From the Sector

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, and SABIC, a global leader in the chemical industry, announced a collaboration to create recycled-based Dyneema®. Through a joint pilot with multiple CirculariTeam® members, the manufacturing and usage of Dyneema® using mixed plastic waste as feedstock (via mass balance approach) will be successfully demonstrated. It is an important step toward the future goal of fully closing the loop by delivering Dyneema® made from ultra-high molecular weight polyethylene (UHMwPE) waste. This collaboration underlines DSM’s and SABIC’s efforts to accelerate a circular economy for materials.

By working together with members of CirculariTeam®, DSM will produce recycled-based Dyneema® made using SABIC’s certified circular ethylene as a pilot project in both a sailing rope and a pelagic trawl net application. The circular ethylene, from SABIC’s TRUCIRCLE™ portfolio, uses mixed plastic waste as feedstock (mass balance approach), which not only contributes to preventing valuable plastic from becoming waste and the avoidance of carbon emissions compared to incineration, but it will also help preserve fossil resources. These pilots are an important early-stage milestone in the journey toward making fully circular Dyneema® from HMPE post-production and post-consumer waste.

Jon Mitchell, Managing Director at Marlow Ropes: “We’re proud to be one of the first manufacturers to integrate recycled-based Dyneema® within our products and demonstrate the material’s feasibility. By collaborating with materials science pioneers such as DSM and SABIC, we are able to create products that not only deliver superlative functional performance but also have a lower environmental impact. Our products are trialed and tested by professional offshore sailing teams including 11th Hour Racing Team, a proud partner of ours at Marlow, with whom we share a progressive approach to seeking sustainable solutions: no more business as usual."

Klaus Walther, Managing Director at Gleistein: “Warm congratulations to DSM and SABIC for pushing the boundaries of science to deliver a truly unique product. We’re proud that our ropes can be produced from what once was typical household plastic waste. This is an important stepping stone towards becoming circular. It will enable our customer Maritiem BV to further develop high-tech fishing gear whilst contributing to the circular economy. Not to forget Cornelis Vrolijk Fishing Company, who again illustrate their commitment to Corporate Social Responsibility by introducing this concept in fishery.”

• Borealis deepens partnership with innovative recycling solutions provider Renasci N.V., acquiring a 10% minority stake in the Belgium-based creator of the Smart Chain Processing (SCP) concept
• Deal supports Borealis integrated approach to achieve a true circular economy of plastics in the most eco-efficient way, as defined by its circular cascade model
• EverMinds™ in action: Game-changing collaboration to accelerate plastics circularity

Borealis announces that it has entered into a multi-dimensional partnership with Renasci N.V., a provider of innovative recycling solutions and creator of the novel Smart Chain Processing (SCP) concept. The partnership is another key enabler for Borealis to realise its ambitions to bring circular base chemicals and polyolefins to market, and to deliver on its promise to bring 350 kilotons of recycled polyolefins into circulation by 2025.

SCP concept leaves no waste behind
The SCP concept developed by Renasci is a proprietary method of maximising material recovery in order to achieve zero waste. It is unique because it enables the processing of multiple waste streams using different recycling technologies – all under one roof. At the newly-built Renasci SCP facility in Oostende, Belgium, mixed waste – plastics, metals, and biomass – is automatically selected and sorted multiple times.

After sorting, plastic waste is first mechanically recycled, and then in a second step any remaining material is chemically recycled into circular pyrolysis oil and lighter product fractions, which are used to fuel the process.

Other types of sorted waste such as metals and organic refuse are further processed using other technologies. In the end, only 5% of the original waste remains, and even this residual material is not landfilled, but used as filler in construction materials. Because of this extremely efficient way of processing, the overall CO2 footprint of these waste streams is greatly reduced – yet another advantage of the circular SCP concept.

The cascade model is Borealis’ integrated circular approach
Borealis circular cascade model sits at the heart of its ambition to achieve a truly circular economy, by combining carefully chosen technologies in a complementary and cascading way to achieve full circularity. In this way, Borealis aims to give plastic products multiple lifetimes in the most sustainable way possible. Starting with optimising product design, first for eco-efficiency, then for re-use and finally for recycling. Once a product has reached its end of life, we must close the plastics loop: first with mechanical recycling to make products with the highest possible value, quality and lowest carbon footprint; then utilising chemical recycling, as a complement to mechanical recycling, to further valorise residual streams which would otherwise go to incineration, or even worse to landfills. The valorised material from mechanical and chemical recycling is then processed with Borealis Borcycle™ recycling technology consisting of Borcycle M for mechanical recycling and Borcycle C for chemical recycling, providing high quality solutions for more sophisticated applications, such as food packaging and healthcare.

