From the Sector

• Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, today announced that, for the first time, Dyneema® Composite Fabrics are used by Moncler in the Fall/Winter 2020 Grenoble collection, which fuses form and function into high performance skiwear.

Moncler Grenoble is born of a passion for research and implements cutting-edge technology to push the limits of its potential. The design team identified Dyneema® as an innovative fabric it could use to push the level of its performance to the next peak, incorporating the material into the new collection as a departure from the conventional use of cotton and polyester.

Sandro Mandrino, the Head of Design for Moncler Grenoble, was the first designer of the luxury fashion brand to incorporate Dyneema® into one of his creations through the Moncler Genius project. The Moncler Genius project advocates radical co-creation where multiple designers create their own signature collections in collaboration with the house. Together, these collections translate into one vision of the future and, as one of the nine designers, Mandrino’s interpretation of the future of fashion features Dyneema® Composite Fabric.

Using variations of the fabric in both white and black allowed Mandrino to bring his vision to life by merging skiwear, space suits and technology all in one. “ 3 Moncler Grenoble is first and foremost about performance,” states Mandrino, who integrated constructive solutions with fabric technology to develop a line that was meant to perform both on and off the ski slopes.

Dyneema®, the world’s strongest and lightest fiber, is 15 times stronger than steel yet light enough to float on water. The unmatched performance and protection of products made with Dyneema® have made it the material of choice in critical applications where failure is not an option for more than 30 years. In fabric form, Dyneema® is available in composites, denim, knits, wovens and hybrids for composite reinforcements. And because Dyneema® fabrics are made using Dyneema® fiber, they intrinsically provide high strength, low weight, waterproof and breathable properties – allowing designers to fuse the technical performance of ultra-light products with aesthetic design that doesn’t sacrifice strength or durability.

The Moncler team used the Grenoble collection as an opportunity to experiment and further understand the nature and behavior of Dyneema® fabrics, while simultaneously incorporating material performance with practical design. “Future collections will focus on expanding to new designs and fabric options in collaboration with DSM,” adds Mandrino.

“We are very excited to be working with the Moncler team to launch a collection of wonderful garments that allow people to explore the outdoors more safely and for longer periods of time,” states Marcio Manique, Global Business Director, Consumer & Professional Protection, DSM Protective Materials. “We look forward to further supporting Moncler as they develop innovative, high-tech garments that are also sustainably sourced through the introduction of bio-based Dyneema® fabrics.”

In line with DSM’s commitment to protect people and the environment they live in, the world’s first-ever bio-based ultra-high molecular weight polyethylene fiber was introduced in May 2020. Bio-based Dyneema® boasts the same exact performance as conventional Dyneema® with a carbon footprint that is 90 percent lower than generic HMPE. DSM and Moncler’s continued partnership will not only provide high performance, light weight garments for outdoor enthusiasts but also environmentally sustainable alternatives that contribute to a more circular economy.

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.

• Fabric finishing and sanforization systems installed in the US and Turkey to enhance productivity

ST. LOUIS - Baldwin Technology Company Inc. has successfully installed six new fabric finishing and sanforizing precision spray systems in the US and Turkey. Despite the COVID-19 pandemic, the installations were completed in just 60 days, thanks to close collaboration between onsite Baldwin textile team members, local agents and remote support from the company’s product and technology center in Sweden.
For textiles, non-wovens and technical textiles, Baldwin’s precision spray technology processes a wide range of low-viscosity water-based chemicals, such as softeners, anti-microbial agents, water repellents, oil  repellents, flame retardants and more.

These systems enable fabric producers to significantly reduce chemical and water consumption, while speeding up production times and eliminating production steps, including drying and bath changeovers when switching fabric colors. “Our customers are major manufacturers in fabric dying, finishing and remoistening, and we want to provide outstanding service and support—even in times like this,” said Rick Stanford, Business Development Leader at Baldwin and the commercial leader of the US installations. “Not only does our precision spray technology enhance productivity in their process, but there is also zero waste, which goes hand-in-hand with the increased sustainability focus in the textile industry.”

