit Holzfaserdämmplatten vergleichbar sind. In Brandversuchen sind keine offenen Flammen aufgetreten, und der Pilzwerkstoff lässt sich leicht am Anwendungsort anbringen. Pilzwerkstoffe können also auch in der Praxis leicht angewendet werden z.B. auch als Wärmedämmstoffe.

Weiterentwicklung des FungiFacturing-Ansatzes
Die Projektergebnisse zeigen, dass sich der entwickelte Prozess auf viele verschiedene Anwendungen und Werkstoffe übertragen lässt. Neben 3D-Druck sind weitere Herstellungsprozesse sowohl für pilzbasierte, als auch rein pflanzliche Pastenwerkstoffe denkbar. Das Fraunhofer UMSICHT prüft dazu nun verschiedene Produktionsverfahren und deren Ergebnisse.

Source:

Fraunhofer UMSICHT

21.06.2022

First comprehensive sustainable chemistry index for the textile industry

  • Bluesign announces partnership with SCTI

Bluesign has teamed up with Sustainable Chemistry for the Textile Industry (SCTITM) to develop a sustainable chemistry index that shall provide a standard communication guide for chemical suppliers, manufacturers, brands, and NGOs.

The first-of-its-kind index is intended to inspire change in the industry by making it easier for stakeholders to assess the sustainability of textile chemical products against the highest standards while safeguarding the intellectual property (IP) of participating chemical companies. IP protection is critical to ensuring ongoing investment in sustainable solutions.

Chemical products, such as dyes and textile auxiliaries, are often characterized with the attribute of “free of a certain substance”. Rather than prioritizing ingredients only, the bluesign® SYSTEM already goes beyond this. The chemicals and the production site where they were created must meet certain criteria regarding environmental performance, occupational health and safety, and product stewardship performance to be bluesign® APPROVED.

  • Bluesign announces partnership with SCTI

Bluesign has teamed up with Sustainable Chemistry for the Textile Industry (SCTITM) to develop a sustainable chemistry index that shall provide a standard communication guide for chemical suppliers, manufacturers, brands, and NGOs.

The first-of-its-kind index is intended to inspire change in the industry by making it easier for stakeholders to assess the sustainability of textile chemical products against the highest standards while safeguarding the intellectual property (IP) of participating chemical companies. IP protection is critical to ensuring ongoing investment in sustainable solutions.

Chemical products, such as dyes and textile auxiliaries, are often characterized with the attribute of “free of a certain substance”. Rather than prioritizing ingredients only, the bluesign® SYSTEM already goes beyond this. The chemicals and the production site where they were created must meet certain criteria regarding environmental performance, occupational health and safety, and product stewardship performance to be bluesign® APPROVED.

The sustainable chemistry index will be reserved for substances that offer transparency on a number of additional indicators including the chemical’s circularity viability, greenhouse gas emissions during production, and the source of the raw materials. The sustainable chemistry index will also require that the downstream use of the chemical is optimized, meaning, for example, that it promotes resource saving in textile finishing. Additionally, excellent corporate governance paired with well-defined environmental and social (ESG) goals will be a pre-condition.

SCTITM is an alliance of leading chemical companies that strives to empower the textile and leather industries to apply sustainable, state-of-the-art chemistry solutions that protect factory workers, local communities, consumers and the environment.

Bluesign will implement and manage the sustainable chemistry index as an independent authority with a holistic approach to helping companies throughout the textile supply chain improve their sustainability performance.

14.06.2022

Members of TMAS at Texprocess, Techtextil and Heimtextil in Frankfurt

ACG Nyström, a member of TMAS, the Swedish textile machinery association, will demonstrate the automated Talon 75 multi-ply cutter at the forthcoming Texprocess exhibition in Frankfurt, Germany, from June 21-24.

The Talon 75 is capable of cutting up to 7.5cm of compressed materials common to the sewn products and technical textiles industries. The machine is engineered to automatically pull stacked material plies from the spreading table to a modular, bristle-block conveyor bed for reciprocating knife cutting of patterns. Precise system operations with state-of-the-art motion control communications offer an industrial-strength solution.

Industry 4.0 ready
Eastman’s Talon multi-ply cutting systems are Industry 4.0 ready and equipped with the latest in condition based predictive maintenance technology. Their robust design utilises motors and amplifiers that automatically detect changes in critical components to notify operators well in advance of maintenance prompts. Also on display in Frankfurt will be Eastman’s ES-960, a material spreader capable of fast and easy spreading heights up to 20cm.

ACG Nyström, a member of TMAS, the Swedish textile machinery association, will demonstrate the automated Talon 75 multi-ply cutter at the forthcoming Texprocess exhibition in Frankfurt, Germany, from June 21-24.

The Talon 75 is capable of cutting up to 7.5cm of compressed materials common to the sewn products and technical textiles industries. The machine is engineered to automatically pull stacked material plies from the spreading table to a modular, bristle-block conveyor bed for reciprocating knife cutting of patterns. Precise system operations with state-of-the-art motion control communications offer an industrial-strength solution.

