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adidas: Study on effect of pressure in sports (c) adidas AG
19.02.2024

adidas: Study on effect of pressure in sports

Under adidas’ ambition to help athletes overcome high pressure moments in sport, it has teamed up with leading sport neuroscientists, neuro11, to understand the impact it has within a game of football, basketball, and golf during penalty shootouts, high-stake putts and must-make free-throws.

Working with Emiliano Martínez, Ludvig Åberg, Nneka Ogwumike, Rose Zhang, and Stina Blackstenius, as well as amateurs in the game, adidas and neuro11 delved into their minds to identify and analyse where pressure peaks, to help athletes across the globe to better understand it.

Understanding from this study that grassroots athletes and their elite counterparts experience similarly intense levels of pressure in the biggest sporting moments - but elite athletes were up to 40% more effective at managing pressure during these moments1 - a toolbox of techniques has been developed, built from the specific findings, to assist next-gen athletes in managing and overcoming the feeling within their game.

Under adidas’ ambition to help athletes overcome high pressure moments in sport, it has teamed up with leading sport neuroscientists, neuro11, to understand the impact it has within a game of football, basketball, and golf during penalty shootouts, high-stake putts and must-make free-throws.

Working with Emiliano Martínez, Ludvig Åberg, Nneka Ogwumike, Rose Zhang, and Stina Blackstenius, as well as amateurs in the game, adidas and neuro11 delved into their minds to identify and analyse where pressure peaks, to help athletes across the globe to better understand it.

Understanding from this study that grassroots athletes and their elite counterparts experience similarly intense levels of pressure in the biggest sporting moments - but elite athletes were up to 40% more effective at managing pressure during these moments1 - a toolbox of techniques has been developed, built from the specific findings, to assist next-gen athletes in managing and overcoming the feeling within their game.

Covering in-depth detail on what pressure looks like within each sport, how it has been proven to impact specific in-game moments, the brain zones that neuro11’s state-of-the-art brain technology measures and the main insights from each athlete’s training session, each report sets out to support all athletes in accessing the optimal zone - the brain state in which they perform at their best.

Rounded off with science-backed tips that reveal the optimal area of a goal to strike a penalty, how to use time to regain focus before netting a free throw, as well as the impact of dwell time on putting in golf – the guides are shaped around enhancing mental focus during some of the most pressured moments across sport.

1 Findings captured during athlete training sessions, as part of adidas SS24 Brand Campaign, in collaboration with neuro11 (November ’23- January ’24). Study carried out with Emiliano Martínez, Ludvig Åberg, Nneka Ogwumike, Rose Zhang, and Stina Blackstenius, in addition to 5 grassroot athletes.

Source:

adidas AG

Prof. Dr Tae Jin Kang (Seoul National University), Dr Musa Akdere (CarboScreen), Dr Christian P. Schindler (ITMF), from left to right. Source: ITMF
Prof. Dr Tae Jin Kang (Seoul National University), Dr Musa Akdere (CarboScreen), Dr Christian P. Schindler (ITMF), from left to right.
01.12.2023

Faster and cheaper carbon fibre production with CarboScreen

Faster and more cost-effective carbon fibre production - the technology of the start-up CarboScreen comes a good deal closer to this dream. The founders Dr. Musa Akdere, Felix Pohlkemper and Tim Röding from the Institut für Textiltechnik (ITA) of RWTH Aachen University are using sensor technology to monitor carbon fibre production, thereby doubling the production speed from the current 15 to 30 m/min in the medium term and increasing turnover by up to €37.5 million per year and system. This ground-breaking development also impressed the jury at the ITMF at their Annual Conference in Keqiao, China, and was honoured with the ITMF StartUp Award 2023 on 6 November 2023.

Dr. Musa Akdere accepted the award on behalf of the CarboScreen founding team.

Carbon fibres can only develop their full potential if they are not damaged during production and further processing. Two types of fibre damage occur more frequently during fibre production: Superficial or mechanical damage to the fibres or damage to the chemical structure.

Faster and more cost-effective carbon fibre production - the technology of the start-up CarboScreen comes a good deal closer to this dream. The founders Dr. Musa Akdere, Felix Pohlkemper and Tim Röding from the Institut für Textiltechnik (ITA) of RWTH Aachen University are using sensor technology to monitor carbon fibre production, thereby doubling the production speed from the current 15 to 30 m/min in the medium term and increasing turnover by up to €37.5 million per year and system. This ground-breaking development also impressed the jury at the ITMF at their Annual Conference in Keqiao, China, and was honoured with the ITMF StartUp Award 2023 on 6 November 2023.

Dr. Musa Akdere accepted the award on behalf of the CarboScreen founding team.

Carbon fibres can only develop their full potential if they are not damaged during production and further processing. Two types of fibre damage occur more frequently during fibre production: Superficial or mechanical damage to the fibres or damage to the chemical structure.

Both types of damage cannot be optimally detected by current means or only become apparent after production, to name just two examples. This leads to higher production costs. In an emergency, faulty production can even lead to plant fires. For this reason, and to ensure good production quality, the system is run at 15 m/min below its production capacity for safety reasons. However, 30 m/min or more would be possible. With the sensor-based online monitoring of CarboScreen, the production capacity can be doubled to 30 /min. This would lead to higher production, resulting in lower manufacturing costs and wider use of carbon fibres in mass markets such as automotive, aerospace and wind energy.

More information:
carbon fibers sensors Startup
Source:

ITA – Institut für Textiltechnik of RWTH Aachen University
 

25.08.2023

Exist research transfer project FoxCore successfully launched

The FoxCore founding team and the ITM at TU Dresden aim to usher in a new era for fastening solutions in lightweight construction with the start of the Exist research transfer project FoxCore. The project started on June 1, 2023, and will run until November 30, 2024, with support from the German Federal Ministry of Economics and Climate Protection (BMWK) and the European Social Fund (ESF).

The innovative company is to develop and offer new and customer-oriented fastening solutions for lightweight construction applications. Safety and performance of lightweight solutions in various industries are to be increased. FoxCore's objective is to take a leading role in fastening technology.

Daniel Weise, Philipp Schegner, Michael Vorhof and Cornelia Sennewald form the FoxCore team; they will work closely with the Institute of Textile Machinery and Textile High Performance Materials (ITM) at TU Dresden. Together, they will develop optimal manufacturing technologies and establish a widespread network of customers and suppliers.

