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Robot system (c) STFI
20.03.2024

STFI: Highlights of textile research at Techtextil 2024

STFI will be presenting high-end textile products and solutions at Techtextil 2024. The highlights from current research results and innovations provide an insight into the digitalisation of textile production, show applications for 3D printing and smart technical textiles and provide examples of particularly sustainably designed products as well as innovative approaches for protective and medical textiles.

The central highlight of STFI's presence at Techtextil is a robot system that demonstrates the automated processing of a bobbin frame on a small scale. The pick-and-place application demonstrates camera-supported gripping of the bobbins. The robot is part of the STFI's “Textile Factory of the Future” which demonstrates automation solutions for the textile industry in a laboratory environment.

STFI will be presenting high-end textile products and solutions at Techtextil 2024. The highlights from current research results and innovations provide an insight into the digitalisation of textile production, show applications for 3D printing and smart technical textiles and provide examples of particularly sustainably designed products as well as innovative approaches for protective and medical textiles.

The central highlight of STFI's presence at Techtextil is a robot system that demonstrates the automated processing of a bobbin frame on a small scale. The pick-and-place application demonstrates camera-supported gripping of the bobbins. The robot is part of the STFI's “Textile Factory of the Future” which demonstrates automation solutions for the textile industry in a laboratory environment.

From the field of sustainable products and solutions, a sleeping bag with bio-based and therefore vegan filling material and a natural fibre-based composite element for furniture construction, in which LEDs and capacitive proximity sensors for contactless function control have been applied using embroidery technology, will be on show. Printed heating conductor structures demonstrate current research work for the e-mobility of the future, as the individually controllable seat and interior heating should ultimately reduce weight and save energy compared to conventional heating systems.

While a protective suit for special task forces protects against the dangers of a Molotov cocktail attack, a shin guard and a knee brace with patellar ring illustrate the process combination of 3D printing and UV LED cross-linking. Other highlights from lightweight textile construction include the rib of a vertical rudder of an Airbus A320 and a green snowboard made from recycled carbon fibres.

More information:
STFI Techtextil Smart textiles
Source:

Sächsisches Textilforschungsinstitut e.V. (STFI)

12.12.2023

Intertextile Shanghai Home Textiles in August 2024

from both inside and outside of Asia. Looking ahead, the stage will be set once again at the National Exhibition and Convention Center (Shanghai) next year, allowing exhibitors and buyers from the industry to match their trading needs onsite. Thanks to the resumption of global travel and the ongoing industry recovery, the next Autumn edition is slated to attract even more multinational fairgoers and diverse home and contract textile collections. The fair will return in 14 – 16 August 2024.

from both inside and outside of Asia. Looking ahead, the stage will be set once again at the National Exhibition and Convention Center (Shanghai) next year, allowing exhibitors and buyers from the industry to match their trading needs onsite. Thanks to the resumption of global travel and the ongoing industry recovery, the next Autumn edition is slated to attract even more multinational fairgoers and diverse home and contract textile collections. The fair will return in 14 – 16 August 2024.

A recent study showed a significant rise in corporate travel in 2023, driven largely by the resurgence of live business events and the easing of restrictions following several turbulent years. Adding to this, the Chinese government has announced several measures in a bid to attract more international visitors, including a simplified visa application process as the latest initiative.
 
As one of the largest economies in the world, China is renowned for producing high-value products across the home textile spectrum, making Intertextile Shanghai Home Textiles an essential stop for global suppliers and buyers aiming to kick off the next business season.  
 
Emerging markets have become a significant focus for the industry in recent years. China's exports of home textiles to the ASEAN market amounted to around USD 2.09 billion in the first quarter of 2023, with an increase of 18% year-on-year; of which around USD 1.38 billion was exported in finished goods, seeing a rise of over 42% year-on-year[3]. With this growth in trade, buyers from fast growing emerging markets are expected to increasingly benefit from the Intertextile Shanghai Home Textiles platform to fulfil their sourcing needs.
 
The upcoming Autumn edition will continue to comprise a wide range of home textile products, including bedding & towelling, rugs, table & kitchen linen, upholstery & curtain fabrics, editors, home textile technologies and textile design.
 
Intertextile Shanghai Home Textiles – Autumn Edition is organised by Messe Frankfurt (HK) Ltd; the Sub-Council of Textile Industry, CCPIT; and the China Home Textile Association (CHTA).

08.12.2023

EURATEX welcomes approval of PanEuroMed rules of origin

EURATEX welcomes the unanimous vote in support of the new rules of origin under the PEM Convention, as a historic achievement. Facilitating trade and investments in the “PanEuroMed” region (covering 27 EU member states and 24 partner countries in the neighbourhood region)1 is top priority region for the EU, as trade with these countries accounted for €677 billion in 2023. For the EU textile and clothing sector, the region represents 35% of its exports and 21% of its imports.
 
In 2013 the European Commission adopted a package of proposals aimed at increasing trade between the European Union and neighbouring countries in the Pan-Euro-Mediterranean (PEM) region. The proposal introduced modernised rules of origin of the PEM convention, lifting the prohibition of duty-drawback and introducing the principle of “full cumulation”.

EURATEX welcomes the unanimous vote in support of the new rules of origin under the PEM Convention, as a historic achievement. Facilitating trade and investments in the “PanEuroMed” region (covering 27 EU member states and 24 partner countries in the neighbourhood region)1 is top priority region for the EU, as trade with these countries accounted for €677 billion in 2023. For the EU textile and clothing sector, the region represents 35% of its exports and 21% of its imports.
 
In 2013 the European Commission adopted a package of proposals aimed at increasing trade between the European Union and neighbouring countries in the Pan-Euro-Mediterranean (PEM) region. The proposal introduced modernised rules of origin of the PEM convention, lifting the prohibition of duty-drawback and introducing the principle of “full cumulation”.

Today, after ten years of intense negotiations which EURATEX supported, the European Commission reached a full and final agreement with all PEM partners. This is a landmark achievement that will unlock the full potential of the Euro-Mediterranean area as the biggest and most integrated region of advanced manufacturing and trading of sustainable textiles and clothing. The rules adopted today will accelerate the integration of T&C supply chains and boost T&C production and trade within the region, both in the East and Southern borders of the EU. In a moment when companies are looking at moving their production from Asia to nearby, like-minded and more reliable countries , it is very timely to have the PEM Convention implemented.

EURATEX’s President, Mr Alberto Paccanelli, commented: “This is a strategic trade deal that can help European companies recover from the multiple crisis which we face since 2020”. He continued “We call on the European Union to not stop here, but keep up the efforts to secure trade deals that are good for European companies and their competitive position in the world. The next objective should be the adoption of the EU-Mercosur Agreement and a conclusive settlement of all trade disputes with the United States”.    
 
According to Director General Dirk Vantyghem, “today’s unanimous vote in favour of the modernised PEM rules is good news for our industry.. We should now engage with these partner countries to fully exploit the potential of these new rules. EURATEX is ready to engage in an industrial dialogue with the companies from the PEM Countries to facilitate their transition to the new framework”.

