From the Sector

Shanghai – Sateri has unveiled FinexTM as its new product brand for recycled fibre. FinexTM, short for ‘Fibre Next’, is an innovative next-generation cellulosic fibre containing recycled content. Internationally known outdoor brand Lafuma has produced FinexTM apparel ahead of 618, China’s major mid-year online shopping festival, while independent China designer Rico Lee will launch his FinexTM apparel next month.

Since its announcement in March this year of a breakthrough in commercial production of viscose using recycled textile waste, Sateri has worked closely with its downstream yarn and garment manufacturing partners to bring the recycled fibre product to the consumer market.

“We’re pleased to collaborate with Sateri as one of their first brand partners for FinexTM. Sateri’s dedication to this partnership made it possible for Lafuma to produce T-shirts with this fine quality fibre in a short time. T-shirts made with FinexTM will be among the offerings Lafuma has in store for the 618 festival as we look to support environmentally-friendly and excellent performance solutions to strengthen our position as a leading outdoor apparel brand,” said Wu Qian, General Manager of Lafuma China.

Echoing similar sentiments is Rico Lee who established his own independent label in 2014, “I jumped at the opportunity to collaborate with Sateri when they approached me because FinexTM encapsulates what my brand stands for – Beautiful Technology that combines function and fashion.”

Tom Liu, Sateri’s Commercial Vice President said, “Like our flagship brand EcoCosy®, FinexTM is made from bio-based natural fibres. Innovation and technology has made cellulosic textile fibre recycling possible and FinexTM represents how nature not only renews itself but that products made from nature can also be regenerated. This, at its heart, is what circular fashion looks like. Our brand promise to customers remains constant– Sateri’s products are sustainable, high quality, efficient, and cost-effective. The FinexTM tagline ‘Together For A Better Next’ expresses our aspiration to be the partner of choice for next-generation fibre - we thank Lafuma and Rico Lee for pioneering with us on this quest.”

Last month, Sateri announced its entry into China’s Lyocell fibre market. The recent string of product portfolio expansion announcements is underpinned by Sateri’s business strategy to capture value. Allen Zhang, President of Sateri said, “Being the world’s largest viscose producer gives us the advantages that come with volume, but value is what we hope differentiates us. By this, we don’t only mean higher value products like Lyocell or FinexTM but also the value we bring to communities, country, climate and customers.”

Globally, less than 1% of material used to produce clothing is recycled into new clothing. This presents a big opportunity for textile fibre recycling, particularly in China which is the largest textile producing country in the world. Last month, Sateri became a council member of the China Association of Circular Economy (CACE). The company will work closely with CACE’s Textile Waste Comprehensive Utilisation Committee to establish standards and promote industrial-scale textile waste recycling. Sateri is part of the Singapore-based RGE group of companies which has committed USD200 million into next-generation textile fibre innovation and technology.

• Producing fabric for medical gowns: Advanced barrier effect solutions support COVID-19 efforts

Huntsman Textile Effects and Bao Minh Textile, one of the largest and most modern woven fabric producers in Vietnam, are collaborating to produce fabric that meets the stringent performance standards required of isolation gowns. High-quality medical gowns are essential protective wear for healthcare workers combatting the global COVID-19 pandemic, but these are in short supply worldwide.

Bao Minh Textile will initially treat 760,000 meters of woven fabric with a carefully curated combination of Huntsman Textile Effects barrier effect solutions and auxiliaries. This fabric is sufficient to produce 345,000 high-grade isolation gowns.

Bao Minh Textile’s isolation gown fabric relies on a range of Huntsman pretreatment, dyeing and finishing solutions. These include CLARITE® ONE, an all-in-one pretreatment for peroxide bleaching; NOVACRON® and TERASIL® dyes; PHOBOL® CP-C, an excellent oil-, water- and stain-repellent finish; and PHOBOTEX® RSY, a non-fluorinated durable water repellent with extremely high washing resistance. PHOBOL® EXTENDER XAN is also applied to further increase wash durability.