The FoxCore founding team and the ITM at TU Dresden aim to usher in a new era for fastening solutions in lightweight construction with the start of the Exist research transfer project FoxCore. The project started on June 1, 2023, and will run until November 30, 2024, with support from the German Federal Ministry of Economics and Climate Protection (BMWK) and the European Social Fund (ESF).

The innovative company is to develop and offer new and customer-oriented fastening solutions for lightweight construction applications. Safety and performance of lightweight solutions in various industries are to be increased. FoxCore's objective is to take a leading role in fastening technology.

Daniel Weise, Philipp Schegner, Michael Vorhof and Cornelia Sennewald form the FoxCore team; they will work closely with the Institute of Textile Machinery and Textile High Performance Materials (ITM) at TU Dresden. Together, they will develop optimal manufacturing technologies and establish a widespread network of customers and suppliers.

Source:

Institute of Textile Machinery and High Performance Material Technology (ITM)
TU Dresden

PrimaLoft expands Active Insulation Range (c) PrimaLoft, Inc.
28.07.2023

PrimaLoft expands Active Insulation Range

PrimaLoft, Inc., a leader in advanced material technology, is expanding its  Active Insulation Range by adding four new Active Evolve styles, reaffirming its commitment to providing cutting-edge solutions that meet the evolving needs of consumers.

Originally launched in 2018, PrimaLoft Active Evolve is a line of insulating fabrics that is designed to evolve performance, design, and sustainability. Combining the lightweight warmth of insulation with the breathability of fabric, this technology is developed to perform in a wide range of activities, regardless of intensity or season. From pushing yourself during a cross country ski tour, to working up a sweat hiking to the next peak, PrimaLoft Active Evolve keeps you in your comfort zone – even when you’re pushing yourself out of it.

PrimaLoft, Inc., a leader in advanced material technology, is expanding its  Active Insulation Range by adding four new Active Evolve styles, reaffirming its commitment to providing cutting-edge solutions that meet the evolving needs of consumers.

Originally launched in 2018, PrimaLoft Active Evolve is a line of insulating fabrics that is designed to evolve performance, design, and sustainability. Combining the lightweight warmth of insulation with the breathability of fabric, this technology is developed to perform in a wide range of activities, regardless of intensity or season. From pushing yourself during a cross country ski tour, to working up a sweat hiking to the next peak, PrimaLoft Active Evolve keeps you in your comfort zone – even when you’re pushing yourself out of it.

Several products in the Active Evolve line can be used as a next-to-skin fabric. This enables brands to forego liner fabrics, which means heat and moisture are more efficiently managed, breathability is supported, and user comfort is maintained. In addition to achieving optimal performance during aerobic activity, this yields a wider utility and year-round use, all while allowing brands to use less overall material when designing a garment, reducing footprint and waste.

PrimaLoft Active Evolve offers several advantages to designers. It enables them to utilize the full spectrum of color, incorporate unique patterns, and provides greater flexibility in fabric selection. Additionally, Active Evolve eliminates the need for quilting in the design process. Products within the Active Evolve line are made from up to 100% post-consumer recycled content, including three of the four new styles.

With more than a dozen brand adoptions thus far, PrimaLoft Active Evolve’s adaptability for the user, range of use across activities, and seasonal timing, is quickly making this one of the most versatile products in the PrimaLoft portfolio. For Fall/Winter 2023-2024, key partner brands beside Sitka and Löffler will include CP Company, Eddie Bauer, Endura, Martini Sportswear, OMM, Quiksilver, Ziener and more.

Source:

PrimaLoft, Inc.

Dr. Stefan König (c) Optima
Dr. Stefan König
23.02.2023

Dr. Stefan König verantwortet künftig auch Optima nonwovens GmbH

Zum 1. März 2023 überträgt Hans Bühler, geschäftsführender Gesellschafter der Optima Gruppe, die Verantwortung für den Geschäftsbereich Optima Nonwovens an Dr. Stefan König, Geschäftsführer der OPTIMA packaging group GmbH. Dr. König übernimmt die Verantwortung aller zugehörigen Nonwovens-Einheiten weltweit.

„Mit dieser Entscheidung fördern wir die intensive Zusammenarbeit aller Einheiten, die Maschinen und Services für den Konsumgüter-markt liefern. Dr. Stefan König verfügt über ein sehr großes Fach- und Führungswissen, das ihn als erfahrenen Manager auszeichnet. Die Positionen und Aufgaben der beiden Geschäftsführer von Optima Nonwovens, Dr. Georg Pfeifer und Oliver Rebstock, bleiben dabei unverändert“, erläutert Hans Bühler.

Seit März 2021 ist König in der Geschäftsführung von Optima unter anderem verantwortlich für die Geschäftsbereiche Consumer und Life Science sowie für das Thema zentrale Nachhaltigkeit. Vor seinem Wechsel zu Optima war König über 20 Jahre lang in leitenden Managementpositionen tätig, davon vier Jahre in Asien. Zuletzt war König CEO bei einem weltweit tätigen Konzern.

Zum 1. März 2023 überträgt Hans Bühler, geschäftsführender Gesellschafter der Optima Gruppe, die Verantwortung für den Geschäftsbereich Optima Nonwovens an Dr. Stefan König, Geschäftsführer der OPTIMA packaging group GmbH. Dr. König übernimmt die Verantwortung aller zugehörigen Nonwovens-Einheiten weltweit.

„Mit dieser Entscheidung fördern wir die intensive Zusammenarbeit aller Einheiten, die Maschinen und Services für den Konsumgüter-markt liefern. Dr. Stefan König verfügt über ein sehr großes Fach- und Führungswissen, das ihn als erfahrenen Manager auszeichnet. Die Positionen und Aufgaben der beiden Geschäftsführer von Optima Nonwovens, Dr. Georg Pfeifer und Oliver Rebstock, bleiben dabei unverändert“, erläutert Hans Bühler.

Seit März 2021 ist König in der Geschäftsführung von Optima unter anderem verantwortlich für die Geschäftsbereiche Consumer und Life Science sowie für das Thema zentrale Nachhaltigkeit. Vor seinem Wechsel zu Optima war König über 20 Jahre lang in leitenden Managementpositionen tätig, davon vier Jahre in Asien. Zuletzt war König CEO bei einem weltweit tätigen Konzern.