1 The PanEuroMed contracting parties are: the EU, the EFTA States (Switzerland, Norway, Iceland and Liechtenstein), the Faroe Islands, the participants in the Barcelona Process (Algeria, Egypt, Israel, Jordan, Lebanon, Morocco, the territories of West Bank and Gaza, Syria, Tunisia and Turkey), the participants in the EU's Stabilisation and Association Process (Albania, Bosnia and Herzegovina, the Republic of North Macedonia, Montenegro, Serbia, Kosovo), the Republic of Moldova, Ukraine.

Source:

EURATEX 

17.11.2023

Alliance for European Flax-Linen and Hemp: Flax fibres for Sailing boats

The adoption of composite parts based on flax fibres by the Marine Industry continues to grow, with major OEMs as well as smaller shipyards now aiming to take advantage of the reduced carbon impact and impressive mechanical properties they can provide.

“Over the last ten or fifteen years, several innovative flax fibre boats have been built and the fibre has started to gain significant traction,” says Julie Pariset, Innovation & CSR Director at the Alliance for European Flax-Linen and Hemp. “In addition to the environmental benefits, manufacturers are realising significant technical and processing gains with flax fibre composites.”

“Flax is a very low-density fibre, with a high specific stiffness,” she explains. “It can be used to manufacture composite laminates with mechanical properties not dissimilar to typical E-glass composites and the coefficient of thermal expansion of a flax fibre epoxy part is also quite close to that of a carbon fibre part.” This allows the materials to work well in combined assemblies with carbon fibre composites and the flax parts are also highly impact resistant.

The adoption of composite parts based on flax fibres by the Marine Industry continues to grow, with major OEMs as well as smaller shipyards now aiming to take advantage of the reduced carbon impact and impressive mechanical properties they can provide.

“Over the last ten or fifteen years, several innovative flax fibre boats have been built and the fibre has started to gain significant traction,” says Julie Pariset, Innovation & CSR Director at the Alliance for European Flax-Linen and Hemp. “In addition to the environmental benefits, manufacturers are realising significant technical and processing gains with flax fibre composites.”

“Flax is a very low-density fibre, with a high specific stiffness,” she explains. “It can be used to manufacture composite laminates with mechanical properties not dissimilar to typical E-glass composites and the coefficient of thermal expansion of a flax fibre epoxy part is also quite close to that of a carbon fibre part.” This allows the materials to work well in combined assemblies with carbon fibre composites and the flax parts are also highly impact resistant.

Flax fibres also provide acoustic and vibration damping in composite applications, as well as providing a warm and aesthetically pleasing appearance below decks.

ecoRacer30
As a member of the Alliance for European Flax-Linen and Hemp, Bcomp, headquartered in Fribourg, Switzerland, has this year been working with Northern Light Composites (nlcomp), based in Monfalcone, northern Italy, on the creation of what is billed as the first fully recyclable nine-metre-long sailing boat – the ecoRacer30.

The boat is based on nlcomp’s proprietary rComposite technology – a combination of thermoplastic resins and BComp’s ampliTex high-performance natural fibre reinforcement fabrics and patented powerRibs technology.

It was built in a collaborative effort with the help of Barcelona-based Magnani Yachts, which took care of the composite manufacturing, and Sangiorgio Marine, which provided technical assistance as the boat was being assembled at its shipyard in Genova, Italy.

Magnani Yachts has subsequently become the first shipyard to hold an rComposite license and others are now being encouraged to adopt the technology.

The second ecoracer30 is currently under construction and has already been sold and nlcomp is planning to build a fleet of eight of these boats in time to enter a series of regattas in the summer of 2025.

Flax 27 Daysailer
Greenboats, based in Bremen, Germany, is another specialist in building boats from natural fibre composites and has this year launched the Flax 27 daysailer.

The lower hull of this vessel is also made from Bcomp’s ampliTex technical fabrics in combination with a sandwich core of recycled PET bottles. Using a vacuum infusion process, the fibres were integrated with a plant-based epoxy resin in order to further reduce the CO2 footprint of the vessel.

The light structure and modern shapes of the lower hull of the boat result in very fast, sharp and agile handling on the water.

Greenboats has also recently announced significant new backing from alliance member Groupe Depestele, which manages 13,000 hectares of flax land in Normandy, France.

Blue Nomad
A project in Switzerland has meanwhile proposed the use of flax fibre composites in solar-powered habitats designed for comfortable living on the oceans – as the world grapples with the frightening implications of climate change and rising sea levels.

As envisaged by students from Institut auf dem Rosenberg in St Gallen, Switzerland working with Denmark-based SAGA Space Architects, Blue Nomad structures would form modular blocks to establish large communities and oceanic farms.
 

Source:

Alliance for European Flax-Linen and Hemp

Winners of AVK Innovation Award 2023 (c) AVK
Winners of AVK Innovation Award 2023
25.10.2023

Winners of AVK Innovation Award 2023

The winners of the prestigious Innovation Award for Fibre-Reinforced Plastics of the AVK, the German Federation of Reinforced Plastics, were presented in Salzburg this year. This award always goes to businesses, institutions and their partners for outstanding innovations in composites the three categories Products & Applications, Processes & Methods and Research & Science. Projects are submitted in all three categories and are evaluated by a jury of experts in engineering and science as well as trade journalists, who look at each project in terms of their levels of innovation, implementation and sustainability.

Products & Applications category
First place: “Insulating Coupling Shaft for Rail Vehicles” – Leichtbauzentrum Sachsen GmbH, partner: KWD Kupplungswerk Dresden GmbH

Second place: “Electric Car Battery Housing Components Based on Innovative Continuous Fibre-Reinforced Phenolic Resin Composites” – SGL Carbon

The winners of the prestigious Innovation Award for Fibre-Reinforced Plastics of the AVK, the German Federation of Reinforced Plastics, were presented in Salzburg this year. This award always goes to businesses, institutions and their partners for outstanding innovations in composites the three categories Products & Applications, Processes & Methods and Research & Science. Projects are submitted in all three categories and are evaluated by a jury of experts in engineering and science as well as trade journalists, who look at each project in terms of their levels of innovation, implementation and sustainability.