Industry 4.0 ready
Eastman’s Talon multi-ply cutting systems are Industry 4.0 ready and equipped with the latest in condition based predictive maintenance technology. Their robust design utilises motors and amplifiers that automatically detect changes in critical components to notify operators well in advance of maintenance prompts. Also on display in Frankfurt will be Eastman’s ES-960, a material spreader capable of fast and easy spreading heights up to 20cm.

Members of TMAS will be showcasing a range of solutions aligning with the growing trend for more localised and automated textile manufacturing at the forthcoming Texprocess, Techtextil and Heimtextil shows which are all taking place in Frankfurt from June 21-24.

Source:

TMAS / AWOL Media

(c) SHIMA SEIKI MFG., LTD.
14.06.2022

SHIMA SEIKI to exhibit at Techtextil 2022 in Frankfurt

SHIMA SEIKI MFG., LTD. of Wakayama, Japan, along with its Italian subsidiary SHIMA SEIKI ITALIA S.p.A., will be participating in the Techtextil exhibition in Frankfurt, Germany from the 21st till the 24th of June 2022.

SHIMA SEIKI MFG., LTD. of Wakayama, Japan, along with its Italian subsidiary SHIMA SEIKI ITALIA S.p.A., will be participating in the Techtextil exhibition in Frankfurt, Germany from the 21st till the 24th of June 2022.

On display will be SHIMA SEIKI’s latest innovation in flat knitting technology as applied to the field of technical textiles—a prototype weft knitting machine capable of multi-axial yarn insertion. Fabrics produced on this machine use inlay technique for the production of hybrid textiles that combine the stretch characteristics of knitted fabrics with the stability of woven textiles, suited to various technical applications. To this, warp yarn is inserted to further expand its capability to produce 3D-shaped carbon fiber and composite preforms directly on the machine. This is made possible by taking advantage of the fact that flat knitting as a textile production method is capable of producing end products that are shaped-to-form and with added thickness. Compared to current methods of preform production, savings in post-processing time, material, labor and associated costs are immense, realizing efficient and sustainable production. SHIMA SEIKI’s own yarn unwinding technology is also used for optimum yarn feed and tension for use with technical yarns that are otherwise difficult to knit. Industrial textile samples knit on the multi-axial machine will also be available for examination on-site.

SHIMA SEIKI's SDS®-ONE APEX4 3D design system will be available for demonstrations as well. Of particular interest should be its ultra-realistic simulation capability that realizes Virtual Sampling. When countless variations must be evaluated before arriving at a final design, virtual product samples can be used to streamline the decision-making process by minimizing the enormous amount of time, cost and material normally associated with producing actual samples for each variation. When approved, the same data can be converted to machine data for immediate knitting, significantly reducing lead times.

Photo: Archroma
09.06.2022

Archroma at Techtextil 2022 with latest innovations and system solutions

Archroma will be at Techtextil 2022 in Frankfurt am Main, Germany, from 21 to 24 June 2022, to launch its latest innovations and system solutions aimed to help textile manufacturers with optimized sustainability, productivity and value creation in their markets.

Archroma will present 9 new solution systems and 3 innovations, and will hold 2 booth events.

3 innovation highlights

  • PFC-free* Smartrepel® Hydro SR, a new solution developed for the repellence of water-based soil;
  • Biocide-free OX20, a new odor-neutralizing technology newly launched by our partner SANITIZED AG;
  • Perapret® AIR, a new mineral finishing technology for air purification is activated by natural and artificial light sources and can be applied on all fabrics

9 new solution systems
Archroma introduced its first ever solution systems at the Techtextil 2019 edition, and since then has developed more than 30 systems for technical textile and nonwoven applications.

Archroma will be at Techtextil 2022 in Frankfurt am Main, Germany, from 21 to 24 June 2022, to launch its latest innovations and system solutions aimed to help textile manufacturers with optimized sustainability, productivity and value creation in their markets.

Archroma will present 9 new solution systems and 3 innovations, and will hold 2 booth events.

3 innovation highlights

  • PFC-free* Smartrepel® Hydro SR, a new solution developed for the repellence of water-based soil;
  • Biocide-free OX20, a new odor-neutralizing technology newly launched by our partner SANITIZED AG;
  • Perapret® AIR, a new mineral finishing technology for air purification is activated by natural and artificial light sources and can be applied on all fabrics

9 new solution systems
Archroma introduced its first ever solution systems at the Techtextil 2019 edition, and since then has developed more than 30 systems for technical textile and nonwoven applications.