More information:
Optima nonwovens packaging
Source:

Optima

(c) Baldwin Technology Company Inc.
08.02.2023

Majocchi uses Baldwin’s Corona Treatment Technology

Majocchi, an Italian textile manufacturer, reports that it has achieved functional and visual appeal with its key fabrics since installing Baldwin Technology Co. Inc.’s corona surface treatment technology.  

Based in Tavernerio (Como), Majocchi has a history of being a technological innovator in the textile industry. Within a decade of its conception in 1941, Majocchi became a global supplier of waterproof cotton for rainwear manufacturers. In the 1960s, the company began producing nylon and technical fabrics, which paved the way for it to become a leading provider of textiles for urban fashion, technical workwear and the military today.

Majocchi has partnered with U.S -based Baldwin Technology Co. to utilize its unrivaled corona surface-treatment technology to produce superior wettability and adhesion.  

Majocchi, an Italian textile manufacturer, reports that it has achieved functional and visual appeal with its key fabrics since installing Baldwin Technology Co. Inc.’s corona surface treatment technology.  

Based in Tavernerio (Como), Majocchi has a history of being a technological innovator in the textile industry. Within a decade of its conception in 1941, Majocchi became a global supplier of waterproof cotton for rainwear manufacturers. In the 1960s, the company began producing nylon and technical fabrics, which paved the way for it to become a leading provider of textiles for urban fashion, technical workwear and the military today.

Majocchi has partnered with U.S -based Baldwin Technology Co. to utilize its unrivaled corona surface-treatment technology to produce superior wettability and adhesion.  

Corona treatment is a technique that temporarily modifies a substrate’s surface tension  properties. The corona oxidation process improves the penetration and absorption of liquids on cellulosic and synthetic fabrics. Utilizing corona treatment before resin application on fabrics such as lycra and nylon facilitates superior adhesion and resin distribution. As a result, corona-treated fabrics provide exceptional color and tonal quality.  

Majocchi uses Baldwin’s Corona Pure Model to apply polyurethane and acrylic-based coatings to its fabrics. The system allows Majocchi to administer a controllable, uniform coating to achieve the desired functionality and aesthetics.

The system is 2,000 millimeters wide with a discharging station and four ceramic electrodes designed for textile applications with the flexibility of customizing plasma dosage for a given fabric structure, width and process speed. The Corona Pure model allows for fabric treatment up to 300 gr/m² in thickness. The system is customizable, with single-sided and dual-sided treatment capabilities. The “Easy Change” feature allows for a seamless replacing of electrodes and rapid cleaning and removal of fiber and dust residue, maintaining optimal exhaust air flow. The treatment system is built with a swiveling housing mechanism, which provides clearance for changes in textile thickness and protects the ceramic electrodes.

More information:
Baldwin Majocchi Coatings Covid-19
Source:

Baldwin Technology Company Inc.

09.01.2023

Autoneum takes over automotive business of Borgers Group

January, 6 Autoneum signed an agreement to acquire the automotive business of Borgers. The transaction is expected to close in April 2023 following antitrust clearance. The enterprise value paid amounts to EUR 117 million.

Borgers specializes in textile acoustics protection, insulation and trim for automobiles. The product and customer range of Borgers is to a great extent complementary to the product and customer portfolio of Autoneum. Borgers’ wheel arch liner and trunk liner product lines as well as their truck business optimally complement the product range of Autoneum. Especially in the field of textile wheel arch liners, Borgers is the market leader in Europe. In addition, Borgers’ product range is distinguished by sustainable and fully recyclable products. In fiscal year 2021, the Borgers Automo-tive Group generated revenue of EUR 610 million with around 4 700 employees. Thanks to Autoneum’s global presence, the Borgers product portfolio adds to the sales potential for profitable growth in the medium term outside Europe.

January, 6 Autoneum signed an agreement to acquire the automotive business of Borgers. The transaction is expected to close in April 2023 following antitrust clearance. The enterprise value paid amounts to EUR 117 million.

Borgers specializes in textile acoustics protection, insulation and trim for automobiles. The product and customer range of Borgers is to a great extent complementary to the product and customer portfolio of Autoneum. Borgers’ wheel arch liner and trunk liner product lines as well as their truck business optimally complement the product range of Autoneum. Especially in the field of textile wheel arch liners, Borgers is the market leader in Europe. In addition, Borgers’ product range is distinguished by sustainable and fully recyclable products. In fiscal year 2021, the Borgers Automo-tive Group generated revenue of EUR 610 million with around 4 700 employees. Thanks to Autoneum’s global presence, the Borgers product portfolio adds to the sales potential for profitable growth in the medium term outside Europe.

Autoneum is acquiring Borgers from insolvency and has agreed new pricing and delivery terms with its customers. These will ensure sustained profitability and the further development of product and process technologies in both the short and long term.

The transaction will initially be financed through a new credit facility which is available in addition to the syndicated loan of CHF 350 million renewed in October 2022. A capital increase in the amount of approximately CHF 100 million is planned for the long-term refinancing of the acquisition. Autoneum’s two largest shareholders, Artemis Beteiligungen I AG and PCS Holding AG, have agreed to participate in the capital increase in proportion to their current shareholdings. Even taking into account the aforementioned capital increase, the transaction will generate a positive earn-ings per share contribution from the outset.

Source:

Autoneum Management AG

(c) Fraunhofer ICT
06.01.2023

Fraunhofer CPM develop programmable material for ergonomic lying position

Many people across the world are bedridden – be it due to illness, an accident or old age. Because those affected often cannot move or turn over by themselves, they often end up with very painful bedsores. In the future, it should be possible to avoid bedsores with the help of materials that can be programmed to entirely adapt their form and mechanical properties. For example, the body support of mattresses made from programmable materials can be adjusted in any given area at the push of a button. Furthermore, the support layer is formed in such a way that strong pressure on one point can be distributed across a wider area. Areas of the bed where pressure is placed are automatically made softer and more elastic. Caregivers can also adjust the ergonomic lying position to best fit their patient.