In North Carolina, two new TexCoat G4 precision spray systems are now in production with major international vertical manufacturers of outdoor living, performance fabrics and automotive fabrics. In Georgia, a major vertical manufacturer of workwear and protective fabrics installed a sanfor precision spray system, which has helped the customer obtain deeper penetration of moisture into fabrics treated with durable water repellents. In Turkey, three new TexCoat G4 systems were installed in Çorlu, northwest of Istanbul, for a large producer of knit fabrics, such as T-shirts. “In Turkey, the manufacturer purchased and installed one TexCoat G4 system before COVID-19, and the customer was so pleased with the results that, during the pandemic, three more were purchased,” said Simone Morellini, Sales Manager- EMEAR at Baldwin and the commercial leader of the Turkish installations. “The systems were manufactured and installed during the lockdown, and now, all four systems are up and running, and being used heavily on a daily basis.” “With the success we have seen, we plan to apply the same strategies for upcoming installations, including the next one in Honduras: strong local management and customer coordination, combined with  effective remote support during the installation,” said Stanford.

• 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”.

FOR POLYESTER AND “ACTIVE WEAR” COLOR TRENDS FOR WINTER 2021/2022

Archroma, a global leader in color and specialty chemicals towards sustainable solutions, is at the Première Vision exhibition to present its 'Color Atlas by Archroma®' for polyester. This very first color library for polyester brings together 1,440 colors for sportswear and athleisure, swimwear, children's clothing, shoes, as well as for fashion and home textiles. In this context of innovation, Carlin, a pioneer in anticipating trends since 1947, will present its selection of trends in active wear and will unveil the 3 hottest colors for winter 2021/2022: “In our societies now ruled by the vital need for ENTERTAINMENT, the DIVERGENT "extroverted Slashers", free-spirited and efficient, stimulate a MAXIMUM SELF-EXPRESSION which combines communicative power and contagious adrenaline.

In terms of shapes, we imagine assertive, shaked, keeled proportions, with volume contrasts: ultra-tight and stretched volumes. Concerning the materials, this refers to compact knits, fine nervous gauges (neo milano stretch pop), embossed ribs, colored furs, knitted materials, city: ultra-matte color drapery, double sides, jeans, over dye, deep dye.”

Selected in collaboration with fashion, sportswear and trend experts, the Color Atlas by Archroma® Polyester Library brings together new colors for in line with current trends, from the most neutral tones to the most vivid hues to fluorescent colors.

Bemberg™ gears up for Première Vision - February 11th-13th, Paris, France; with a great deal of novelties and a key statement on sustainability: Let’s Make it Circular! That’s why the Japanese brand of regenerated cellulose fibers joins the fair with two booths, one in the yarn-focused sector – Hall 6 C52 6D53 – the other one in the Smart Creation area, the curated district showcasing cutting-edge sustainable innovation for the textile and fashion business. Hall3 S14.

“We simply could not miss out on the Smart Creation Area as sustainability is the founding pillar of our company,” says SHUNSUKE SATO, sales manager of Bemberg™ by Asahi Kasei. “Indeed, the smart fiber is made from a cotton linter which is pre-consumer material, a natural derived source, that doesn’t deplete forestry resources. The strategy beyond our double presence is to highlight our deep commitment to responsible innovation to a larger target of professionals.”

Let’s take it circular! is the motto at the Smart Creation booth. The lifespan of Bemberg™’s regenerated cellulose fiber derived from cotton is fully circular: from the source to manufacturing. The whole sustainable closed-loop process is supported by the LCA study, signed by ICEA and validated by Paolo Masoni. Recyclability is granted by the Global Recycle Standard - GRS certification by the renown Textile Exchange. An influential guarantee that involves the whole production process and supply chain behind the company’s smart yarns. Bemberg™ yarns are entirely biodegradable and ecotoxicity-free – meaning that at the end of their life circle they break down into the environment leaving no trace in terms of toxic substances as attested by the Innovhub-SSI report.