  • CLEAN AIR, a mineral air purification system that stays put on all kinds of fabrics and is activated by artificial and natural light, for as long as there is light; ➔ based on the new Perapret® AIR;
  • CONSCIOUSLY DEEP, a metal-free one-step scouring and dyeing system for medium to very dark colored nylons that stay deep and bright day after day, and are good for you and the planet;
  • EARTH SOFT, a biomass-based and vegan softening system that is suitable for all kind of fibers and makes you comfortable in your own skin;
  • NATURE BOUND, a compostable binder system for food filtration materials that protect you and the planet;
  • ODOR CONTROL 2.0, a system for odor-free sportswear where permastink cannot build up on your favorite clothes, that’s applicable on polyester, cotton and nylon; ➔ based on the new OX20;
  • RAG N’ROLL, a compostable binder system for nonwoven cleaning rags, that protect you and the planet;
  • SAFE SEATS NextGen, a PFC-free* and halogen-free* modular surface treatment system for safer and cleaner seating materials, ➔ based on the new Smartrepel® Hydro SR;
  • SWEET DREAMS, a metal and particle free* system that redefines protection for mattress ticking fabrics, with long-lasting hygiene and outstanding softness, that protects you and the environment;
  • TAKE A BREATH, an enhanced filtration system that keeps your air clean and fresh for longer putting health first and your competition behind;

2 booth events
A WORLD WITHOUT ODORS, FIGHT OR FLIGHT?
Innovation highlight: Biocide-free OX20 odor management solution by SANITIZED AG

Speakers:

  • Nuria Estape, Panel Moderator, Head of Marketing & Promotion, Brand & Performance Textile Specialties, Archroma
  • Georg Lang, Head of CC Finishing, Archroma
  • Stefan Müller, Head of BU Textiles Additives Sanitized
  • Yann Ribourdouille , Global registration expert Product Stewardship, Archroma

A WORLD WITHOUT PFC, DREAM OR REALITY?
Innovation highlight: PFC-free* Smartrepel® Hydro SR

Speakers

  • Nuria Estape, Panel Moderator, Head of Marketing & Promotion, Brand & Performance Textile Specialties, Archroma
  • Roland Borufka, Head of Competence Center Repellents, Archroma
  • Wolfgang Knaup, Head of R&D repellents, Archroma
  • Yann Ribourdouille, Global registration expert Product Stewardship, Archroma
Source:

Archroma / EMG

07.06.2022

ITMC presents date and speakers for its 8th edition

The ITMC 2022 conference, which will take place at the BAnQ from September 19 to 21, 2022, is aimed at attendees from various sectors of the textile industry. Its interdisciplinary approach is the key to maximizing the potential and development of textile materials and tools for various applications. The objective of the conference is to explore new ideas, effective solutions and collaborative partnerships for business growth by creating synergy between designers, manufacturers, suppliers, students and end users from all sectors and fully exploiting this potential.

The main topics are: Composites and textile reinforcement - Sustainable Production & Ecotextiles - Smart and functional textiles - Nanotechnology & Advanced Technical Textiles - Comfort & Protective Textiles - Medical Textiles - Digital Tools & Mass Customization

Keynote speakers :

The ITMC 2022 conference, which will take place at the BAnQ from September 19 to 21, 2022, is aimed at attendees from various sectors of the textile industry. Its interdisciplinary approach is the key to maximizing the potential and development of textile materials and tools for various applications. The objective of the conference is to explore new ideas, effective solutions and collaborative partnerships for business growth by creating synergy between designers, manufacturers, suppliers, students and end users from all sectors and fully exploiting this potential.

The main topics are: Composites and textile reinforcement - Sustainable Production & Ecotextiles - Smart and functional textiles - Nanotechnology & Advanced Technical Textiles - Comfort & Protective Textiles - Medical Textiles - Digital Tools & Mass Customization

Keynote speakers :

  • Omar Cherkaoui, ESITH : how ESITH was able to support the operators of the Moroccan textile sector during the covid-19 crisis
  • Tracy Toulouse, TT : the impact and legacy of our clothing is to identify us as a nation
  • Prof. Raul Fangueiro, University of Minho: fiber-based materials: from nano to macro scale
  • Pierre-Alexandre Fournier, Exoskin: the role of smart textiles in the future of health
  • KyoungOk Kim, Shinshu University: Patternmaking for attractive clothing for mass customization
  • Marie O’Mahony, Consultant, Royal College of Art (RCA): smart materials & systems: has embracing uncertainty become vital to commercialization?
  • Xianyi Zeng, Ensait: intelligent garments for online monitoring of human health and well-being
  • Corinne Farace, Techtera: The collaborative approach: a major stake in meeting the challenges of tomorrow
(c) MWIDE NRW
02.06.2022

Fraunhofer UMSICHT: Marktfähige Power-to-X-Technologien entwickeln

Im Rahmen eines neuen Projektes des Spitzenclusters Industrielle Innovationen (SPIN) entsteht eine offene Versuchsplattform für die Entwicklung von Power-to-X-Technologien. Untersucht werden dabei Möglichkeiten, CO2-haltige Abgasströme zunächst in ein Synthesegas aus Kohlenmonoxid und Wasserstoff und dann in verschiedene Produkte für die Chemie-, Kraftstoff- und Kunststoffindustrie umzuwandeln. Die nordrhein-westfälische Landesregierung fördert dieses Vorhaben mit 5,3 Mio. Euro.