Products & Applications category
First place: “Insulating Coupling Shaft for Rail Vehicles” – Leichtbauzentrum Sachsen GmbH, partner: KWD Kupplungswerk Dresden GmbH

Second place: “Electric Car Battery Housing Components Based on Innovative Continuous Fibre-Reinforced Phenolic Resin Composites” – SGL Carbon

Third place: “High Performance Recycled Carbon Fibre Materials (HiPeR)” – Composites Technology Center GmbH (CTC GmbH), partners: Faserinstitut Bremen e. V, Sächsisches Textilforschungsinstitut e.V., C.A.R. FiberTec GmbH; partners Japan: Faserinstitut Bremen e.V., Sächsisches Textilforschungsinstitut e.V., C.A.R. FiberTec GmbH; Partner Japan: CFRI Carbon Fiber Recycle Industry Co., Ltd., IHI Logistics and Machinery Corporation, ICC Kanazawa Institute of Technology

Innovative Processes & Methods category
First place: “Chopped Fibre Direct Processing (CFP)” – KraussMaffei Technologies GmbH, partner: Wirthwein SE

Second place: “CIRC - Complete Inhouse Recycling of Thermoplastic Compounds” – Fraunhofer Institute for Production Engineering and Automation (IPA), partners: Schindler Handhabetechnik GmbH, Vision & Control GmbH

Third place: “CarboScreen – Sensor-Based Monitoring of Carbon-Fibre Production” – CarboScreen GmbH, partner: Institute of Textile Technology at RWTH Aachen University

Research & Science category
First place: “Development of a Stereocomplex PLA Blend on a Pilot Plant Scale” – Faserinstitut Bremen e. V.

Second place: “Fibre-Reinforced Salt as a Robust Lost Core Material” – Technical University of Munich, Chair of Carbon Composites, partners: Apppex GmbH, Haas Metallguss GmbH

Third place: “VliesSMC – Recycled Carbon Fibres with a Second Life in the SMC Process” – Sächsisches Textilforschungsinstitut e.V. (STFI), partner: Fraunhofer Institute for Chemical Technology (ICT)

 

Entries for the next Innovation Award 2024 can be submitted from January 2024 onwards.

Source:

AVK – Industrievereinigung Verstärkte Kunststoffe e.V.

30.12.2022

Composites United declares membership in Composites Germany

Society and the economy are facing existential challenges. In addition to the consequences of climate change, these include the realisation that energy and many resources are no longer available in the usual quantities, so that their efficiency must be significantly increased in the short term. Lightweight construction, especially with fibre composite materials, can and will make an important contribution here, e.g. in wind power plants or hydrogen storage systems. As an umbrella organisation, Composites Germany represents the capabilities and interests of the German fibre composite industry. With the re-entry of Composites United, Composites Germany will combine the forces of the two leading composites networks in Germany and its position will be significantly strengthened. Changed framework conditions make the re-entry possible and necessary.

Society and the economy are facing existential challenges. In addition to the consequences of climate change, these include the realisation that energy and many resources are no longer available in the usual quantities, so that their efficiency must be significantly increased in the short term. Lightweight construction, especially with fibre composite materials, can and will make an important contribution here, e.g. in wind power plants or hydrogen storage systems. As an umbrella organisation, Composites Germany represents the capabilities and interests of the German fibre composite industry. With the re-entry of Composites United, Composites Germany will combine the forces of the two leading composites networks in Germany and its position will be significantly strengthened. Changed framework conditions make the re-entry possible and necessary.

VDMA and Leichtbau BW will continue to support the work of Composites Germany as associate members and contribute the know-how of their members. Together, the organisations will promote sustainable lightweight construction as a key technology for Germany, focusing on composites materials, says Prof. Klaus Drechsler of Composites United, one of the two board members of Composites Germany. As a network and mouthpiece of the composites industry, Composites Germany bundles the interests of its members. The aim is to continuously expand activities, promote innovations and technologies, develop new markets and new value chains, and anchor training and further education, adds his board colleague Dr Michael Effing of AVK. The agreement was concluded on 29 November 2022 during the JEC Forum DACH in Augsburg, where both associations were cooperation partners of the event.

Source:

Composites Germany

(c) VDMA
Award winners with foundation chairman and professors
23.06.2022

VDMA: Junior engineers with focus on sustainability

On the occasion of the Techtextil fair in Frankfurt, the Chairman of VDMA’s Walter Reiners-Stiftung Foundation, Peter D. Dornier, has awarded prizes to seven successful young engineers. For the first time, the Foundation awarded two Sustainability Awards. They are awarded to academic works in which, for example, solutions for resource-saving products and technologies are developed.

A Sustainability Prize in the category Project Work, endowed with 3.000 euros was awarded to Simon Hoebel, TU Dresden, for his thesis on recycled thermoplastic fibres for composite components.
Marina Michel, TU Dresden, received a Sustainability Award in the category Master, worth 3.500 euros. The topic of her master thesis was the functionalisation of yarns for the filtration of micro- and nanoplastics from water.

A Promotion Prize in the category Project Work, endowed with 4.000 euros, was awarded to a student group from RWTH Aachen. The teamwork of Luis Gleissner, Leopold Habersbrunner, Frederic Olbrich and Frederik Schicks was the construction of a test rig for tests on oil-adsorbing textiles.

On the occasion of the Techtextil fair in Frankfurt, the Chairman of VDMA’s Walter Reiners-Stiftung Foundation, Peter D. Dornier, has awarded prizes to seven successful young engineers. For the first time, the Foundation awarded two Sustainability Awards. They are awarded to academic works in which, for example, solutions for resource-saving products and technologies are developed.

A Sustainability Prize in the category Project Work, endowed with 3.000 euros was awarded to Simon Hoebel, TU Dresden, for his thesis on recycled thermoplastic fibres for composite components.
Marina Michel, TU Dresden, received a Sustainability Award in the category Master, worth 3.500 euros. The topic of her master thesis was the functionalisation of yarns for the filtration of micro- and nanoplastics from water.

A Promotion Prize in the category Project Work, endowed with 4.000 euros, was awarded to a student group from RWTH Aachen. The teamwork of Luis Gleissner, Leopold Habersbrunner, Frederic Olbrich and Frederik Schicks was the construction of a test rig for tests on oil-adsorbing textiles.

Felix Zerbes, RWTH Aachen, was awarded a Promotion Prize of 3.500 euros in the category Master. He developed a technical solution for air jet weaving to improve the quality of woven fabric.

Source:

VDMA e. V.

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) Eton
22.04.2022

More localised and automated textile manufacturing with TMAS technologies

At the forthcoming Texprocess, Techtextil and Heimtextil shows taking place in Frankfurt from June 21-24 – members of the Swedish Textile Machinery Association TMAS will be showcasing a range of solutions aligning with the growing trend for more localised and automated textile manufacturing.

Digitalisation and the push for more sustainable, shorter and less expensive supply chains are currently making manufacturing in high-cost countries within Europe more attractive and there have been many other contributing factors to this over the past two years.

The Covid-19 pandemic exposed the vulnerability of many countries to shortages of essential items like PPE while at the same time making the full exploitation of new digital options essential during national lock-downs and long periods of restricted travel. The escalating cost of global transportation, as well as the growth of online retailing and the associated benefits of on-demand digital manufacturing, are further reinforcing the many benefits of short-run and near-shore new operations.

At the forthcoming Texprocess, Techtextil and Heimtextil shows taking place in Frankfurt from June 21-24 – members of the Swedish Textile Machinery Association TMAS will be showcasing a range of solutions aligning with the growing trend for more localised and automated textile manufacturing.

