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Photo: norda: DSMPMPR010
14.07.2021

norda™: Flagship product with DSM’s bio-based Dyneema® fiber

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, confirmed the introduction of the first seamless trail running shoe made with bio-based Dyneema® fiber by norda™, a Canadian shoe brand.

Designed for runners by runners, norda™ was founded under the mission to empower athletes to unlock their peak potential through innovation and cutting-edge technology. The brand’s flagship product, norda™001, utilizes bio-based Dyneema® fiber to enhance performance and sustainability in a lightweight construction.

The shoe upper is seamlessly constructed with Dyneema® fabric, which benefits from the intrinsic properties of Dyneema®, the world’s strongest fiber™. Dyneema® fiber is engineered at the molecular level to provide high strength, low weight, waterproof and breathable properties – fusing the technical performance of ultra-light materials with aesthetic design that does not sacrifice strength or durability.

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, confirmed the introduction of the first seamless trail running shoe made with bio-based Dyneema® fiber by norda™, a Canadian shoe brand.

Designed for runners by runners, norda™ was founded under the mission to empower athletes to unlock their peak potential through innovation and cutting-edge technology. The brand’s flagship product, norda™001, utilizes bio-based Dyneema® fiber to enhance performance and sustainability in a lightweight construction.

The shoe upper is seamlessly constructed with Dyneema® fabric, which benefits from the intrinsic properties of Dyneema®, the world’s strongest fiber™. Dyneema® fiber is engineered at the molecular level to provide high strength, low weight, waterproof and breathable properties – fusing the technical performance of ultra-light materials with aesthetic design that does not sacrifice strength or durability.

In addition to the increased foot stability and wearer comfort of the upper, Dyneema® fibers are also used to increase abrasion resistance and stretch in the shoe laces – providing four times the level of strength when compared to standard lace materials like nylon and polyester.

“When we set out to create the norda™ 001, our mission was to design an ultra-strong and durable high performance trail running shoe, and do it as sustainably as possible,” states Willamina and Nick Martire, Co-Founders, norda™. “To achieve our goal, we had to look outside of the standard materials used by the footwear industry. We realized the properties of bio-based Dyneema® beat everything available today.”

In line with DSM’s commitment to protect people and the environment they live in, bio-based Dyneema® boasts the same exact performance as conventional Dyneema® with a carbon footprint that is 90 percent lower than generic HMPE. Sourced from renewable, bio-based feedstock, DSM’s latest advancement in fiber technology uses the mass balance approach to further reduce the reliance on fossil fuel based resources, while still contributing to a more circular economy.

Source:

EMG for DSM

DSM/MKU Ltd: High-performance, lightweight ballistic protection in Brazil (c) DSM Protective Materials: DSMPMPR007
26.04.2021

DSM/MKU Ltd: High-performance, lightweight ballistic protection in Brazil

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, announced that, together with armor manufacturing partner, MKU Ltd, has provided next generation armor technology with Dyneema® unidirectional (UD) material to support the Sao Paulo police.

The Sao Paulo police, which is comprised of more than 100,000 officers, is the first law enforcement agency in Brazil to initiate a tender for personal protective equipment based on the latest National Institute of Justice (NIJ) .06 standards for body armor, which provide comprehensive and rigorous compliance for the performance and testing of ballistic materials. In addition to NIJ .06 certification, the tender set extremely lightweight requirements for level IIIA soft armor vests.

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, announced that, together with armor manufacturing partner, MKU Ltd, has provided next generation armor technology with Dyneema® unidirectional (UD) material to support the Sao Paulo police.

The Sao Paulo police, which is comprised of more than 100,000 officers, is the first law enforcement agency in Brazil to initiate a tender for personal protective equipment based on the latest National Institute of Justice (NIJ) .06 standards for body armor, which provide comprehensive and rigorous compliance for the performance and testing of ballistic materials. In addition to NIJ .06 certification, the tender set extremely lightweight requirements for level IIIA soft armor vests.