Im Rahmen eines neuen Projektes des Spitzenclusters Industrielle Innovationen (SPIN) entsteht eine offene Versuchsplattform für die Entwicklung von Power-to-X-Technologien. Untersucht werden dabei Möglichkeiten, CO2-haltige Abgasströme zunächst in ein Synthesegas aus Kohlenmonoxid und Wasserstoff und dann in verschiedene Produkte für die Chemie-, Kraftstoff- und Kunststoffindustrie umzuwandeln. Die nordrhein-westfälische Landesregierung fördert dieses Vorhaben mit 5,3 Mio. Euro.

Die Federführung des Projektes »PtX-Plattform« liegt bei der Mitsubishi Power Europe GmbH. Gemeinsam mit SPIN sowie den Projektpartnern – dem Fraunhofer UMSICHT, dem Lehrstuhl für Umweltverfahrenstechnik und Anlagentechnik (LUAT) der Universität Duisburg-Essen sowie Evonik Industries – will das Unternehmen marktfähige Lösungen für die effiziente Nutzung überschüssigen Stroms entwickeln. Ein Schwerpunkt werden dabei Wasserstoff- sowie Carbon-Capture-Use-and-Storage-Technologien sein: CCU und CCS. Entsprechende containerbasierte Anlagen entstehen auf dem Gelände des LUAT. Sie umfassen u.a. CO2-Abtrennung und katalytische Co-Elektrolyse und stellen alle notwendigen Energie- und Stoffströme zur Verfügung.

Elektrolytische Herstellung von Synthesegas
Das Fraunhofer UMSICHT erarbeitet im Zuge des Projektes u.a. Grundlagen, um in einem Power-to-X-Reaktor die elektrolytische Herstellung von Synthesegas im Labormaßstab zu demonstrieren. »Dazu skalieren wir neuartige Gasdiffusionselektroden und setzen sie für die Aufgabe in angepassten Reaktoren ein«, erklärt Prof. Dr. Ulf-Peter Apfel, Leiter der Abteilung Elektrosynthese. »Weitere Komponenten der Elektrolysezellen werden so aufeinander abgestimmt, dass Verlustleistungen und Gasleckagen minimiert sowie die Zusammensetzung des Synthesegases möglichst kontrolliert variiert werden können.« Neben der Erstellung der erforderlichen Komponenten führt das Institut auch die Entwicklung, Errichtung und Inbetriebnahme eines skalierten Elektrolysesystems (inkl. der Teststandperipherie) durch und integriert alles in die Containerumgebung der Plattform.

Charakterisierung von Katalysatoren
Darüber hinaus testen die Wissenschaftlerinnen und Wissenschaftler des Fraunhofer UMSICHT Katalysator-Systeme, die neu von Evonik entwickelt worden sind und bei der Synthese von Alkoholen zum Einsatz kommen. »Wir schauen uns Umsatz, Menge und Konzentration sowohl der auftretenden Produkte als auch der Nebenprodukte an und haben dabei vor allem die Lebensdauer des Katalysators im Blick«, so Prof. Apfel. »Auf Basis unserer Testergebnisse nimmt Evonik dann weitere Optimierungen der Katalysatoren sowie deren Scale-up in Angriff.« Das beste System wird dann für den Pilotreaktor ausgewählt.

Die Bedeutung des Projektes hob Prof. Dr. Andreas Pinkwart bei der Übergabe des Förderbescheids hervor. »Die aktuellen Ereignisse zeigen einmal mehr, wie wichtig eine sichere und unabhängige Energieversorgung ist«, betonte der NRW-Minister für Wirtschaft, Innovation, Digitalisierung und Energie. »Eine zukunfts- und wettbewerbsfähige Industrie benötigt große Energiemengen und klimaneutral erzeugte Rohstoffe für ihre Produktionsprozesse. Power-to-X kann nicht nur dazu beitragen, dass wir unsere ehrgeizigen Klimaschutzziele erreichen, sondern auch zu einer unabhängigen Versorgung mit synthetischen Kraftstoffen und Chemikalien für unsere Industrie und unser Energiesystem der Zukunft.«

Source:

Fraunhofer-Institut für Umwelt-, Sicherheits- und Energietechnik UMSICHT

31.05.2022

Fraunhofer UMSICHT: Grüner Wasserstoff aus einer Hand

Von der Komponentenentwicklung für Elektrolyse und Brennstoffzellen über die Erstellung von Konzepten zu Speicherung und Transport bis zur Implementierung sektorenübergreifender Ansätze: Forschende des Fraunhofer UMSICHT liefern aus einer Hand Lösungen zur Bereitstellung und Nutzung von Wasserstoff. Wer Einblicke in Kompetenzen und Dienstleistungen des Instituts gewinnen möchte ist herzlich zu Gesprächen auf der E-world 2022 eingeladen. Das Fraunhofer UMSICHT ist am Gemeinschaftsstand des Landes Nordrhein-Westfalen zu finden.