Many people across the world are bedridden – be it due to illness, an accident or old age. Because those affected often cannot move or turn over by themselves, they often end up with very painful bedsores. In the future, it should be possible to avoid bedsores with the help of materials that can be programmed to entirely adapt their form and mechanical properties. For example, the body support of mattresses made from programmable materials can be adjusted in any given area at the push of a button. Furthermore, the support layer is formed in such a way that strong pressure on one point can be distributed across a wider area. Areas of the bed where pressure is placed are automatically made softer and more elastic. Caregivers can also adjust the ergonomic lying position to best fit their patient.

Materials and microstructuring
Materials for applications requiring specific changes to stiffness or shape are being developed by researchers from Fraunhofer CPM, which is formed of six core institutes with the aim of designing and producing programmable materials. So, how can we program materials? “Essentially, there are two key areas where adjustments can be made: the base material – thermoplastic polymers in the case of mattresses and metallic alloys for other applications, including shape memory alloys – and, more specifically, the microstructure,” explains Dr. Heiko Andrä, spokesperson on the topic at the Fraunhofer Institute for Industrial Mathematics ITWM, one of the Fraunhofer CPM core institutes. “The microstructure of these metamaterials is made up of unit cells that consist of structural elements such as small beams and thin shells.” While the size of each unit cell and its structural elements in conventional cellular materials, like foams, vary randomly, the cells in the programmable materials are also variable – but can be precisely defined, i.e., programmed. This programming can be made, for example, in such a way that pressure on a particular position will result in specific changes at other regions of the mattress, i.e., increase the size of the contact surface and provide optimal support to certain areas of the body.

Materials can also react to temperature or humidity
The change in shape that the material should exhibit and the stimuli to which it reacts - mechanical stress, heat, moisture or even an electric or magnetic field - can be determined by the choice of material and its microstructure.

The journey to application
A single piece of material can take the place of entire systems of sensors, regulators and actuators. The goal of Fraunhofer CPM is to reduce the complexity of systems by integrating their functionalities into the material and reducing material diversity. We always have industrial products in mind when developing the programmable materials. As such, we take mass production processes and material fatigue into account, among other things,” says Franziska Wenz, deputy spokesperson on the topic at the Fraunhofer Institute for Mechanics of Materials IWM, another core institute of Fraunhofer CPM. The initial pilot projects with industry partners are also already underway. The research team expects that initially, programmable materials will act as replacements for components in existing systems or be used in special applications such as medical mattresses, comfortable chairs, variable damping shoe soles and protective clothing. “Gradually, the proportion of programmable materials used will increase,” says Andrä. Ultimately, they can be used everywhere – from medicine and sporting goods to soft robotics and even space research.

Source:

Fraunhofer ITWM

16.11.2022

CHT: From plastic waste to textile finishing: ARRISTAN rAIR

  • made out of recycled PET flakes and recyclable again
  • suited for finishing recycled yarns and fabrics
  • moisture management in sports and active wear

For the sustainable use of resources, the CHT Group has developed the product ARRISTAN rAIR, according to the principles of the circular economy. Here, plastic waste is converted into a valuable textile finishing product to achieve, for example, optimal moisture management in sports and active wear. Other areas of application include socks and tights in the clothing sector, filtration media and nonwovens in the technical textiles sector, and pillows and curtains in home textiles.

Since ARRISTAN rAIR is made out of recycled PET flakes, it is suited for finishing recycled yarns and fabrics which are subsequently recyclable again.

The hydrophilizing agent ARRISTAN rAIR is characterized by its fast-drying properties in combination with excellent soil release and thermoregulation. It therefore offers, especially in the field of functional textiles, optimal functionalities for high-quality and durable sportswear.

  • made out of recycled PET flakes and recyclable again
  • suited for finishing recycled yarns and fabrics
  • moisture management in sports and active wear

For the sustainable use of resources, the CHT Group has developed the product ARRISTAN rAIR, according to the principles of the circular economy. Here, plastic waste is converted into a valuable textile finishing product to achieve, for example, optimal moisture management in sports and active wear. Other areas of application include socks and tights in the clothing sector, filtration media and nonwovens in the technical textiles sector, and pillows and curtains in home textiles.

Since ARRISTAN rAIR is made out of recycled PET flakes, it is suited for finishing recycled yarns and fabrics which are subsequently recyclable again.

The hydrophilizing agent ARRISTAN rAIR is characterized by its fast-drying properties in combination with excellent soil release and thermoregulation. It therefore offers, especially in the field of functional textiles, optimal functionalities for high-quality and durable sportswear.

Source:

CHT Germany GmbH

(c) Baldwin Technology Company Inc. / Barry-Wehmiller
26.05.2022

Baldwin’s TexCoat G4 finishing system minimizes chemical and water waste

Baldwin Technology Company Inc. has announced the installation of its TexCoat G4 finishing system at Graniteville Specialty Fabrics, a recognized leader in the production of specialty coatings and coated fabrics. With Baldwin’s cost-efficient and highly sustainable spray finishing technology, Graniteville Specialty Fabrics has been able to increase production efficiency, and minimize chemical and water waste.

Based in Graniteville, South Carolina, Graniteville Specialty Fabrics produces coatings and coated fabrics that are resistant to water, fire, UV and weather for the military, marine and tent markets, and others. The company excels in developing and sourcing custom coatings, and creating specialized technical solutions to meet specific, and often unique, end-user requirements. The installation of Baldwin’s TexCoat G4 is part of a major facility upgrade to maximize production efficiency and capacity in the durable water-repellent finishing and coating line to meet growing customer demand for advanced engineered products.

Baldwin Technology Company Inc. has announced the installation of its TexCoat G4 finishing system at Graniteville Specialty Fabrics, a recognized leader in the production of specialty coatings and coated fabrics. With Baldwin’s cost-efficient and highly sustainable spray finishing technology, Graniteville Specialty Fabrics has been able to increase production efficiency, and minimize chemical and water waste.

Based in Graniteville, South Carolina, Graniteville Specialty Fabrics produces coatings and coated fabrics that are resistant to water, fire, UV and weather for the military, marine and tent markets, and others. The company excels in developing and sourcing custom coatings, and creating specialized technical solutions to meet specific, and often unique, end-user requirements. The installation of Baldwin’s TexCoat G4 is part of a major facility upgrade to maximize production efficiency and capacity in the durable water-repellent finishing and coating line to meet growing customer demand for advanced engineered products.