On show at Première Vision some of the most recent collaborations with GRS-certified partners such as FIVEOL, SMI TESSUTI, TESSITURA UBOLDI, INFINITY, SIDONIOS, MATIAS & ARAUJO, TINTEX, IPEKER, EKOTEN, for fashion fabrics as well as PEZZETTI and BRUNELLO & G.CRESPI from lining partners.

The first Bemberg™ partner to present a commercial collection enriched by Velutine™ Evo is the Portuguese Matias & Araújo. With an innovative spirit, dynamism and a determined entrepreneurial spirit, the company is a leading knitwear producer for the textile industry.

In the Hall 6 Bemberg™ displays key commercial items developed by premium brands such as CAALO that is making its mark in the outerwear market with its Sustainably produced Functional-Luxury proposal. For SS20, CAALO utilized Bemberg™ lining because of the sustainability properties and it's unique colour.

CAALO looks to utilize as much eco-friendly and sustainable materials as possible without compromising on design or quality. This Bemberg™ lining was a perfect fit.

SGL Carbon and Solvay collaborate to develop highly-competitive advanced carbon fiber composites for aerospace primary structures

SGL Carbon and Solvay have entered into a joint development agreement (JDA) to bring to market the first composite materials based on large-tow intermediate modulus (IM) carbon fiber. These materials, which address the need to reduce costs and CO2 emissions, and improve the production process and fuel efficiency of next-generation commercial aircraft, will be based on SGL Carbon’s large-tow IM carbon fiber and Solvay’s primary structure resin systems.

The agreement encompasses both thermoset and thermoplastic composite technologies. It builds on Solvay’s leadership in supplying advanced materials to the aerospace industry and SGL Carbon’s expertise in high-volume carbon fiber manufacturing.

“For Solvay, this is an opportunity to lead the aerospace adoption of a composite material based on 50K IM carbon fiber. This is a highly competitive value proposition that brings more affordable high-performance solutions to our customers. We see this as the first step in a long-term partnership,” said Augusto Di Donfrancesco, member of Solvay’s executive committee.

“By combining SGL’s carbon fiber expertise in our newly developed, unique 50K IM fiber with Solvay’s resin formulation and aerospace market expertise, both partners are aiming to develop an advanced aerospace material system. This alliance supports our strategic direction and accelerates our growth in the attractive aerospace market,” said Dr. Michael Majerus, spokesman of the management board of SGL Carbon.

Composite materials for aerospace applications represent a multi-billion-dollar market that is expected to grow strongly in the coming decade. Solvay and SGL Carbon are uniquely positioned to develop solutions to address the needs of this market.

Shanghai - ROICA™ lands in Shanghai to showcase its complete range of premium stretch fibers for the modern wardrobe and disclose its visionary approach and strategy for a cutting-edge and sustainable fashion.

On show, leading material innovator Asahi Kasei introduces a premium stretch fiber starting from the ultimate ROICA Eco-Smart™ Family. The certified and multi-awarded range has astonished the textile world for its hyper-performative features. “The new premium stretch is synonymous of transformation: from standard to speciality, from basic to special, from ordinary to clever and from standard to Smart.” Explains Shinichiro Haga, Senior Executive Manager - ROICA™ Division.

Sustainability and a responsible approach are the true core of research and development to create high-tech engineered yarns.Such visionary imprint imbues all ROICA™ innovations:

• ROICA Eco-Smart™ family: A true world-first with the most contemporary sustainable range of responsibly produced premium ingredients. ROICA Eco-Smart™ family offers 2 sustainably designed stretch yarns

- ROICA™ EF is GRS by Textile Exchange certified, thanks to the fact that more than 50% of yarn content comes from the recycling of pre-consumer waste.
- ROICA™ V550 yarn got the Cradle-to-Cradle® Innovation Institute’s GOLD LEVEL Material Health certificate for impacts on human and environmental health. This yarn is also Hohenstein Environment Compatibility Certificated, signifying at its end-of-life, ROICA ™ yarn smartly breaks down without releasing harmful materials.