• AACOMA - Accelerate advanced composite manufacturing
• EMR Region Belgium, the Netherlands & Germany area hot spot for the future of lightweight materials and technologies

The Euregio Meuse-Rhine provides a huge potential with its many highly innovative, leading companies and especially SMEs which are active in the area of advanced material manufacturing in many industrial sectors, such as Automotive, Aerospace, Electronics, Building and Infrastructure, etc. The advanced material sector is growing, with a consolidated offer, ranging from raw material producers over technology development to production, research and development as well as industrial OEMs.

Interreg Euregio Meuse-Rhine invests EUR 96 million from the European Regional Development Fund (ERDF) in the period 2014-2020. Through the investments in cross-border projects, the European Union invests in the economic development, innovation, territorial development and social inclusion and education of this region.

Project

The Euregio Meuse-Rhine is a potential hot-spot for the further development of advanced material and process technologies. Technical Centers and Institutes around Aachen/Germany, Liège/Belgium and Eindhoven/The Netherlands were awarded with this new project AACOMA.

Innovative material design and advanced manufacturing provide large opportunities for SMEs. The AACOMA project kick-off took place in Aachen at the Campus of the RWTH University of technology in 1 Q 2020. The aim of the project, which is running for 3 years until 2023 with a budget of €3 Mio, is to connect SMEs with innovation hot-spots like institutes and technical centers.
Seven partners from all three regions will carry the project out: Centexbel is the project leader and gets support by University of Liège, Sirris and Flanders Make from Belgium, as well as Fontys University of Applied Science and AMIBM of Maastricht University in the Netherlands and AMAC in Germany.

Statements

Bernard Paquet, Project Coordinator from Centexbel/ Belgium stated:
“Centexbel, with a strong experience in textile and composites, will identify with its Interreg partners and an advisory board of international experts several demonstrators which will enable an accelerated advanced manufacturing of composite parts. This could include new materials and intermediates, high performance additives, bio-based products and new composites by additive manufacturing”.

Michael Effing, Managing Director of AMAC/ Germany said:
“The major goal of the project is to connect around 200 innovative SMEs with each other and establish the links to the world-class institutes in the EMR region. We will facilitate 6 roadshow events, addressing key topics like automated manufacturing, additive manufacturing or bio-based material systems combined with match making and training events. The first roadshow will be held on September 24, 2020 at the Aachen Campus of the RWTH University of Technology.”

Prof. Gunnar Seide from the AMIBM/The Netherlands continued:  
“Our AMIBM offers already an international master program on bio-based materials. The AACOMA project will be an important element for transborder research and will identify new players in the value chain coming from the EMR region. Innovative companies find markets for their new bio-based building blocks, chemicals and polymers. Their success stories and upcoming technological breakthroughs are needed for a sustainable future.”

• Launched by SCOTT Sports Racing Team with Sitip, Rosti and ROICA™ by Asahi Kasei

The collection was designed starting from the needs of the athletes with the aim to offer them the best solution in terms of style and ergonomics, high performance, easy maintenance and perfect fit being also sustainable.

Ispo 2020 saw the celebration of the partnership started last year between Scott Racing Team, Rosti, Sitip and ROICA™ by Asahi Kasei for the supply of the team riders’ uniforms. Rosti worked on style and packaging, Sitip on technical fabrics ‘BE-HOT - Heat Generating fabrics’, while ROICA™ provided its premium stretch ingredient. The collaboration carries an interesting news: uniforms are not just highly performing but also, and above all, sustainable.

Sitip created the Native fabric entirely made with recycled yarns and featuring the premium high performing  ROICA™ EF elastomer. The yarn is certified GRS - Global Recycled Standard certification (and also provides special dyeability) with Rosti’s design and high care garment manufacturing.