Von der Komponentenentwicklung für Elektrolyse und Brennstoffzellen über die Erstellung von Konzepten zu Speicherung und Transport bis zur Implementierung sektorenübergreifender Ansätze: Forschende des Fraunhofer UMSICHT liefern aus einer Hand Lösungen zur Bereitstellung und Nutzung von Wasserstoff. Wer Einblicke in Kompetenzen und Dienstleistungen des Instituts gewinnen möchte ist herzlich zu Gesprächen auf der E-world 2022 eingeladen. Das Fraunhofer UMSICHT ist am Gemeinschaftsstand des Landes Nordrhein-Westfalen zu finden.

Dort stellen Wissenschaftler*innen u.a. das Konzept eines ohmschen Reaktors vor. Seine Aufgabe: die dezentrale und flexible Bereitstellung von Wasserstoff durch die Zersetzung von Ammoniak. Das Besondere: Die Forschenden bringen die Wärme nicht von außen ein, sondern – mittels Strom – direkt in den speziell hierfür entwickelten Katalysator. »Dadurch können wir bei deutlich geringeren Temperaturen arbeiten und haben nicht diese große Überschuss-Energie. Konkret versprechen wir uns von diesem Verfahren, dass es die Effizienz bereits existierender Prozesse um wenigstens 20 Prozent verbessert«, so Dr. Andreas Menne, Leiter der Abteilung Low Carbon Technologies.

Darüber hinaus haben Messebesucher*innen Gelegenheit, den DYNAFLEX®-Check kennenzulernen. »Der DYNAFLEX®-Check ist ein Tool zur Selbsteinschätzung, das wir gerade entwickeln. Mit seiner Hilfe können kleine und mittelständische Unternehmen aus dem produzierenden Gewerbe ihre Bedarfe und Herausforderungen im Bereich Sektorenkopplung identifizieren«, erklärt Dr. Esther Stahl, Leiterin der Abteilung Strategische Projekte.

Dass und wie sich solche Ansätze durch cross-industrielle Netzwerke realisieren lassen, ist ebenfalls Thema auf der E-world: UMSICHT-Forschende stellen Projekte und Initiativen vor, bei denen auf regionaler Ebene dezentrale systemische Lösungen erarbeitet und umgesetzt werden. Beispielsweise das Leistungszentrum DYNAFLEX®, welches flexible Lösungen für die Energie- und Rohstoffwende entwickelt sowie in Wirtschaft und Gesellschaft transferiert.

Source:

Fraunhofer UMSICHT

(c) Messe Frankfurt (HK) Ltd.
17.05.2022

Cinte Techtextil China to address personal hygiene and sustainability demands

With global consumers becoming more conscious about personal hygiene and environmental protection, exhibitors at Cinte Techtexil China will spotlight materials and technologies for products that respond to these trends. The fair will probe into the associated growth opportunities as the country is one of the leading markets for nonwovens and technical textiles. The event will be held from 6 – 8 September at the Shanghai New International Expo Centre.

The technical textiles and nonwovens industries, the latter notably, are significantly expanding amid the pandemic. A recent forecast[1] predicts that the global polypropylene nonwoven fabric market will continue to rise at a CAGR of 6.7%, reaching USD 39.23 billion by 2028. The anticipated growth is bolstered by demands in end-use industries such as sanitation, medical, automotive and more. In 2020, Asia Pacific was named the largest regional market in the world and is expected to grow significantly over the forecasted period.

With global consumers becoming more conscious about personal hygiene and environmental protection, exhibitors at Cinte Techtexil China will spotlight materials and technologies for products that respond to these trends. The fair will probe into the associated growth opportunities as the country is one of the leading markets for nonwovens and technical textiles. The event will be held from 6 – 8 September at the Shanghai New International Expo Centre.

The technical textiles and nonwovens industries, the latter notably, are significantly expanding amid the pandemic. A recent forecast[1] predicts that the global polypropylene nonwoven fabric market will continue to rise at a CAGR of 6.7%, reaching USD 39.23 billion by 2028. The anticipated growth is bolstered by demands in end-use industries such as sanitation, medical, automotive and more. In 2020, Asia Pacific was named the largest regional market in the world and is expected to grow significantly over the forecasted period.

The prediction reaffirms the growth prospects of nonwovens. In this regard, industry players expressed much optimism about associated future opportunities during Cinte Techtextil China last year. “The field of nonwovens is poised for a positive growth as the awareness of personal hygiene and pandemic prevention sustains in the domestic market,” commented Mr James Gao, Head of Marketing and Textile Technologies, Uster Technologies (China) Co Ltd. He added: “We decided to join the fair and showcase our new launches as we remain confident in the future development of the industry, especially since China is dominating the global scene.”