Digitalisation and the push for more sustainable, shorter and less expensive supply chains are currently making manufacturing in high-cost countries within Europe more attractive and there have been many other contributing factors to this over the past two years.

The Covid-19 pandemic exposed the vulnerability of many countries to shortages of essential items like PPE while at the same time making the full exploitation of new digital options essential during national lock-downs and long periods of restricted travel. The escalating cost of global transportation, as well as the growth of online retailing and the associated benefits of on-demand digital manufacturing, are further reinforcing the many benefits of short-run and near-shore new operations.

Secure supply
At Texprocess, for example, Eton Systems will be unveiling its latest Ingenious software solution which further enhances the company’s Opta Unit Production System (UPS) introduced in 2021.

“Our automated technology has already had a great impact on the productivity of thousands of garment production lines,” says Eton’s Managing Director Jerker Krabbe. “Our systems help producers across the world to reduce repetitive manual tasks and increase efficiency, which evens out some of the differences between production in high and low-cost countries, making reshoring a feasible option. Creating a diversified production portfolio with a mix of production facilities, some closer to home, makes for a more secure product supply.”

Flexibility
Imogo meanwhile recently installed the first industrial scale dyeing system in Sweden for many years. The Dye-Max spray dyeing line has the potential to slash the use of fresh water, wastewater, energy and chemicals by as much as 90% compared to conventional jet dyeing systems. It is capable of carrying out the application of a wide range of fabric pre-treatments and finishing processes, providing users with unbeatable flexibility in production.

“Here in Scandinavia, we are currently seeing an explosion of companies developing sustainable new cellulosic fibres – many from waste clothing – but a problem is that all of the environmental benefits they deliver can potentially be lost in the further processing, and especially in conventional dyeing,” observes the company’s Founding Partner Per Stenflo. “The Dye-Max system positively addresses this, but interest in it has not just been confined to Europe. We are currently seeing a lot of activity in Turkey – largely as a near-shore partner to European brands – but also in Bangladesh.”

Robotics at Heimtextil
ACG Kinna Automatic specialises in automation solutions for filled products such as quilts, pillows and mattresses and its live demonstrations of robotics in action have proved a magnet for visitors to Heimtextil. This year’s show will be no exception.

“The use of robotics is now standard across many industries dealing in solid goods, but the handling of soft materials such as textiles is a little more complex,” says Managing Director Christian Moore. “Nevertheless, it’s something we have successfully mastered, and our robotic systems are proving highly beneficial to their users. There is no ‘one-size-fits-all’ solution when it comes to automation and our approach is always to carefully examine where it will make the difference in each bespoke system. A focus is on identifying and eliminating bottlenecks which will increase product flows.”

During the Covid-19 pandemic, ACG Kinna drew on all of its automation know-how and extensive network of contacts to build a new nonwovens fabric converting and single-use garment making-up plant in a matter of weeks, in order to supply the Swedish authorities with urgently-needed medical gowns.

Instant colour
Localised textile production is also booming in the USA, where Coloreel has recently secured multiple orders for its instant thread colouration technology via its US partner Hirsch.

“Coloreel technology enables the high-quality and instant colouring of a textile thread while it is actually being used in production and can be paired with any existing embroidery machine without modification, while also making it possible to produce gradients in an embroidery for the first time,” explains VP of Sales Sven Öquist.

“Advanced rapid colour formulation software and high-speed drive technology allow a single needle to carry out what it previously required many multiples of them to do – and with much more consistent stitch quality. By instantly colouring a recycled white base thread during production, our system enables complete freedom to create unique embroideries without any limitations. Colour changes along the thread can either be made rapidly from one solid colour to another, or gradually, to make smooth transitions or any colouring effect desired. This provides big benefits when it comes to sustainability and design creativity.”

Milestone
Svegea will be promoting its latest EC 300 collarette cutting machine at Texprocess 2022. This machine is used by garment manufacturers around the world for the production of tubular apparel components such as waistbands, cuff and neck tapes and other seam reinforcements. With its E-Drive 2 system and fully automatic FA500 roll slitter, the EC 300 has an output of around 20,000 metres per hour.

“Advances in automation are only making the specialised, bespoke machines we engineer even more efficient and we are expecting a very busy year,” says Managing Director Håkan Steene. “The garment components our collarette cutters produce make it logical for them to be integrated into the operations of making-up operations, wherever they are.”

Sensors
The advanced yarn tension monitoring technologies of Eltex of Sweden meanwhile play an essential role in rectifying defects in  weaving, tufting and composite reinforcement operations.

“A correct tension of the warp and weft threads ensures proper machine operation,” explains Eltex Global Marketing and Sales Manager Anoop K. Sharma “The constant tension monitoring and automatic control of the tension of the thread help to overcome unnecessary problems.

“We continue to make advances in both the hardware and software of our tension monitoring systems, such as the EyE™ for the warping process. With the EyE™, the yarn tension values from all yarns are continuously updated and displayed on screen. In addition, tension values outside the warning level are indicated both on the sensor’s LEDs and on the screen for complete quality control. No fabric can be woven without the appropriate and correct tension.”

Source:

AWOL Media

17.03.2022

Italian Textile Machinery at Techtextil North America 2022

The next edition of Techtextil North America will take place in Atlanta from May 17nd to 19th.  At Atlanta ACIMIT, the Association of Italian Textile Machinery Manufacturers, and Italian Trade Agency organize an Italian Pavilion, where 17 Italian machinery manufacturers involved in the production of machines for technical textiles will show their innovative solutions.

ACIMIT members exhibiting in the Italian Pavilion are: 4M Plants, Aeris, Arioli, Computer House, Fadis, Flainox, Guarneri Technology, Ima, Kairos Engineering, Mcs, Ramina, Siltex, Stalam, Testa, Willy.

The US textile industry is one of the top in US manufacturing sector, with a sales volume of exceeding US$ 64 billion in 2020, with approximately 300,000 workers and about 15,000 companies. The industry's strength lies in cotton, man-made fibers, and a wide variety of yarns and fabrics, including those for apparel and industrial uses.

The next edition of Techtextil North America will take place in Atlanta from May 17nd to 19th.  At Atlanta ACIMIT, the Association of Italian Textile Machinery Manufacturers, and Italian Trade Agency organize an Italian Pavilion, where 17 Italian machinery manufacturers involved in the production of machines for technical textiles will show their innovative solutions.

ACIMIT members exhibiting in the Italian Pavilion are: 4M Plants, Aeris, Arioli, Computer House, Fadis, Flainox, Guarneri Technology, Ima, Kairos Engineering, Mcs, Ramina, Siltex, Stalam, Testa, Willy.

The US textile industry is one of the top in US manufacturing sector, with a sales volume of exceeding US$ 64 billion in 2020, with approximately 300,000 workers and about 15,000 companies. The industry's strength lies in cotton, man-made fibers, and a wide variety of yarns and fabrics, including those for apparel and industrial uses.