The main rider of Scott Racing Team Italy, the young and award-winning champion Juri Ragnoli, the “end user” of the uniforms, explaines the requirements that garments should possess in order to meet the sporting challenges that await athletes: breathability, comfort on the skin, performance, durability of the shape and maintenance of the characteristics throughout the course of use of the garment. When asked about the arrival of a new sustainable uniform, the champion said that “it’s right and important to take this direction, which perfectly meets the team’s values, as love for nature and respect for the environment. It will be nice to wear something that follows exactly what you believe in”.

The Perlon®-Group is supporting the procurement measures of the volunteer fire service in the Darmstadt-Dieburg district by donating 2400 KN 95 protective masks. This protective equipment will be put to good use by the force covering 23 towns and communities in the area.

The masks offer protection for fire brigade personnel and ensure that the firemen and women can carry out their duties safely and that they also protect the inhabitants in the district and everybody else in the area who may be involved in a rescue, from a potential contamination of the Corona virus.

• New composite e-Mobility application
• Multi-year substantial contract

After prototypes for a Chinese automotive manufacturer, a major order from a North American automaker, and yet another order for a European sports car manufacturer, SGL Carbon has now been nominated by BMW Group to produce a cover component for battery enclosures in series. This substantial multi-year order will include the production of an innovative glass-fiber-based cover plate for the battery housing for usage in a future plug-in hybrid model of BMW Group.

Materials made of composites are suited for battery enclosures for different reasons: Besides their light weight, which enhances the electric vehicle’s range, fiber-reinforced plastics offer high stiffness. In addition, they meet high requirements for water and gas tightness and feature excellent fire protection properties. Composite materials can also help to achieve improved structural stiffness of the underbody, e.g. to protect against penetration, as well as an optimized thermal management. Carbon fibers are ideal for especially stressed structures or load-bearing elements, such as the underbody panels and side frames. For components subjected to less stress, such as battery box covers, glass fibers or a fiber mix may suffice.

In addition to the new application for the hybrid model battery enclosure, SGL Carbon will continue producing the usual components made of carbon-fiber-reinforced plastic for the BMW i3 and delivering materials for the Carbon Core body of the BMW 7 series, and has been nominated as the supplier for all carbon materials - fibers, textiles, stacks - for the BMW iNEXT, set to be launched in 2021.

a leading Asian large-scale manufacturer of manmade fibers and polymers has invested in a new Oerlikon Nonwoven meltblown system. The recently-signed contract comprises a 2-beam system for manufacturing filtration nonwovens – predominantly for medical products such as face masks – with a nominal capacity of up to 1,200 tons of nonwovens a year. The commercial production launch has been scheduled for the fourth quarter of 2020.

The 2-beam system has an operating width of 1.6 meters and is equipped with the new patented Oerlikon Nonwoven electro-charging unit. The Oerlikon Nonwoven meltblown technology is recognized by the market as being the technically most efficient method for producing highly-separating filter media made from manmade fibers, particularly in conjunction with electrostatic charging and with extremely low-pressure loss. Electro-charging the filter nonwovens allows the manufacture of sophisticated EPA- and HEPA-class filter media as well as media that comply with the requirements of N95-, FFP2- and FFP3-class respiratory masks.

The demand for filtration nonwovens for medical applications has risen tremendously across the globe since the outbreak of the Sars-CoV-2 (coronavirus) epidemic, presenting all manufacturers with huge challenges. A meltblown system will be commissioning at the site of a leading Western European nonwovens producers as early as the second quarter of 2020. This system will be deployed exclusively in the manufacture of nonwovens for respiratory masks.

Due to the current state of emergency with regards to the local supply of face masks, Oerlikon Nonwoven is currently using its own laboratory system to produce electrostatically-charged filter media which are being sent to local small businesses and companies for the manufacture of face masks. 

Less wear and superior fiber quality

Technological changes to Oerlikon Neumag’s Baltic crimper thrust pad contacting device have resulted in considerably reduced friction in the crimper rolls and hence less wear and fewer metal particles contaminating the crimped staple fibers.