With extensive sustainability benefits, unprecedented tracking and process control, and Industry 4.0 integration, the TexCoat G4 provides consistently high-quality fabric finishing, with no chemistry waste, as well as minimal water and energy consumption. This system utilizes non-contact precision-spray technology, ensuring precise finishing coverage with the exact amount of chemistry for reaching the optimal performance of the fabric. Changeovers (pad bath emptying, cleaning and refilling) are significantly reduced, resulting in substantial chemical conservation and increased productivity.

Source:

Baldwin Technology Company Inc. / Barry-Wehmiller

17.02.2022

RINCO ULTRASONICS continues to grow - new foundation RINCO Morocco

Morocco has created an optimal basis for companies with the introduction of the duty-free zone. RINCO ULTRASONICS will take advantage of this opportunity and strengthen its own position in the Moroccan market by establishing RINCO Morocco. RINCO Morocco will act as a center for the African continent. The automotive industry as well as the textile industry are particularly well represented locally.

RINCO ULTRASONICS AG, headquartered in Romanshorn, Switzerland, has specialized in the development and manufacture of ultrasonic welding machines and ultrasonic cutting systems since its founding in 1976. RINCO products are used for reliable welding of plastic parts as well as for cutting food and synthetic textiles.

Morocco has created an optimal basis for companies with the introduction of the duty-free zone. RINCO ULTRASONICS will take advantage of this opportunity and strengthen its own position in the Moroccan market by establishing RINCO Morocco. RINCO Morocco will act as a center for the African continent. The automotive industry as well as the textile industry are particularly well represented locally.

RINCO ULTRASONICS AG, headquartered in Romanshorn, Switzerland, has specialized in the development and manufacture of ultrasonic welding machines and ultrasonic cutting systems since its founding in 1976. RINCO products are used for reliable welding of plastic parts as well as for cutting food and synthetic textiles.

Source:

Rinco Ultrasonics AG

14.10.2021

Baldwin brings new connected technology to FEFCO Technical Seminar

Baldwin Technology Company Inc. will showcase its new portfolio of optimized LED-UV curing, IRdrying and automated cleaning solutions—all specifically designed for corrugated high-graphics printers—at the European Federation of Corrugated Board Manufacturers (FEFCO) Technical Seminar, held October 20 to 22 in Copenhagen, Denmark.

Baldwin’s FlexoCleanerBrush™ removes hickeys in four seconds and can clean plates within three to four minutes, increasing print quality and providing a cleaner, safer work environment. This automated cleaner removes fibers, debris and fine lines from printing plates at the beginning, during or at the end of a job, allowing printers to achieve optimal quality with minimal downtime—Baldwin has a proven track record of enabling significant productivity improvements for its long list of customers. Designed to replace all manual activities, this cleaning system eliminates skin contact with wash agents, increasing workers’ safety.

Baldwin Technology Company Inc. will showcase its new portfolio of optimized LED-UV curing, IRdrying and automated cleaning solutions—all specifically designed for corrugated high-graphics printers—at the European Federation of Corrugated Board Manufacturers (FEFCO) Technical Seminar, held October 20 to 22 in Copenhagen, Denmark.

Baldwin’s FlexoCleanerBrush™ removes hickeys in four seconds and can clean plates within three to four minutes, increasing print quality and providing a cleaner, safer work environment. This automated cleaner removes fibers, debris and fine lines from printing plates at the beginning, during or at the end of a job, allowing printers to achieve optimal quality with minimal downtime—Baldwin has a proven track record of enabling significant productivity improvements for its long list of customers. Designed to replace all manual activities, this cleaning system eliminates skin contact with wash agents, increasing workers’ safety.

For wide-format flexo corrugated box printing, Baldwin’s AMS Spectral UV has engineered CorruCure™, a new generation of LEDUV technology that offers more than a 60% reduction in power consumption in an ultra-compact UV lamp head. This revolutionary solid-state curing system, designed specifically for corrugated LED printing, emits almost no heat or ozone, and accommodates width-switching. It also enables the curing of high-value decorative solutions, such as full-gloss, spot and matte coating effects on a variety of corrugated substrates, making it the ideal addition for product enhancement.

Lastly, Baldwin’s FlexoDry2™ infrared dryer, developed for corrugated flexo printing presses, utilizes patented Diamond IR lamps capable of reducing energy consumption by up to 30%, when compared to traditional IR dryers with aluminum or gold reflectors. Dramatically improved drying enhances color definition, and reduces or eliminates marking, while allowing full-speed printing. The system offers an optional integrated hot-air knife with temperature control to provide better surface drying. Taking safety into consideration, the FlexoDry2 comes with an integrated safety light curtain as standard and an optional camera vision system.

Source:

Baldwin Technology Company Inc. / Barry-Wehmiller

MS establishes new business unit "Nonwovens" (c) MS Ultraschall Technologie GmbH
MS UTG Kampagnenmotiv
11.08.2021

MS establishes new business unit "Nonwovens"

The MS Ultrasonic Technology Group is a globally recognized technology and innovation leader in ultrasonic joining technology and develops and builds flexible special machines, pioneering series machines, modular systems and efficient components for high-performance complete solutions.

This enables optimal welding, punching, sealing, cut-off welding and riveting of thermoplastics, textiles and nonwovens as well as cutting of food and other products.

To ensure sustainable growth, MS is focusing on expanding its application portfolio and entering new market segments. MS Ultrasonic Technology Group is part of the listed MS Industrie AG with internationally active companies.

In addition to the company's previous activities, MS is now placing a new focus on the continuous welding of nonwovens and other materials.

The MS Ultrasonic Technology Group is a globally recognized technology and innovation leader in ultrasonic joining technology and develops and builds flexible special machines, pioneering series machines, modular systems and efficient components for high-performance complete solutions.

This enables optimal welding, punching, sealing, cut-off welding and riveting of thermoplastics, textiles and nonwovens as well as cutting of food and other products.

To ensure sustainable growth, MS is focusing on expanding its application portfolio and entering new market segments. MS Ultrasonic Technology Group is part of the listed MS Industrie AG with internationally active companies.

In addition to the company's previous activities, MS is now placing a new focus on the continuous welding of nonwovens and other materials.

More than 30 years of experience in the development and production of high-quality and innovative ultrasonic components, coupled with know-how in drive and control technology, will be incorporated into the new business segment. This means that customers receive ready-to-integrate systems with maximum precision from a single source. With the new MS Competence Center in Ettlingen (Germany), MS is fulfilling the wish of many customers to expand its application portfolio to include continuous joining, embossing and perforating of nonwovens and sealing of packaging.