The hybrid vest solution developed MKU, a global leader in defense and homeland security solutions, for the Sao Paulo police utilizes predominantly Dyneema® UD material to reach new levels of performance and protection while simultaneously enhancing user comfort and mobility. Dyneema®, a strong and light fiber, is the one of leading global brands for ultra-high molecular weight polyethylene (UHMwPE) fiber, UD and fabrics, offering ballistic solutions for personal and vehicle armor that combine maximum strength with minimum weight.

In soft armor applications, Dyneema® offers up to 35 percent weight reduction when compared to competitive materials, while still protecting against both legacy and emerging threats.

In addition to the lightweight armor requirement, the vests were also thoroughly tested to ensure performance with NIJ ballistic reports, NIJ certification and in-house ballistic testing both during the tender process and after the vests were received.

In line with DSM’s commitment to protect people and the environment they live in, one of the world’s first ever bio-based HMPE fibers was introduced in 2020.

DSM/Sympatex Technologies: Launch of Bio-based Arnitel® specialty materials (c) Sympatex® Technologies
05.02.2021

DSM/Sympatex Technologies: Launch of Bio-based Arnitel® specialty materials

Royal DSM announces that its DSM Engineering Materials business will launch mass-balanced bio-based Arnitel®, a thermoplastic elastomer, together with Sympatex Technologies. In this way, DSM Engineering Materials is taking the next step on its sustainability journey and enabling its customers to transition to a more circular and bio-based economy.

To address growing consumer and legislative demand for lower carbon footprint and more sustainable feedstock, the sports and apparel value chain is increasingly integrating bio-based materials into its designs. By offering a new range of mass-balanced bio-based Arnitel®, DSM Engineering Materials is enabling membrane manufacturer, Sympatex Technologies to meet these demands and make more sustainable choices.

DSM’s bio-based Arnitel® is manufactured with bio-based feedstock using a mass-balance approach1. The end product contains more than 25% bio-based content by weight.

Royal DSM announces that its DSM Engineering Materials business will launch mass-balanced bio-based Arnitel®, a thermoplastic elastomer, together with Sympatex Technologies. In this way, DSM Engineering Materials is taking the next step on its sustainability journey and enabling its customers to transition to a more circular and bio-based economy.

To address growing consumer and legislative demand for lower carbon footprint and more sustainable feedstock, the sports and apparel value chain is increasingly integrating bio-based materials into its designs. By offering a new range of mass-balanced bio-based Arnitel®, DSM Engineering Materials is enabling membrane manufacturer, Sympatex Technologies to meet these demands and make more sustainable choices.

DSM’s bio-based Arnitel® is manufactured with bio-based feedstock using a mass-balance approach1. The end product contains more than 25% bio-based content by weight.

Sympatex uses Arnitel® to manufacture its waterproof, windproof, and breathable membranes for sports applications. The transition to bio-based feedstock will maintain the unique functional properties of Arnitel® and will enable Sympatex to easily shift to a more sustainable solution with a lower carbon footprint without having to requalify materials.

 

1 Mass balance accounting is a well-known approach that has been designed to trace the flow of materials through a complex value chain. The mass balance approach provides a set of rules for how to allocate the bio-based and/or recycled content to different products to be able to claim and market the content as ‘bio’-based or ‘recycled’-based. Source: Ellen MacArthur Foundation (Mass Balance White Paper).

Moncler launches Grenoble collection with Dyneema® Composite Fabric (c) DSM Protective Materials
DSM Protective Materials DSMPMPR003b
11.11.2020

Moncler launches Grenoble collection with Dyneema® Composite Fabric

  • 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.

  • 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.