In 2021, the USA represented the third market for Italian textile machinery exports, behind China and Turkey. In 2021 January-September period the value of Italian sales to US market was 93 million Euros, an increase of 74% compared to the same period of the previous year.

More information:
Techtextil North America ACIMIT
Source:

ACIMIT

photo: pixabay
03.01.2022

Launch of the European project EU-ALLIANCE for advanced materials

EU-ALLIANCE aims to support SMEs internationalisation in the fields of technical textile, connectivity and advanced materials to address dual use markets in four targeted countries: The United States, Canada, Japan and Indonesia. The EU-ALLIANCE project is funded by the European Union's COSME programme. It brings together 6 key clusters representing nearly 900 companies: Techtera (France); Systematic (France); PO.IN.TEX - Textile innovation cluster (Italy); NTT - Next Technology Tecnotessile (Italy); NIDV - Industries for Defence and Security (Netherlands); SIIT - Intelligent System Integrated Technologies (Italy).

EU-ALLIANCE aims to support SMEs internationalisation in the fields of technical textile, connectivity and advanced materials to address dual use markets in four targeted countries: The United States, Canada, Japan and Indonesia. The EU-ALLIANCE project is funded by the European Union's COSME programme. It brings together 6 key clusters representing nearly 900 companies: Techtera (France); Systematic (France); PO.IN.TEX - Textile innovation cluster (Italy); NTT - Next Technology Tecnotessile (Italy); NIDV - Industries for Defence and Security (Netherlands); SIIT - Intelligent System Integrated Technologies (Italy).

On November 25, the partners hosted a webinar to present the project and the opportunities it will generate. This webinar was also an opportunity to position the participants to benefit from the services generated by the project (market research, commercial missions, B2B meetings, etc.), communicate your needs and thus join the selection of companies that will be able to benefit from European support for these actions. Beyond this internationalisation objective, the project also aims to encourage intra-European collaboration and synergies between the various members of the partner clusters.

Source:

EU-ALLIANCE

Wissenschaftskommunikation Energiewende: Für Energieforschung begeistern und Innovationen für das Energiesystem von morgen zeigen. © Fraunhofer UMSICHT
Wissenschaftskommunikation Energiewende: Für Energieforschung begeistern und Innovationen für das Energiesystem von morgen zeigen.
17.05.2021

Fraunhofer UMSICHT Ausstellungsprojekt

  • Energiewende – gemeinsam für eine klimaneutrale Zukunft
  • Wissenschaftskommunikation Energiewende: Für Energieforschung begeistern und Innovationen für das Energiesystem von morgen zeigen.

Wie können wir die Energiewende gemeinsam umsetzen? Dieser Frage widmet sich ab 2022 eine Ausstellung, die das gesamte Bundesgebiet bereist und durch zahlreiche Veranstaltungen und partizipative Angebote begleitet wird. In dem gemeinsamen Projekt präsentieren Forschungseinrichtungen, Hochschulen, Ausstellungshäuser sowie Akteure der Wissenschaftskommunikation Lösungen für eine sichere, wirtschaftliche und klimaneutrale Energieversorgung und nehmen Ideen und Meinungen der Bürgerinnen und Bürger dazu auf. Parallel werden die Wahrnehmung des Themas Energiewende in der Öffentlichkeit und die Wirkung des Projekts selbst erforscht.

Ausstellung ab April 2022

  • Energiewende – gemeinsam für eine klimaneutrale Zukunft
  • Wissenschaftskommunikation Energiewende: Für Energieforschung begeistern und Innovationen für das Energiesystem von morgen zeigen.

Wie können wir die Energiewende gemeinsam umsetzen? Dieser Frage widmet sich ab 2022 eine Ausstellung, die das gesamte Bundesgebiet bereist und durch zahlreiche Veranstaltungen und partizipative Angebote begleitet wird. In dem gemeinsamen Projekt präsentieren Forschungseinrichtungen, Hochschulen, Ausstellungshäuser sowie Akteure der Wissenschaftskommunikation Lösungen für eine sichere, wirtschaftliche und klimaneutrale Energieversorgung und nehmen Ideen und Meinungen der Bürgerinnen und Bürger dazu auf. Parallel werden die Wahrnehmung des Themas Energiewende in der Öffentlichkeit und die Wirkung des Projekts selbst erforscht.

Ausstellung ab April 2022

Im Mittelpunkt steht eine Ausstellung, die vom Industriemuseum des Landschaftsverbandes Westfalen-Lippe (LWL) und dem Klimahaus Bremerhaven 8° Ost entwickelt wird. Erste Station ist ab April 2022 die Henrichshütte Hattingen im Ruhrgebiet, ab Oktober 2022 ist die Ausstellung im Klimahaus zu sehen. Sie stellt mit Hilfe interaktiver und partizipativer Elemente Konzepte und Ideen der Energiewende sowie innovative Forschungsprojekte vor. Dabei werden auch die regionalen Besonderheiten im Umfeld der beiden Ausstellungshäuser aufgegriffen. Im Anschluss an die Präsentation in Hattingen und Bremerhaven tourt eine daraus entwickelte Wanderausstellung durch das Bundesgebiet.

Die Konzeption der Ausstellung und ihre Rezeption werden von der TU Ilmenau kommunikationswissenschaftlich begleitet. Erkenntnisse aus der Begleitforschung können dadurch direkt in die Ausstellung und das Rahmenprogramm zurückfließen. Im Zentrum des Projekts steht dabei die Frage, wie erfolgreiche Wissenschaftskommunikation zur Energiewende vor allem mit Blick auf regionale Aspekte gelingen kann und welchen Einfluss standortspezifische Faktoren auf die Rezeption haben.

Projektpartner

    Industriemuseum des Landschaftsverbandes Westfalen-Lippe (LWL)
    Klimahaus Bremerhaven 8° Ost
    Technische Universität Ilmenau, Fachgebiet Empirische Medienforschung und politische Kommunikation
    DECHEMA Gesellschaft für chemische Technik und Biotechnologie e. V.
    Fraunhofer UMSICHT
    Fraunhofer-Cluster CINES
    Wissenschaft im Dialog

Kooperationspartner

    Kopernikus Projekte für die Energiewende
    Carbon2Chem®

Source:

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

Virtuelle Verleihung des UMSICHT-Wissenschaftspreises 2021 © Shutterstock
UMSICHT-Wissenschaftspreis 2021
17.05.2021

Virtuelle Verleihung des UMSICHT-Wissenschaftspreises 2021

Das letzte Jahr und insbesondere die mediale Aufmerksamkeit rund um die Corona-Pandemie zeigen, wie wichtig eine verständliche und zielgruppenorientierte Kommunikation wissenschaftlicher Themen ist und welchen hohen Stellenwert die Wissenschaft einnimmt. Den Dialog zwischen Wissenschaft und Gesellschaft zu fördern, ist das Ziel des UMSICHT-Wissenschaftspreises, der 2021 zum zwölften Mal vom UMSICHT-Förderverein verliehen wird. Erfahren Sie im Rahmen der Preisverleihung mehr über die spannenden Beiträge der Preisträgerinnen und Preisträger in den Kategorien Wissenschaft und Journalismus.