MS is thus adding an innovative and specialized site, while maintaining a high level of vertical integration and support for all specialist areas through its main site in Spaichingen (Germany). In two application laboratories and a measurement and analysis laboratory, tests, evaluations and optimizations of various welding tasks are just as much a part of the service as the in-house production of engraving rollers through to complete systems.

  • Application engineering consulting for your welding task
  • Support in the design of the engraving roll
  • Execution of feasibility studies
  • Welding tests to determine the process parameters
  • Individualized process optimization
  • Finding solutions for problematic welding applications
  • Testing of quality-describing characteristics (tightness, porosity, strength)
  • Microscopic analysis of the welded joint in 3D
  • Sample creation and pre-series production
Source:

MS Ultraschall Technologie GmbH

JUMBO-Textil: Provider for narrow textiles in the fitness and rehabilitation sector (c) JUMBO-Textil
Flexible fitness textiles: cords and cables by JUMBO-Textil
08.06.2021

JUMBO-Textil: Provider for narrow textiles in the fitness and rehabilitation sector

There are good reasons why narrow textiles are used so frequently in the fitness and rehabilitation sector: they are flexible, safe, light, durable, skin-friendly and have a low injury potential. Essential components are JUMBO textiles: Elastics can be used to convert kinetic energy into potential energy. This is why elastic cords and cables are some of the essential components of almost all fitness equipment and tools. After all, it is the elasticity of the trampoline cords that gives the jumping-sheet its necessary force. Only elasticated expander cords create the desired resistance of the classic strength training equipment.

The force-elongation ratio of elastic cords and cables – like all other properties – is specified individually and optimally for the respective application. Depending on the specific requirements of the narrow textiles in the respective product, expert teams develop cords and cables made of high-tech fibres and on high-tech equipment: technical textiles that are a perfect fit for the equipment and its functions.

There are good reasons why narrow textiles are used so frequently in the fitness and rehabilitation sector: they are flexible, safe, light, durable, skin-friendly and have a low injury potential. Essential components are JUMBO textiles: Elastics can be used to convert kinetic energy into potential energy. This is why elastic cords and cables are some of the essential components of almost all fitness equipment and tools. After all, it is the elasticity of the trampoline cords that gives the jumping-sheet its necessary force. Only elasticated expander cords create the desired resistance of the classic strength training equipment.

The force-elongation ratio of elastic cords and cables – like all other properties – is specified individually and optimally for the respective application. Depending on the specific requirements of the narrow textiles in the respective product, expert teams develop cords and cables made of high-tech fibres and on high-tech equipment: technical textiles that are a perfect fit for the equipment and its functions.

Furthermore, non-elastic cords – depending on type and design – are essential as tension and connection elements for the functionality of fitness equipment. Textile components are often also an integral part of the equipment technology as fastening or fixing systems.

Source:

JUMBO-Textil / stotz-design.com

Hexcel’s HexPly® M9 Prepreg receives Type Approval Certification (c) Bernard Biger
25.01.2021

Hexcel’s HexPly® M9 Prepreg receives Type Approval Certification

Hexcel is pleased to announce Type Approval Certification of its HexPly® M9 prepreg materials by DNV GL. The addition of the HexPly M9 prepreg range to Hexcel’s already comprehensive DNV GL certified portfolio provides ship and boat builders with optimal prepreg processing options.

HexPly M9 prepregs enable short cure cycles at 100˚C and above and provide a balance between ease of processing and mechanical performance. Available in high tack and medium tack variants, HexPly M9 prepregs are available with a wide range of unidirectional, woven, and multiaxial reinforcements. Partnered with Hexcel’s own HexTow® IMC2 and HexTow® HM54 / HM63 fibers, designers and engineers can optimize highly loaded composite structures such as masts, wing sails, and foils with increased glass transition temperatures (Tg) and excellent long-term fatigue performance.
 
Hexcel has completed the DNV GL certification for HexPly M9 in response to the rapidly increasing demand for type-approved high-performance prepreg materials for large composite structures in the commercial marine craft.  

Hexcel is pleased to announce Type Approval Certification of its HexPly® M9 prepreg materials by DNV GL. The addition of the HexPly M9 prepreg range to Hexcel’s already comprehensive DNV GL certified portfolio provides ship and boat builders with optimal prepreg processing options.

HexPly M9 prepregs enable short cure cycles at 100˚C and above and provide a balance between ease of processing and mechanical performance. Available in high tack and medium tack variants, HexPly M9 prepregs are available with a wide range of unidirectional, woven, and multiaxial reinforcements. Partnered with Hexcel’s own HexTow® IMC2 and HexTow® HM54 / HM63 fibers, designers and engineers can optimize highly loaded composite structures such as masts, wing sails, and foils with increased glass transition temperatures (Tg) and excellent long-term fatigue performance.
 
Hexcel has completed the DNV GL certification for HexPly M9 in response to the rapidly increasing demand for type-approved high-performance prepreg materials for large composite structures in the commercial marine craft.  

Hexcel’s collaboration with Chantiers de l’Atlantique on its new Silenseas cruise ship concept – a concept that uses composite Solid Sail® propulsion as well as dual-fuel engines to reduce emissions and operating costs – is one such application. In this case, DNV GL type approval provides third-party assurance of the product’s quality, performance and consistency, and also helps to streamline the approval of composite parts that replace traditionally metallic structures.

Hexcel has supplied advanced composite materials to the marine industry for more than 40 years and manufactures a comprehensive range of DNV GL certified products including woven reinforcements, multiaxial fabrics, prepregs, and adhesive films. Hexcel is committed to developing new composite technologies for the marine sector, helping builders evolve their designs to produce lighter, more fuel-efficient, and a sustainable craft for the future.

“Our latest Type Approval Certification is an important part of our strategy to provide the most complete package of DNV GL certified composite materials for the marine sector,” said Andreas Sageder, Product Manager at Hexcel. “With the addition of our M9 prepreg resin systems, mast, ship, and boat builders have an expanded range of processing and cure options available for parts requiring higher Tg and improved fatigue performance.”