Going green is the way forward
Turning to yarns and fibres, the sector is shifting to greener and smarter production that echoes the trend towards sustainability that is gaining considerable traction across the globe. Meanwhile in China, this movement was observed by many exhibitors at the 2021 edition, including Mr Roberto Galante, Plant Manager of FMMG Technical Textiles (Suzhou) Co Ltd, the Chinese subsidiary of the Fil Man Made Group. He mentioned: “The market is paying more attention to environmental protection, and we receive enquiries about special yarns for this every day. We focus on technical yarns for filtration as well as anti-bacterial properties, which are very important for the environment. The potential here in China is incredible and this is a big opportunity for everybody.”

Cinte Techtextil China’s product categories cover 12 application areas, which comprehensively span across a full range of potential uses in modern technical textiles and nonwovens. These categories also cover the entire industry, from upstream technology and raw material providers to finished fabrics, chemicals and other solutions. This scope of product groups and application areas ensures that the fair is an effective business platform for the entire industry.

(c) DiloGroup
13.05.2022

DiloGroup at Techtextil with nonwovens technology

The DiloGroup informs at Techtextil in Frankfurt (June 21 – 24, 2022) about new developments aimed at improving production technologies with a focus on needlefelts.

It becomes more evident that the textile industry comes into the focus of regulatory authorities who push respecting sustainability principles and who initiate a new body of laws. Hence all industrial sectors are requested to achieve savings in material and energy. The textile machine building, of course, plays an important role by seizing this initiative and offering solutions for fibre pulp recycling and reduction of energy, water and ancillaries. DiloGroup has made big efforts to meet these challenges together with a circle of partner companies. In this regard focal points of the development work are:

The DiloGroup informs at Techtextil in Frankfurt (June 21 – 24, 2022) about new developments aimed at improving production technologies with a focus on needlefelts.

It becomes more evident that the textile industry comes into the focus of regulatory authorities who push respecting sustainability principles and who initiate a new body of laws. Hence all industrial sectors are requested to achieve savings in material and energy. The textile machine building, of course, plays an important role by seizing this initiative and offering solutions for fibre pulp recycling and reduction of energy, water and ancillaries. DiloGroup has made big efforts to meet these challenges together with a circle of partner companies. In this regard focal points of the development work are:

  1. Intense Needling
    Needling per se is a mechanical production method with a high energy efficiency. For this reason, the development efforts of DiloGroup aim at producing nonwovens by “intense needling” instead of water entangling, even for light nonwovens made of fine fibres for the medical and hygiene sector with an area weight of 30 – 100 g/m². This would result in a reduction of the environmentally relevant production costs; per annum to about 1/3 to 1/5 of current.
    Despite the prospective advantages of the mechanical intense needling method over the hydrodynamical, water entanglement is at the moment the most important production method for low area weights and highest production capacity and is also offered by the DiloGroup as general contractor in cooperation with partner companies.
  2. “Fibre Pulp Recycling”
    Fibrous material in nonwovens and particularly used clothes can be successfully recycled, if staple length can be conserved in the tearing process. In the classical tearing process, staple lengths are dramatically reduced and therefore these fibres can only be used as base material for inferior uses in thermal or acoustic insulation or in protective textiles, transportation or protective covers etc.
    When recycling textile waste in the context of the collection of used clothes, the so called “filament-saving” tearing using special tearing machines and methods must be used to produce fibres with longer staple lengths which can be fed to a nonwoven installation. Hence product characteristics can be better specified and controlled.
  3. Additive nonwoven production
    The additive production method of the “3D-Lofter” is especially suited for automotive parts with differently distributed masses; but there may also be potential for increasing uses in the sector of apparel and shoe production.
  4. “IsoFeed”-card feeding
    In the field of card feeding, the “IsoFeed” method offers great potential for a more homogeneous card feeding at the same time reducing the variation in cross-machine fibre mass distribution and thus the fibre consumption while conserving the end product quality.
Source:

DiloGroup

(c) Oerlikon
The new Staple Fiber Technology Center in Neumünster
13.05.2022

Oerlikon Polymer Processing Solutions at Techtextil 2022

  • Sustainable infrastructure solutions, road safety and health protection

At this year’s Techtextil, Oerlikon Polymer Processing Solutions will be presenting the trade audience with new applications, special processes and sustainable solutions focusing on the production of industrial textiles. Among other things, the company will be showcasing new technology for charging nonwovens that sets new standards with regards to quality and efficiency. Between June 21 and 24, the discussions will be concentrating on airbags, seat belts, tire cord, geotextiles, filter nonwovens and their diverse applications.