Die diesjährige Bekanntgabe der Preisträger*innen und Preisverleihung findet am Donnerstag, den 24. Juni 2021 aufgrund der aktuellen Situation virtuell statt. Auf der Veranstaltung kann man sich über aktuelle Themen und Trends in der Wissenschaft und Wissenschaftskommunikation informieren. Nähere Informationen und auch bereits den Link zur Veranstaltung finden sie hier.

Das letzte Jahr und insbesondere die mediale Aufmerksamkeit rund um die Corona-Pandemie zeigen, wie wichtig eine verständliche und zielgruppenorientierte Kommunikation wissenschaftlicher Themen ist und welchen hohen Stellenwert die Wissenschaft einnimmt. Den Dialog zwischen Wissenschaft und Gesellschaft zu fördern, ist das Ziel des UMSICHT-Wissenschaftspreises, der 2021 zum zwölften Mal vom UMSICHT-Förderverein verliehen wird. Erfahren Sie im Rahmen der Preisverleihung mehr über die spannenden Beiträge der Preisträgerinnen und Preisträger in den Kategorien Wissenschaft und Journalismus.

Die diesjährige Bekanntgabe der Preisträger*innen und Preisverleihung findet am Donnerstag, den 24. Juni 2021 aufgrund der aktuellen Situation virtuell statt. Auf der Veranstaltung kann man sich über aktuelle Themen und Trends in der Wissenschaft und Wissenschaftskommunikation informieren. Nähere Informationen und auch bereits den Link zur Veranstaltung finden sie hier.

Source:

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

Verband der Nordwestdeutschen Textil- und Bekleidungsindustrie bezieht neues Quartier © Thomas Wrede VG Bild-Kunst Bonn, verantwortlich für Entwurf und Planung behet bondzio lin architekten
Die Außenfassade des Neubaus als in Stein gebaute Visitenkarte für den Westdeutschen Textilverband in Münster.
21.04.2021

Ein Gebäude als Visitenkarte

  • Verband der Nordwestdeutschen Textil- und Bekleidungsindustrie bezieht neues Quartier

„Bessere und moderne Arbeits- und Tagungsbedingungen für Mitarbeiter und Mitglieder schaffen“: So lautet eines der beiden Ziele für den Neubau des Verbandes der Nordwestdeutschen Textil- und Bekleidungsindustrie. Zusätzlich sollte das Gebäude als Zeichen für die Branche dienen und zeigen, dass die deutsche Textil- und Bekleidungsindustrie eine Zukunftsindustrie ist – modern, innovativ und am Puls der Zeit.

  • Verband der Nordwestdeutschen Textil- und Bekleidungsindustrie bezieht neues Quartier

„Bessere und moderne Arbeits- und Tagungsbedingungen für Mitarbeiter und Mitglieder schaffen“: So lautet eines der beiden Ziele für den Neubau des Verbandes der Nordwestdeutschen Textil- und Bekleidungsindustrie. Zusätzlich sollte das Gebäude als Zeichen für die Branche dienen und zeigen, dass die deutsche Textil- und Bekleidungsindustrie eine Zukunftsindustrie ist – modern, innovativ und am Puls der Zeit.

Rund 255 Unternehmen der Branche vertritt der Verband und spiegelt somit ein Viertel der gesamten deutschen Textil- und Bekleidungsindustrie wider. Größen wie Schmitz Textiles mit der Marke drapilux, Hersteller von Objekttextilien Delius und Sonnenschutzprofi Markilux sind unter anderem Mitglieder in dem seit 1902 bestehenden Verband mit Hauptgeschäftsstelle in Münster. Der alten Geschäftsstelle an der Moltkestraße, bei der Parkplätze fehlten und die Infrastruktur veraltet war, ist der Verband entwachsen. Ein neuer Stammsitz mit Strahlkraft musste her. Der besondere Clou: Sowohl bei der äußeren als auch bei der inneren Gestaltung des Neubaus steht das Thema Textil im Fokus. Für die Inneneinrichtung hat der Verband ausschließlich auf die hochwertigen Textilprodukte seiner Mitglieder – wie der Emsdettener Marke drapilux – zurückgegriffen.

Textilanmutende Fassade und Innenräume
Die Pläne für den Neubau, der 2017 fertiggestellt wurde, stammen vom Architektenbüro behet bondzio lin architekten. Roland Bondzio, Geschäftsführer des Büros, erinnert sich zurück: „Bei der Entscheidung für einen Neubau stand schnell fest, dass das Gebäude eine eigene, dem Textilverband angemessene Anmutung haben sollte.“ Und das ist allemal gelungen, wie verschiedene Auszeichnungen beweisen. Die Jury vom Marketing+Architektur-Award lobt die „einzigartige Fassade, gleich einer in Stein gebauten Visitenkarte“. Denn: Die 1.300 Quadratmeter große Süd-, Ost- und Westfassaden erinnern an ein Tuch, das sich um das Gebäude legt. Das Textilthema setzt sich konsequent in der Inneneinrichtung, bei der Produkte der Verbandsmitglieder eingesetzt wurden, fort. Sie alle tragen zu einem modernen und stimmigen Erscheinungsbild bei.

drapilux 117 08 wirkungsvoll in Szene gesetzt
Selbes gilt auch für den Stoff von drapilux, den Thorsten Stoffel von MASTO DEKORATIONEN mit seinem Team angebracht hat. Insgesamt wurden rund 300 Meter Stoff des Artikels drapilux 117 08 für die Ausstattung eines lichtdurchfluteten Besprechungsraums an der Nordfassade vernäht. Die große Fensterfront öffnet die Fassade nach außen, macht so die Räumlichkeiten einsehbar und verleiht ihnen eine gewisse Leichtigkeit und Großzügigkeit, die sich auch in den Textilien wiederfinden. „Das zeitlose Grau des Vorhangstoffs unterstreicht die offene Raumwirkung“, so Thorsten Stoffel. Der Deko füge sich außerdem leicht und nahezu unauffällig ins Gestaltungskonzept ein. Um ein harmonisches und gleichzeitig abwechslungsreiches Farbkonzept zu schaffen, wurden im gesamten Neubau ausschließlich dieselben Grün-, Gelb-, Blau- und Grautöne verwendet.
 