• ROICA Feel Good™ family: A unique range of advanced stretch yarns that deliver personal performance and measurable wellness, freshness and comfort metrics for travel, sport, leisure and more.
   
• ROICA Colour Perfect™ family: A range of yarns that can give excellent, flawless and world unique colour dimensions in advanced fit solutions.
   
• ROICA Resistance™ family: A high performance range of stretch solutions with performance resistance designed for match particular applications.
   
• ROICA Contour™ family: A range of yarns that create new shaping, stretch and silhouette solutions for a calibrated fit, effortless control, softness, comfort and support.

ROICA™ already entered the most advanced collections of leading brands as: Wolford for exceptional European Skinwear including legwear, Sarah Borghi for hosiery, SITA Active for Smart pret-a-porter,  Daquini for athleisure, Livy for sensual lingerie, SCOTT Racing Team for cycling uniforms, Closed for denim, Un-Sanctioned for running suits, Vitamine A for beachwear and many others.

In Shanghai, ROICA™ is set to stand out as leader in Smart Innovation. As tangible proof of this, the company brings to Intertextile Shanghai some of its ultimate collaborations across China and the Far East.

COBRA International is collaborating with HG Robotics, a leading drone manufacturer that specializes in unmanned aerial vehicles (UAVs) for the agricultural market, on a composite fuselage cover for the cutting-edge Tiger Drones.

Undertaking a full range of services with HG Robotics and having been involved from the outset: from the design and engineering through to the prototyping of the composite drone fuselage cover, COBRA has now delivered nearly 100 sets and will produce approximately 500 units throughout 2019.

The multi-rotor Tiger Drones typically carry spraying equipment and can also carry high definition cameras that provide a wide range of field information. Farmers can measure land profiles, identify any problem plants or areas and manage their cultivation in the most efficient way. The 420 mm square shaped fuselage cover protects the drone’s electronic controls and forms an aerodynamic fairing between the central fuselage and the craft’s 4 rotor arms.
 
The COBRA Design and Development team selected a composite laminate of glass fibre reinforcements for the cover – which don’t interfere with GPS signals used by the drone - and combined these with epoxy laminating resins in a hand laminated, vacuum bag consolidated production process.

COBRA also designed all of the mould tools for the project. The 2-piece aluminium mould was produced by one of COBRA’s long-term tooling partners. This metallic tooling provides an excellent surface finish to the part with absolutely minimal trimming and finishing required.   Moulded parts can go swiftly through a painting and clear coating process before final inspection and delivery to the client.

Danu Chotikapanich, CEO of COBRA International comments: “Our collaboration with HG Robotics is going well, and we are hoping to collaborate further with them on other multi-rotor and fixed wing VTOL (vertical take-off and landing) drone models in the future. These are COBRA’s first parts for the agricultural industry, and they provide an exciting vision as to just a few of the possibilities for lightweight composites in this area and also in the wider commercial UAV market as a whole.”

New products for photopolymer and laser sinter printing methods from BASF 3D Printing Solutions GmbH (B3DPS) are on show from November 13 to 16 at Stand F20 in Hall 3.1 at this year’s formnext fair in Frankfurt. The BASF subsidiary is also announcing several new partnerships for the development and distribution of groundbreaking 3D printing solutions and products.

B3DPS has entered into a strategic partnership with the US company Origin, San Francisco, California for the further development of photopolymer printing processes. “Within the framework of an open business model, we are combining BASF’s material know-how with Origin’s expertise in printer software programming and the manufacture of the corresponding hardware,” explained Volker Hammes, Managing Director BASF 3D Printing Solutions GmbH. The collaboration has already shown the first signs of success. Origin has developed a new printing method where BASF’s new Ultracur3D photopolymers can be processed particularly well. The technology offers an optimal combination of a good surface finish and high mechanical stability, while also allowing for high material throughput.