  • Sustainable infrastructure solutions, road safety and health protection

At this year’s Techtextil, Oerlikon Polymer Processing Solutions will be presenting the trade audience with new applications, special processes and sustainable solutions focusing on the production of industrial textiles. Among other things, the company will be showcasing new technology for charging nonwovens that sets new standards with regards to quality and efficiency. Between June 21 and 24, the discussions will be concentrating on airbags, seat belts, tire cord, geotextiles, filter nonwovens and their diverse applications.

More polyester for airbags
Airbags have become an integral part of our everyday automotive lives. The yarns used in them are made predominantly from polyamide. As a result of increasingly diverse airbag applications and also the increasing size of the systems used, polyester is today used as well, depending on the application requirements and cost-benefit considerations. Against this background, the Oerlikon Barmag technologies make an invaluable contribution. In addition to high productivity and low energy consumption, they particularly excel in terms of their stable production processes. Furthermore, they comply with every high quality standard for airbags, which – as in the case of virtually all other textile products used in vehicle construction – must provide the highest level of safety for vehicle occupants. And all this without any loss of function in any climate and anywhere in the world for the lifetime of the vehicle.

Buckle up!
Seat belts play a decisive role in protecting vehicle occupants. They have to withstand tensile forces in excess of three tons and simultaneously stretch in a controlled manner in emergencies in order to reduce the load in the event of impact. A seat belt comprises approximately 300 filament yarns, whose individual, high-tenacity yarn threads are spun from around 100 individual filaments.

Invisible, but essential – road reinforcement using geotextiles
But it not just inside vehicles, but also under them, that industrial yarns reveal their strengths. Low stretch, ultra-high tenacity, high rigidity – industrial yarns offer outstanding properties for the demanding tasks carried out by geotextiles; for instance, as geogrids in the base course system under asphalt. Normally, geotextiles have extremely high yarn titers of up to 24,000 denier. Oerlikon Barmag system concepts simultaneously manufacture three filament yarns of 6,000 denier each. Due to the high spinning titers, fewer yarns can be plied together to the required geo-yarn titer in a more cost- and energy-efficient manner.

hycuTEC – technological quantum leap for filter media
In the case of its hycuTEC hydro-charging solution, Oerlikon Neumag offers a new technology for charging nonwovens that increases filter efficiency to more than 99.99%. For meltblown producers, this means material savings of 30% with significantly superior filter performance. For end users, the consequence is noticeably improved comfort resulting from significantly reduced breathing resistance. With its considerably lower water and energy consumption, this new development is also a future-proof, sustainable technology.

New high-tech Staple Fiber Technology Center
Extending to around 2,100 m2, Oerlikon Neumag in Neumünster is home to one of the world’s largest staple fiber technology centers. As of now, these state-of-the-art staple fiber technologies are also available for customer-specific trials.

The focus during the planning and the design of the Technology Center was on optimizing components and processes. Here, special attention was paid to ensuring the process and production parameters in the Technology Center system could be simply and reliably transferred to production systems. Here, the fiber tape processing line is modular in design. All components can be combined with each other as required. And comprehensive set-up options supply detailed findings for the respective process for various fiber products.

The Technology Center is also equipped with two spinning positions for mono- and bi-component processes. The same round spin packs are used for both processes, characterized by excellent fiber quality and properties and meanwhile very successfully deployed in all Oerlikon Neumag production systems. Furthermore, the spinning plant is complemented by automation solutions such as spin pack scraper robots, for example.

More information:
Oerlikon Neumag Techtextil
Source:

Oerlikon

Mobile robot system for automated loading of a bobbin creel (c) STFI
12.05.2022

STFI with sustainable and digital innovations at Techtextil 2022

The Saxon Textile Research Institute (STFI) will be presenting innovative highlights from research and development at Techtextil 2022, the international trade fair for technical textiles and nonwovens. In addition to a warp-knitted textile façade greening in a modular system and textile lightweight construction elements for the building sector made from hemp as a renewable raw material, the STFI will also be showing innovations from nonwovens research. The project optiformTEX is an example of the nonwovens competence: in this project, the mass per unit area was specifically influenced for the production of semi-finished products in the automotive sector. Furthermore, the Chemnitz Institute exhibits an ecological foam coating for protective textiles. Central highlight of the STFI's presence at the fair is also a mobile robot system, which demonstrates the automated loading of a small-scale bobbin creel.

The Saxon Textile Research Institute (STFI) will be presenting innovative highlights from research and development at Techtextil 2022, the international trade fair for technical textiles and nonwovens. In addition to a warp-knitted textile façade greening in a modular system and textile lightweight construction elements for the building sector made from hemp as a renewable raw material, the STFI will also be showing innovations from nonwovens research. The project optiformTEX is an example of the nonwovens competence: in this project, the mass per unit area was specifically influenced for the production of semi-finished products in the automotive sector. Furthermore, the Chemnitz Institute exhibits an ecological foam coating for protective textiles. Central highlight of the STFI's presence at the fair is also a mobile robot system, which demonstrates the automated loading of a small-scale bobbin creel.