Optik, Funktionalität und Haptik in Einklang
Wer durch das neue Quartier des Textilverbandes geht, merkt, dass Transparenz und Offenheit ganz wesentliche Leitmotive sind. „Scheint die Sonnen mal zu stark oder müssen vertrauliche Gespräche geführt werden, ist der blickdichte Deko absolut wirkungsvoll und reiht sich in das geschlossene Farbkonzept, das durch schlichte Eleganz überzeugt, ein“, ergänzt Thorsten Stoffel. Als überaus praktisch erweisen sich auch die intelligenten Zusatzfunktionen des drapilux-Textils. Der im Besprechungszimmer verwendete Artikel verfügt über die Funktionen drapilux flammstop und drapilux akustik: Er ist schwer entflammbar und verbessert zudem die Raumakustik. Dank der besonderen Gewebekonstruktion wird die Schallausbreitung behindert und die Schallintensität reduziert. Die Folge: Vorträge sind für Zuhörende akustisch gut zu verstehen und während arbeitsintensiver Phasen werden störende Raumgeräusche minimiert.

Der MASTO-Geschäftsführer erinnert sich an die Zusammenarbeit mit dem Textilverband zurück: Neben dem ästhetischen Anspruch sei die Nachhaltigkeit der eingesetzten Textilien ein ausschlaggebender Faktor gewesen. Überzeugt hat der Deko von drapilux durch seine Qualität und Langlebigkeit. Das Schaftgewebe kann bei 60 Grad Celsius gewaschen werden – Farbe, Qualität und der weich fließende Fall bleiben auch bei den hohen Temperaturen erhalten. „Das Textil schafft eine perfekte Symbiose aus Optik, Funktionalität und Haptik“, fasst Thorsten Stoffel zusammen. Ein weiteres Plus: drapilux produziert ressourcenschonend in Emsdetten und ist somit „made in Germany“.

Für sein neues Aushängeschild hat der Nordwestdeutsche Textilverband höchste Anforderungen gestellt und diese gemeinsam mit seinen Mitgliedern in bester textiler Tradition erfüllen können. Von außen und innen beeindruckt die neue textile Visitenkarte und macht deutlich: Traditionelles Handwerk und Modernität gehen Hand in Hand in Richtung Zukunft.

VDMA: Young talents honoured online (c) VDMA
The winners 2020 (from top left to bottom right): Dr. Frederik Cloppenburg, Philippa Böhnke, Juan Carlos Arañó Romero, Dr. Annett Schmieder, Maximilian Speiser, Harry Lucas jun.
03.12.2020

VDMA: Young talents honoured online

In early December, the chairman of the Walter Reiners Foundation of the VDMA Textile Machinery Association, Peter D. Dornier presented awards to six successful young engineers. Due to the Covid-19 pandemic, the award ceremony took place as a web conference for the first time.

Philippa Böhnke, ITM Dresden, and Juan Carlos Arañó Romero, ITA Aachen, were honoured with creativity awards for the cleverest bachelor or project work. The prizes are endowed with 3,000 euros each. Ms. Böhnke’s project dealt with composite implants for the repair and regeneration of bone defects. In his bachelor thesis, Mr. Arañó Romero has developed a spinning machine able to produce yarn with material from the moon. By this, the transport effort in space travel can be minimised, because insulating material for example necessary for a moon base can be produced on the moon directly.

In early December, the chairman of the Walter Reiners Foundation of the VDMA Textile Machinery Association, Peter D. Dornier presented awards to six successful young engineers. Due to the Covid-19 pandemic, the award ceremony took place as a web conference for the first time.

Philippa Böhnke, ITM Dresden, and Juan Carlos Arañó Romero, ITA Aachen, were honoured with creativity awards for the cleverest bachelor or project work. The prizes are endowed with 3,000 euros each. Ms. Böhnke’s project dealt with composite implants for the repair and regeneration of bone defects. In his bachelor thesis, Mr. Arañó Romero has developed a spinning machine able to produce yarn with material from the moon. By this, the transport effort in space travel can be minimised, because insulating material for example necessary for a moon base can be produced on the moon directly.

Harry Lucas, TU Chemnitz, and Maximilian Speiser, Reutlingen University, were awarded two promotion prizes in the category master thesis with prize money of 3,500 euros each. The master thesis of Mr. Lucas deals with the development of a new knitting head for jacquard knitted fabrics, enabling a large variety of colours e.g. in the production of fan scarfs. Mr. Speiser showed in his master thesis a solution for increasing energy efficiency in the nonwovens process.

This year, two promotion prizes of the German Textile Machinery Industry in the dissertation category were awarded to Dr. Frederik Cloppenburg, ITA Aachen, and Dr. Annett Schmieder, TU Chemnitz. In his dissertation Mr. Cloppenburg developed a model for the optimisation of roller cards in the nonwovens process. Ms. Schmieder introduced in her dissertation a damage analysis system for fibre ropes. The system detects when a rope must be replaced e.g. in transport applications.

The award ceremony 2021 shall take place with physical presence again. It is scheduled for early May at the fair Techtextil in Frankfurt.

Source:

VDMA

Martin Dulig (rechts), Sächsischer Staatsminister für Wirtschaft, Arbeit und Verkehr, bei der Übergabe des Zuwendungsbescheides für den Aufbau des Forschungs-, Entwicklungs- und Beratungszentrums für Schutzausrüstungen gegen Infektionserreger an den Geschäftsführenden Kaufmännischen Direktor des Sächsischen Textilforschungsinstitutes e. V. (STFI), Andreas Berthel. Foto: SMWA/Jungmann.
06.10.2020

Beratungszentrum für Schutzausrüstungen erhält Förderung vom Freistaat Sachsen

Die Maskenpflicht hilft während der Corona-Pandemie, die Ausbreitung der Viren einzudämmen. Viele Schutzfunktionen von Atemschutzmasken sind materialseitig vorgegeben und werden bereits am Ausgangsmaterial oder an den Materialverbunden ermittelt. Ist dies erfolgt, besteht für die nachfolgende Stufe der Konfektion einer Maske die berechtigte Möglichkeit einer auch am Endprodukt vorhandenen Schutzfunktion. Diese muss jedoch unabdingbar am gesamten Schutzsystem (z. B. der Atemschutzmaske) nachgewiesen, d. h. geprüft und nachfolgend zertifiziert sein. Daher müssen für Forschung und Entwicklung von Spinnvlies- oder Meltblown-Vliesstoffen bzw. deren Verbünde Möglichkeiten geschaffen werden, die eine über alle Prozessstufen vom Material bis zum Endprodukt reichende Bewertung der Schutzfunktion verlässlich erlauben.

Die Maskenpflicht hilft während der Corona-Pandemie, die Ausbreitung der Viren einzudämmen. Viele Schutzfunktionen von Atemschutzmasken sind materialseitig vorgegeben und werden bereits am Ausgangsmaterial oder an den Materialverbunden ermittelt. Ist dies erfolgt, besteht für die nachfolgende Stufe der Konfektion einer Maske die berechtigte Möglichkeit einer auch am Endprodukt vorhandenen Schutzfunktion. Diese muss jedoch unabdingbar am gesamten Schutzsystem (z. B. der Atemschutzmaske) nachgewiesen, d. h. geprüft und nachfolgend zertifiziert sein. Daher müssen für Forschung und Entwicklung von Spinnvlies- oder Meltblown-Vliesstoffen bzw. deren Verbünde Möglichkeiten geschaffen werden, die eine über alle Prozessstufen vom Material bis zum Endprodukt reichende Bewertung der Schutzfunktion verlässlich erlauben.