DSM enables ground-breaking protective cycling jersey with Dyneema® fabric for Tour de France (c) DSM Protective Materials
Sportswear Dyneema® fabric
27.08.2020

DSM enables ground-breaking protective cycling jersey with Dyneema® fabric for Tour de France

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, today announces that Dyneema® is driving the performance of Team Sunweb’s protective cycling jerseys in the 2020 Tour de France. Together with its partners, Team Sunweb and Craft Sportswear, DSM has helped to deliver a jersey that, when combined with a protective baselayer, offers cyclists effective abrasion protection at speeds up to 60km/h, while also reducing the severity of open wounds at even higher speeds. In this way, DSM underlines its commitment to protect people and the environment they live in.

Professional cycling places its participants in considerable danger; in recent years, the Tour de France has averaged 1.5 crashes per stage, while crashes in one-day classics are even more frequent. Cycling jerseys can support riders by enabling protection for a large portion of the body, while allowing for moisture transport to the surface and offering low thermal resistance. However, cycling jerseys made with conventional materials offer limited protective performance.

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, today announces that Dyneema® is driving the performance of Team Sunweb’s protective cycling jerseys in the 2020 Tour de France. Together with its partners, Team Sunweb and Craft Sportswear, DSM has helped to deliver a jersey that, when combined with a protective baselayer, offers cyclists effective abrasion protection at speeds up to 60km/h, while also reducing the severity of open wounds at even higher speeds. In this way, DSM underlines its commitment to protect people and the environment they live in.

Professional cycling places its participants in considerable danger; in recent years, the Tour de France has averaged 1.5 crashes per stage, while crashes in one-day classics are even more frequent. Cycling jerseys can support riders by enabling protection for a large portion of the body, while allowing for moisture transport to the surface and offering low thermal resistance. However, cycling jerseys made with conventional materials offer limited protective performance.

To address these needs and enable a safer riding experience, DSM has teamed up with Craft Sportswear and Team Sunweb to develop a cycling jersey that offers much-needed increases in abrasion resistance without compromising the comfort or low weight that cyclists demand. The new jersey is the latest protective cycling apparel solution, following the launch of the protective bib shorts (2015) and the protective baselayer (2019). The jersey will be worn for the first time by Team Sunweb in this year’s Tour de France. When combined with the protective baselayer, the new jersey offers complete protection against abrasions up to 60km/h, a speed below which professional cyclists spend 95% of race time in a typical stage.

Dyneema® has been used to protect workers in high-stake industries for more than 30 years – and the expansion into fabrics means both professional and recreational cyclists can enjoy the intrinsic performance capabilities of Dyneema® in their protective garments without sacrificing wearer comfort.

“Being 15 times stronger than steel on a weight for weight basis, Dyneema® fiber offers an excellent solution to increasing the abrasion resistance of a fabric, reducing the severity of road rash in case of a crash, without compromising the rider weight or comfort,” states Piet Rooijakkers, Head of R&D Team Sunweb “What’s more, the new jersey can form part of a modular protection solution, where riders can easily take off or put on layers according to race and weather conditions. In this way, the new jersey will support our riders significantly in the Tour de France and beyond.”

“The new cycling jersey with Dyneema® will make a real difference to cyclists facing the dangers of professional competition, and help ensure the health of both people and the environment,” states Wilfrid Gambade, President DSM Protective Materials. “The jersey is physical proof of the great achievements collaboration with expert partners can deliver. Moving forward, we will work with Craft and Team Sunweb to integrate bio-based Dyneema® fibers into protective cycling jerseys – contributing even further to a safe and healthy world!”

In line with its commitment to protect people and the environment they live in, DSM introduced the world’s first-ever bio-based HMPE fiber in May 2020. Bio-based Dyneema® fiber offers the same exact performance as conventional Dyneema® with a carbon footprint that is 90% lower than generic HMPE. The continued partnership between DSM, Craft and Team Sunweb will not only provide innovative, lightweight solutions for cyclists, but also environmentally sustainable alternatives that contribute to a circular economy.