Thrust pads close the gap between the crimper rolls on either side. Normally, these thrust pads are continually pressed – under high pressure – against the sides of the crimper rolls. Wear and metal debris on the thrust pads is the result of this constant contact. The metal debris can contaminate the fibers, something that is particularly undesirable in hygiene applications.

New thrust pad contacting device for reduced metal debris and greater durability
With the new system, the thrust pads are pressed against the rolls with less pressure and then fixed into place. This prevents fibers from being caught and the frictional force between the pressure disk thrust pad and the crimper roll is minimized. Pilot applications have demonstrated that metal debris from the pressure disks thrust pads is dramatically reduced, making them between three and seven times more durable.

New Mimaki 3DGD-1800 3D printer boasts ground-breaking production speeds and transforms production of large-sized objects, opening up a wide range of new possible applications across industries from sign and display to manufacturing.

Mimaki Europe, a leading manufacturer of inkjet printers and cutting systems, today announces the launch of the new Mimaki 3DGD-1800 3D printer, facilitating large-scale production up to three times faster than with conventional Fused Filament Fabrication (FFF) type 3D printers. The Mimaki 3DGD-1800 3D printer connects the company’s 2D printing expertise and 3D technology innovations, providing customers with a cost-effective, total solution for 3D sign and display applications.

Capable of producing objects up to 1.8 metres tall in just seven hours – with its assembly-based design allowing for the creation of even larger designs – the innovative 3D printing system boasts a number of clever time- and cost-saving features, including dual-head configuration to enable the simultaneous output of two structures. The Mimaki 3DGD-1800 also facilitates the production of support-free hollowed structures, further streamlining production whilst allowing for increased portability and the possible addition of interior illuminations. The technology will open up a diverse range of potential applications, from signage, events and creative art through to interior design. Customers can utilise Mimaki’s extensive portfolio of 2D print solutions to cost-effectively decorate these applications, opening doors to a range of new products that combine creativity and innovation with Mimaki’s tried and tested vibrant, high-quality results.

Commercially available from April 1, 2020, the new Mimaki 3DGD-1800 is set to revolutionise the way in which large-sized objects are created, enabling a switch from costly and time-consuming conventional handcrafting methods which require significant expertise, to effortless, high-speed production utilising 3D data. 

• First fiber producer to have an approved science-based target – CO₂ neutrality by 2050
• Breakthrough in REFIBRA™ technology – worn textiles can also be used as fiber raw material
• Pioneer in the introduction of blockchain technology for fiber recognition
• On track to meet all sustainability targets

Lenzing – Just ahead of the “Day of Forests ” on March 21, which the FAO (Food and Agricultural Organization of the United Nations) introduced in the 1970s in response to global deforestation, the Lenzing Group presents its Sustainability Report 2019. This sets out how the company is actively dealing with the global challenges.

Lenzing produces fibers from the renewable raw material wood and is well known among its customers and partners in the global textile and nonwoven fabric industry for the clear position it takes as a sustainable producer. It is no accident that the new report is appearing on the International Day of Forests. Lenzing’s sustainable practices in procurement, especially for wood and pulp, were once again ranked as leading in the 2019 reporting year (Hot Button Report).

“Stand up! A gainst business as usual ”

Under the motto “Stand up! Against business as usual ”, Lenzing emphasizes its wider responsibilities over and above its products. Business - as - usual scenarios have to be overcome, in particular for climate protection. With a science-based target, Lenzing is taking action to master the problems caused by climate change. The Lenzing Group is committed to reducing its greenhouse gas emissions per ton of product by 50 percent by 2030 (baseline: 2017). The Science-Based Target s initiative has approved Lenzing’s climate target as science-based.

Breakthrough in REFIBRA™ technology

One of Lenzing’s strategic principles under its “Naturally positive” sustainability strategy and a focus in the 2019 Sustainability Report is the circular economy. To address the enormous textile waste challenges of industry and society, Lenzing has developed a unique recycling technology branded REFIBRA™. This technology enables garment production waste to be reprocessed into fibers.