Das Sächsische Textilforschungsinstitut e. V. (STFI) verfügt über verschiedene Prüfmethoden und -geräte zur Materialklassifizierung hinsichtlich Staubpartikel-Filtrationsleistung (Druckdifferenz, Abscheidegrad fester Partikel, Porengrößenanalyse) sowie ausgewählte Anzug- und Flächenprüfungen zum Chemikalienschutz. Technik für eine anforderungsgerechte Prüfung der für Atemschutz erforderlichen Einsatzmaterialien ist gegenwärtig aber weder in Sachsen noch im Institut verfügbar.

„Das ist ein Zustand, der sich in Zukunft ändern muss.“ so Andreas Berthel, Geschäftsführender Kaufmännischer Direktor des STFI. „Daher haben wir beim Sächsischen Staatsministerium für Wirtschaft, Arbeit und Verkehr (SMWA) den Antrag zum Aufbau eines Forschungs- Entwicklungs- sowie Beratungszentrums für Schutzausrüstung gegen Infektionserreger gestellt.“

Im Mittelpunkt steht dabei der Aufbau eines Prüfstandes für Atemschutzmasken und sonstiger medizinischer Schutzausrüstung. Damit wird auch dem Wunsch des Bundes entsprochen, dass die Bundesländer Möglichkeiten zur Überprüfung von Atemschutzmasken, auch über jetzige Krisensituationen hinaus, schaffen.

Zur Jahresmitgliederversammlung des Verbandes der Nord- Ostdeutschen Textil- und Bekleidungsindustrie e. V. (vti) am 24.09.2020 wurde der Grundstein für das Projekt gelegt. Martin Dulig, sächsischer Staatsminister für Wirtschaft, Arbeit und Verkehr überreichte Andreas Berthel einen Förderbescheid vom SMWA. Mit Mitteln der Landestechnologieförderung und mit einem GRW-Investitionszuschuss wird das Vorhaben des Sächsischen Textilforschungsinstitutes unterstützt, um die dringend benötigten Prüfkapazitäten zur Zertifizierung von FFP-Masken zur Bewältigung der Corona-Pandemie zu schaffen.

 

More information:
STFI Masken Atemschutzmasken
Source:

Sächsisches Textilforschungsinstitut e.V. (STFI)

18.05.2020

Erfolgreiche Premiere für E3C

Forschende aus aller Welt diskutierten Zellkonzepte von elektrochemischen Reaktoren

Eine Plattform bieten für den interdisziplinären Austausch auf dem Gebiet elektrochemischer Zellen – mit dieser Zielsetzung startete Jan Girschik die Planung für das erste »E3C – Electrochemical Cell Concepts Colloquium«. Dieses Ziel hat der Wissenschaftler des Fraunhofer-Institut für Umwelt-, Sicherheits- und Energietechnik UMSICHT definitiv erreicht: Über 130 Forschende aus 13 Ländern – darunter Kanada, die USA, Uruguay, Indien, Griechenland, Großbritannien und sieben weitere europäische Nationen – nahmen an der Online-Veranstaltung am 14. Mai teil. Ihre Vorträge und Diskussionen drehten sich um Gemeinsamkeiten und potenzielle Kombinationsmöglichkeiten von Zellkonzepten und Fluidführungen für Flow-Batterien, Brennstoffzellen, Elektrolyse-, Elektrosynthese- und Elektrodialysezellen.

Forschende aus aller Welt diskutierten Zellkonzepte von elektrochemischen Reaktoren

Eine Plattform bieten für den interdisziplinären Austausch auf dem Gebiet elektrochemischer Zellen – mit dieser Zielsetzung startete Jan Girschik die Planung für das erste »E3C – Electrochemical Cell Concepts Colloquium«. Dieses Ziel hat der Wissenschaftler des Fraunhofer-Institut für Umwelt-, Sicherheits- und Energietechnik UMSICHT definitiv erreicht: Über 130 Forschende aus 13 Ländern – darunter Kanada, die USA, Uruguay, Indien, Griechenland, Großbritannien und sieben weitere europäische Nationen – nahmen an der Online-Veranstaltung am 14. Mai teil. Ihre Vorträge und Diskussionen drehten sich um Gemeinsamkeiten und potenzielle Kombinationsmöglichkeiten von Zellkonzepten und Fluidführungen für Flow-Batterien, Brennstoffzellen, Elektrolyse-, Elektrosynthese- und Elektrodialysezellen.

In welche Richtung die weitere Entwicklung in Zukunft gehen könnte, verdeutlichte Edward Roberts von der University of Cagliary am Beispiel einiger »wacky ideas«, an denen sein Team und er aktuell arbeiten. Dazu gehören komplexe Zellen mit beweglichen Festbettelektroden, eine oszillierende Fluidführung sowie Modifikationen mit magnetischen Feldern.

Neue Wege zur Gestaltung von Elektroden
Innovative Ideen stellte auch Prof. Matthias Wessling vor. Der Wissenschaftler der RWTH Aachen hielt die zweite Keynote mit dem Titel »Free form fabrication of electrochemical membrane reactors« und betonte: »Die Integration von Reaktions- und Trennsystemen für Elektroden ist ein wunderbarer, wissenschaftlicher Spielplatz für elektrochemische Ingenieurinnen und Ingenieure.“ Auf dem Aachener Spielplatz sind u. a. nickelbasierte Anoden für die Oxidation von Lignin entstanden – und zwar in Gestalt keramischer Membranrohre. Diese können z. B. per 3D-Druck, selektivem Lasersintern und laserloser additiver Fertigung hergestellt werden, so Matthias Wessling.

Um die Kreativität der Teilnehmenden mit Blick auf die Gestaltung von Elektroden anzuregen, stellte er zudem verschiedene Formen vor, mit denen sein Team und er arbeiten. Abschließend thematisierte er Röhrenreaktoren sowie den Einsatz von Durchfluss- und Slurry-Elektroden.

Auf die Keynotes folgten weitere Vorträge in drei Sessions: Im Fokus von »Cell design and fluid flow« standen Zellkonzepte und innovative Strömungsführungen unterschiedlicher Reaktorarten. In der Session »Functional components« ging es u. a. um Membranen und poröse Elektroden, während sich die Session »Stack design, testing and sealing technology« primär um den bipolaren Aufbau von elektrochemischen Reaktoren drehte. Die Vortragenden kamen u. a. von dem Institut für Mikrosystemtechnik IMTEK, dem Karlsruher Institut für Technologie, dem DECHEMA-Forschungsinstitut, der Hochschule für Angewandte Wissenschaften Hamburg, dem Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg, der TU Clausthal, der ZBT GmbH sowie dem Fraunhofer-Institut für Grenzflächen- und Bioverfahrenstechnik IGB und dem UMSICHT.

 

Source:

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