 

Oerlikon: Meltblown und Spunbond (c) Oerlikon
19.11.2020

Oerlikon: Meltblown and Spunbond technologies

Since the outbreak of the coronavirus pandemic, the worldwide demand for protective masks and apparel has resulted in a record number of new orders in the high double-digit millions of euros at Oerlikon Nonwoven. The meltblown technology from Neumünster is recognized by the market as being one of the technically most efficient methods for producing highly-separating filter media made from plastic fibers.

Since the outbreak of the coronavirus pandemic, the worldwide demand for protective masks and apparel has resulted in a record number of new orders in the high double-digit millions of euros at Oerlikon Nonwoven. The meltblown technology from Neumünster is recognized by the market as being one of the technically most efficient methods for producing highly-separating filter media made from plastic fibers.

Protective equipment demands high-end nonwoven products
The rising demand for protective masks and other medical protective equipment since the start of the coronavirus pandemic and the associated global ramping up of production capacities has also resulted in an increase in the demand for nonwovens for the production thereof. Initially, this resulted in bottlenecks in the provision of meltblown filter nonwovens. To this end, there had until this point be very few producers of medical filter nonwovens outside China. Meanwhile, the demand for spunbond systems is also rising. “Due to the structure of our group, we are in the fortunate position to swiftly reallocate and free up our production capacities. This means that we are able to relatively quickly deliver not only meltblown systems, but also spunbond equipment”, explains Dr. Ingo Mählmann, Head of Sales & Marketing at Oerlikon Nonwoven, talking about the positive situation at the company.

The capacities for respiratory masks available in Europe to date are predominantly manufactured on Oerlikon Nonwoven systems. “Our machines and systems for manufacturing manmade fiber and nonwovens solutions enjoy an outstanding reputation throughout the world. Ever more manufacturers in the most diverse countries are hoping to become independent of imports”, comments Dr. Mählmann. The Oerlikon Nonwoven meltblown systems are being delivered to Germany, China, Turkey, United Kingdom, South Korea, Italy, France, North America and – for the very first time – to Australia until well into 2021.

Quality and efficiency in demand
Depending on the purpose of the application, medical PPE (personal protection equipment) should be breathable and comfortable to wear, protect medical staff against viruses, bacteria and other harmful substances and form a barrier against liquids. For these reasons, they are often made of either pure spunbond or of spunbond-meltblown combinations. Here, the meltblown nonwoven core assumes the barrier or filter task, while the spunbond has to retain its shape, while being tear-resistant, abrasion-proof, absorbent, particularly flame-resistant and nevertheless extremely soft on the skin.

All masks are not created equal – thanks to the ecuTEC+
Protection against infections such as coronavirus can only be guaranteed with the right quality.

The nonwovens can be electrostatically-charged in order to further improve the filter performance without additionally increasing breathing resistance. Here, Oerlikon Nonwovenʼs patented ecuTEC+ electro-charging unit excels in terms of its extreme flexibility. Nonwovens manufacturers can freely choose between numerous variation options and set the optimal charging method and intensity for their specific applications. In this way, even the smallest particles are still attracted and reliable separated by a relatively open-pored nonwoven. Nevertheless, mask wearers are still able to easily breathe in and out due to the comparatively loose formation of the fibers. To this end, it comes as no surprise that all meltblown systems currently destined for the production of mask nonwovens are equipped with the ecuTEC+ unit.

Cetex (c) Cetex
f.l.t.r.: Falk Mehlhorn (Cetex), Florian Mitzscherlich (The FilamentFactory), Matthias Hess (The FilamentFactory), Yasar Kiray (The Filament Factory), Sebastian Iwan (thermoPre ENGINEERING GmbH), Sven P. Fritz (The FilamentFactory)
16.10.2020

Cetex: Long-term cooperation in the area of hybrid rovings

The Cetex Institut gGmbH, the thermoPre ENGINEERING GmbH and The FilamentFactory GmbH cooperate in the development, production and marketing of novel hybrid materials. The cooperation agreement signed on October 2, 2020 in Chemnitz takes the collaboration to a new level. "We are pleased to be able to supply the hybrid rovings to the end user not only in an application-specific manner, but also to offer the engineering for subsequent component applications, including the prototyping of the FRP components," says Sebastian Nendel, Managing Director of Cetex.

The Cetex Institut gGmbH, the thermoPre ENGINEERING GmbH and The FilamentFactory GmbH cooperate in the development, production and marketing of novel hybrid materials. The cooperation agreement signed on October 2, 2020 in Chemnitz takes the collaboration to a new level. "We are pleased to be able to supply the hybrid rovings to the end user not only in an application-specific manner, but also to offer the engineering for subsequent component applications, including the prototyping of the FRP components," says Sebastian Nendel, Managing Director of Cetex.

Patented process for the production of hybrid rovings
In the last 3 years the Cetex Institute has developed a plant technology for the production of hybrid rovings. By means of the patented process, different material combinations can be produced according to customer specifications. Material combinations of reinforcing fibers (glass, basalt, carbon, aramid or high-strength polymer fibers) can be combined with matrix fibers (PP, PET, PA, PPS, PEEK), but also special combinations of different reinforcing fibers or the combination of reinforcing fibers with metal fibers. Advantages of the new hybrid roving are the torsion-free and completely stretched fiber layer and the associated optimal utilization of the properties of the reinforcing fibers, as well as a very good homogeneity, whereby excellent processing can be achieved in later process steps.

Series production as next step
The next goal is clearly defined: Under the agreement, the process is to be jointly developed further by the project partners and transferred to series production. These joint activities form the basis for many years of intensive cooperation in this new field.

Source:

Cetex Institut gGmbH

Enormes Interesse an virtueller interpack von Markt- und Innovationsführer Sappi (c) Sappi Europe
Sappi successfully ran its virtual interpack 2020 conference from 6 to 31 May.
23.06.2020

Huge interest in virtual interpack conference from the market and innovation leader Sappi

Sustainable solutions that pack a punch  

With over 6,500 visitors and more than 2,000 participants at a total of 720 minutes of live presentation sessions and with many potential new customers in the live info chat, the virtual interpack conference organised by Sappi was a resounding success. Sappi presented its latest developments, future prospects and current range of packaging and speciality papers at the event. In addition to further networking opportunities, the visitors took full advantage of the chance to get in contact with the Sales team.