B3DPS is working together with Photocentric, a manufacturer of 3D printers and their corresponding software and materials, on the development of new photopolymers and large-format photopolymer printers for mass production of functional components. Based in Peterborough, UK and Phoenix, USA, Photocentric has developed and optimized the use of LCD screens as image generators for its own printing systems. The two partners plan to offer the industry 3D printing solutions that replace parts of traditional manufacturing processes such as injection molding for small series, as well as enabling the production of large components.

The objective of the cooperation with Xunshi Technology, a Chinese printer manufacturer headquartered in Shaoxing, and operates in USA under the name Sprintray, will be opening new fields of application in 3D printing for the Ultracur3D product range of B3DPS.

Ultracur3D specialties for photopolymer printing processes
B3DPS has grouped well-established and new photopolymers designed for the respective 3D printing processes under the brand name Ultracur3D. BASF has developed unique raw materials for its new products that enable special part properties.
“Our Ultracur3D portfolio enables us to offer customers various UV-curable materials for 3D printing that provide far better mechanical properties and higher long-term stability than most available materials,” explained András Marton, Senior Business Development Manager at B3DPS. He added: “These materials have been developed for functional components that are subject to high stress.”

Expansion of distribution network for filaments
Innofil3D, a subsidiary of B3DPS, is entering into a partnership with Jet-Mate Technology, based in Tjanjin, China, for the distribution of plastic filaments in China. In parallel, a distribution agreement has been concluded with M. Holland in Northbrook, USA for the distribution of filaments in USA. “Since the USA is the largest market for filaments, we intend to strengthen our activities there,” said Jeroen Wiggers, Business Director 3DP Solutions for Additive Extrusion at B3DPS, adding: “Asia is another important market for us. We will be developing further distribution channels there and putting our Ultrafuse filaments on the Asian market in 2019.”

BASF’s portfolio of filaments for 3D printing are comprised of two categories; the well-established Innofil3D filaments based on generic polymers for conventional applications and polymer-based Ultrafuse filaments for advanced formulations used in demanding technical applications. One of the broadest filament selections on the market, this portfolio covers customer requirements ranging from prototype to industrial-scale production.

SLS: new 3D printing material with fire protection classification
New flame-resistant Ultrasint Polyamide PA6 Black FR meets UL94 V2 fire protection standards and is a new material class for use in selective laser sintering (SLS) processes, distinguished by high stiffness and thermal stability. In cooperation with one of the global leaders of public transportation vehicles, B3DPS has developed new components that meet vehicle fire protection requirements. “Together with our partner, we are currently producing prototypes, spare parts, and small series components, and are working to further improve flame resistance to meet additional certification specifications,” explained Hammes.
BASF introduced Ultrasint Grey PA6 LM X085 at AMUG this spring and now is followed by another product on show at formnext. Ultrasint PA6 Black LM X085 is based on polyamide 6, and can be processed at 175-185 degrees Celsius therefore making it suitable for most current SLS machines.

B3DPS adds polypropylene to its 3D printing portfolio
Through the acquisition of Advanc3D Materials GmbH in July 2018, B3DPS has expanded its range with numerous materials for use on laser sinter machines, including polyamide Adsint PA12, Adsint PA11, Adsint PA11CF and Adsint TPU flex 90.
Ultrasint PP is a special highlight. This polypropylene-based product exhibits outstanding mechanical properties and is frequently used in standard industrial production as it offers a good balance between price and performance. Ultrasint PP is distinguished by excellent plasticity, low moisture uptake, and resistance to liquids and gases. Prototypes and small batches can now be produced from the same material as used for traditional serial production. Post treatments such as thermoforming, sealing, and dyeing can be performed after printing.