Highlights at Techtextil 2022
The greened façade tile is a system with which large building surfaces can be cost-effectively greened through a simple, modular segment structure. In addition to insulating the building, the system has been created to meet the design requirements of a modern city centre; low-maintenance greening is made possible through functional integration in the textile carrier layer and coordinated plant selection.

Moulded components made of natural fibre nonwovens are increasingly used in the automotive sector. Conventional nonwovens currently have uniform masses per unit area. Technical solutions for load-oriented component reinforcement and the resulting optimised use of materials represent an enormous economic potential. The basic idea of “optiformTEX” was therefore to specifically influence the mass per unit area distribution in the pile before the semi-finished product is consolidated. As a result, a textile-technological process and the corresponding plant component were successfully developed.

Future-oriented materials are offered by developments from the field of renewable raw materials in combination with bio-based resin systems: In the “Gro-Coce” project, an innovative ceiling system was developed by combining sustainable building products and methods. Currently, a high-performance hemp-based semi-finished product as well as the steps for its reproducible production by means of textile surface formation is developed by the research team. Initial application and load tests of the hemp-based semi-finished products on wooden beams confirmed the high performance potential of the natural fibre materials.

Special functional textiles are based on composite materials with coatings or membranes. The previous production of the coatings/membranes poses ecological and health risks. At STFI, solvent-free, purely aqueous coating systems and a technology for their application were therefore developed for the protective textile sector, resulting in a breathable, waterproof and wash-resistant textile coating.

The central highlight of the STFI's presence at the fair is a mobile robot system, which demonstrates the automated loading of a small-scale bobbin creel. At the STFI, the robot is part of the “textile factory of the future”, where a play mat is woven and processed step by step along the textile chain.

05.05.2022

Monforts at Techtextil showcasing its finishing and coating technologies

The Techtextil and Heimtextil Summer Special exhibitions, taking place together in Frankfurt from June 21-24, represent an opportunity for Monforts to showcase its finishing and coating technologies for two of its major markets – especially at a time when energy prices continue to soar for textile manufacturers in Europe.

Existing customers of Monforts include many manufacturers in the field of home textiles, as well as those making geotextiles, automotive fabrics and other functional materials – all of whom will be well represented in Frankfurt this June. Dedicated Montex lines have also been supplied to producers of airbags, flame retardant barrier fabrics and spacer fabrics, as well as high-temperature filter materials.

The Techtextil and Heimtextil Summer Special exhibitions, taking place together in Frankfurt from June 21-24, represent an opportunity for Monforts to showcase its finishing and coating technologies for two of its major markets – especially at a time when energy prices continue to soar for textile manufacturers in Europe.

Existing customers of Monforts include many manufacturers in the field of home textiles, as well as those making geotextiles, automotive fabrics and other functional materials – all of whom will be well represented in Frankfurt this June. Dedicated Montex lines have also been supplied to producers of airbags, flame retardant barrier fabrics and spacer fabrics, as well as high-temperature filter materials.

Energy prices are rising steeply everywhere and a particular emphasis for Monforts in Frankfurt will be on the energy and heat recovery that can be achieved with Montex stenters, through features such as better insulation of the treatment chambers or the MonforClean system, in which waste heat from the drying process is used to pre-heat the drying air resulting in a radical reduction in the conventional heat supply required compared to gas and thermal oil heating. The modular system for heat recovery can also be extended for exhaust air cleaning and odour elimination. Monforts can provide a range of further resource-saving and energy recovery options tailored to each individual line installation including modification of the heating source.

With the Qualitex 800 visualization software, all article-specific settings can be stored and the formulations for thousands of treatment processes called up again at any time. Individual operators can also personalise their dashboards with the most important machine functions and process parameters.

The Qualitex 800 system is available for the automatic and continuous operation of the company’s Montex stenters, as well as its Thermex continuous dyeing ranges, Monfortex shrinking systems and Montex®Coat coating units.

Monforts Montex®Coat coating units serve an equally diverse number of markets, including tents, tarpaulins and awnings, black-out roller blinds and sail cloth, automotive interior fabrics and medical disposables. Full PVC coatings, pigment dyeing or minimal application surface and low penetration treatments and solvent coatings (in explosion-proof conditions) with knife coating, roller coating or screen printing can all be accommodated with this system.

All of these very different materials require coating and finishing for maximum efficiency, using Monforts technologies which provide the ultimate in flexibility and the ability to switch quickly from one fabric run to the next, without compromising on the economical use of energy or raw materials.

The Monforts EcoApplicator offers further potential for sustainably achieving perfect finishes via a precise direct application system, as an alternative to conventional padding – where fabrics are immersed in a bath of the required finishing chemicals. It can significantly further reduce the energy and water required and finishes can be applied on just one side of the fabric, or both, and even separately on each side, to be sealed in place via different heating zones in the stenter.

Source:

A. Monforts Textilmaschinen GmbH & Co. KG / AWOL Media