Sustainable solutions that pack a punch  

With over 6,500 visitors and more than 2,000 participants at a total of 720 minutes of live presentation sessions and with many potential new customers in the live info chat, the virtual interpack conference organised by Sappi was a resounding success. Sappi presented its latest developments, future prospects and current range of packaging and speciality papers at the event. In addition to further networking opportunities, the visitors took full advantage of the chance to get in contact with the Sales team.

  • For the packaging of the future: sustainable, high-quality paper
  • Second-generation barrier papers ensure optimal protection of goods as food packaging
  • Providing what the world wants: fully recyclable packaging

Based on the motto ‘Pro Planet: Paper Packaging – welcome to the new pack-age’, the market leader in functional paper packaging presented numerous opportunities at its virtual interpack 2020 conference for its customers to package their food or non-food products in sustainable, premium packaging. In doing so, the company is contributing to the UN’s sustainability objectives. With the Sappi Guard range, Sappi presented barrier papers that render additional special coatings and laminations redundant and can be recycled in the paper stream. Featuring integrated barriers, they ensure that the product quality of foods and other goods is preserved. The second generation of barrier papers, now even more environmentally friendly, was also introduced at the virtual event. Another area of focus of the virtual interpack event was sealable papers, suitable for a wide range of packaging applications in the food and non-food sectors.

Of course, the concept of sustainability was also a key issue at the conference. As a home-compostable paper, Algro Nature meets the current demand for fully recyclable packaging. Sappi thus remains true to its goal of presenting its customers with more and more environmentally friendly solutions for the benefit of people and the environment.

‘We were overwhelmed by the success of our first virtual interpack conference, but we look forward to having direct contact again in spring 2021 in Düsseldorf,’ says Thomas Kratochwill, Vice President Sales & Marketing Packaging and Speciality Papers at Sappi Europe, with regard to the delayed interpack conference.

Source:

Marketing Communications Specialist Speciality Papers
Sappi Europe

(c) Eric RAZ, Airbus Helicopters
25.11.2019

SGL Carbon serially delivers composite materials for rotor blades to Airbus Helicopters

  • Glass fiber textiles for helicopter type H145
  • First ever material supply for primary structural components in the aerospace segment

Since August of this year, SGL Carbon delivers two special glass fiber textiles, so-called non-crimped fabrics, for the new version of helicopter model H145 from Airbus Helicopters. These materials are used in the new, especially efficient five-blade rotor. Developed in close collaboration with Airbus Helicopters, the material has been qualified for the application for the next years to come.  

Thanks to their unidirectional fiber orientation, the fabrics are extremely resistant, providing optimal support for the new geometry of the especially long H145 rotor blades. The fabrics are manufactured at the SGL Carbon site in Willich near Düsseldorf in a multi-stage process and delivered to Airbus Helicopters in Paris.  

  • Glass fiber textiles for helicopter type H145
  • First ever material supply for primary structural components in the aerospace segment

Since August of this year, SGL Carbon delivers two special glass fiber textiles, so-called non-crimped fabrics, for the new version of helicopter model H145 from Airbus Helicopters. These materials are used in the new, especially efficient five-blade rotor. Developed in close collaboration with Airbus Helicopters, the material has been qualified for the application for the next years to come.  

Thanks to their unidirectional fiber orientation, the fabrics are extremely resistant, providing optimal support for the new geometry of the especially long H145 rotor blades. The fabrics are manufactured at the SGL Carbon site in Willich near Düsseldorf in a multi-stage process and delivered to Airbus Helicopters in Paris.  

“The order emphasizes our growing presence in the aerospace business. With the fabrics for Airbus Helicopters, we have realized, qualified, and started serial production for a material concept for primary structural components for the first time,” underscores Dr. Andreas Erber, Head of the Aerospace segment in the business unit Composites – Fibers & Materials at SGL Carbon.

The current deliveries are part of a framework contract with Airbus Helicopters, intended to gradually intensify collaboration. Besides the current development of materials for helicopter components, Airbus Helicopters and SGL Carbon have worked together in the area of component material processing for Airbus group aircraft doors for years. In addition, Airbus and SGL Carbon are jointly involved in various associations and research projects in the area of components, such as Carbon Composites e.V.

 

More information:
SGL Carbon
Source:

SGL CARBON SE

(c) Chomarat
14.11.2019

METSTRADE show 2019: Chomarat provides Arcona Yachts with C-PLYTM carbon reinforcement

Chomarat Group, expert in composite reinforcements for the marine market developed a high performing C-PLYTM reinforcement for the hull and deck of Arcona 435 and 465. Both cruiser-racer are a unique combination of comfort onboard and performances, for fast family cruising and high-level races thanks to their specific design, and the use of C-PLY™. The carbon NCF reinforcement allows structural design benefits, premium surface quality and overall parts cost saving.

“With 45 years of expertise, Chomarat is a pioneer in developing solutions to achieve weight reduction, improved surface appearance and stronger structure.

C-PLY™ makes it possible to meet these specifications, while ensuring stable quality and cost-effectiveness” explains Vincent Cholvy, Marine market Manager at Chomarat.

Chomarat Group, expert in composite reinforcements for the marine market developed a high performing C-PLYTM reinforcement for the hull and deck of Arcona 435 and 465. Both cruiser-racer are a unique combination of comfort onboard and performances, for fast family cruising and high-level races thanks to their specific design, and the use of C-PLY™. The carbon NCF reinforcement allows structural design benefits, premium surface quality and overall parts cost saving.

“With 45 years of expertise, Chomarat is a pioneer in developing solutions to achieve weight reduction, improved surface appearance and stronger structure.

C-PLY™ makes it possible to meet these specifications, while ensuring stable quality and cost-effectiveness” explains Vincent Cholvy, Marine market Manager at Chomarat.

THE CUTTING-EDGE TECHNOLOGY FOR SERIAL PRODUCTION OF CARBON BOATS
A study was led to determine the optimal construction to develop a high performing C-PLY™ range for a better permeability in infusion process. The result is a carbon NCF that achieves high mechanical performances, multi resins compatibility and cost efficiency. “Chomarat is the best choice for supplying the product our factory prefers to work with: stable quality and cost effectiveness are the key benefits” explains Nicolas Broberg, Managing Director Arcona Yacht.

Infusion technology for hull and deck with up to 70% level of carbon in the laminate gives the greatest possible strength.

More information:
CHOMARAT
Source:

Media Apoce