The SCP concept is aligned to Borealis’ ambition to close the loop on plastic waste as encapsulated in its circular cascade model.

• Fraunhofer, SABIC, and Procter & Gamble join forces
• The Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE and its Institute for Environmental, Safety and Energy Technology UMSICHT have developed an advanced recycling process for used plastics.
• The pilot project with SABIC and Procter & Gamble serves to demonstrate the feasibility of closed-loop recycling for single-use facemasks.

Due to COVID-19, use of billions of disposable facemasks is raising environmental concerns especially when they are thoughtlessly discarded in public spaces, including - parks, open-air venues and beaches. Apart from the challenge of dealing with such huge volumes of essential personal healthcare items in a sustainable way, simply throwing the used masks away for disposal on landfill sites or in incineration plants represents a loss of valuable feedstock for new material.

“Recognizing the challenge, we set out to explore how used facemasks could potentially be returned into the value chain of new facemask production”, says Dr. Peter Dziezok, Director R&D Open Innovation at P&G. “But creating a true circular solution from both a sustainable and an economically feasible perspective takes partners. Therefore, we teamed up with Fraunhofer CCPE and Fraunhofer UMSICHT’s expert scientists and SABIC’s Technology & Innovation specialists to investigate potential solutions.”

As part of the pilot, P&G collected used facemasks worn by employees or given to visitors at its manufacturing and research sites in Germany. Although those masks are always disposed of responsibly, there was no ideal route in place to recycle them efficiently. To help demonstrate a potential step change in this scenario, special collection bins were set up, and the collected used masks were sent to Fraunhofer for further processing in a dedicated research pyrolysis plant.

“A single-use medical product such as a face mask has high hygiene requirements, both in terms of disposal and production. Mechanical recycling, would have not done the job”, explains Dr. Alexander Hofmann, Head of Department Recycling Management at Fraunhofer UMSICHT. “In our solution, therefore, the masks were first automatically shredded and then thermochemically converted to pyrolysis oil. Pyrolysis breaks the plastic down into molecular fragments under pressure and heat, which will also destroy any residual pollutants or pathogens, such as the Coronavirus. In this way it is possible to produce feedstock for new plastics in virgin quality that can also meet the requirements for medical products”, adds Hofmann, who is also Head of Research Department “Advanced Recycling” at Fraunhofer CCPE.

The pyrolysis oil was then sent to SABIC to be used as feedstock for the production of new PP resin. The resins were produced using the widely recognized principle of mass balance to combine the alternative feedstock with fossil-based feedstock in the production process. Mass balance is considered a crucial bridge between today’s large scale linear economy and the more sustainable circular economy of the future, which today is operated on a smaller scale but is expected to grow quickly.

“The high-quality circular PP polymer obtained in this pilot clearly demonstrates that closed-loop recycling is achievable through active collaboration of players from across the value chain”, emphasizes Mark Vester, Global Circular Economy Leader at SABIC. “The circular material is part of our TRUCIRCLE™ portfolio, aimed at preventing valuable used plastic from becoming waste and at mitigating the depletion of fossil resources.”

Finally, to close the loop, the PP polymer was supplied to P&G, where it was processed into non-woven fibers material. “This pilot project has helped us to assess if the close loop approach could work for hygienic and medical grade plastics”, says Hansjörg Reick, P&G Senior Director Open Innovation. “Of course, further work is needed but the results so far have been very encouraging.”

The entire closed loop pilot project from facemask collection to production was developed and implemented within seven months. The transferability of advanced recycling to other feedstocks and chemical products is being further researched at Fraunhofer CCPE.

National Council of Textile Organizations (NCTO) President and CEO Kim Glas issued a statement today welcoming President Biden’s action plan and COVID-19 response, accompanied by a series of executive orders, including an order signed today to strengthen U.S. supply chains by directing federal agencies to use the Defense Production Act (DPA) to address shortages of personal protective equipment (PPE) and related vaccine supplies.

“We are closely reviewing President Biden’s national strategic plan to confront the pandemic and welcome the executive order signed today to strengthen our supply chains by directing all federal agencies to use the Defense Production Act to address shortages of personal protective equipment, vaccine supplies and essential products. These are important steps that will help ramp up critical manufacturing of these essential PPE products and other critically needed supplies like tests and vaccines.”

American manufacturers have been at the forefront of the effort to build a domestic PPE supply chain since the onset of the COVID-19 pandemic. The U.S. textile industry retooled production and operations virtually overnight, producing millions of face masks, isolation gowns, testing swabs and other critical medical textiles.

The industry is dedicated to making significant investments in automated equipment for PPE, but the industry needs long-term, multiyear contracts to help realize that investment.

The deployment of DPA is one of the critical tools that will help incentivize investment in equipment, propel the hiring of U.S. workers and expand these critical production chains.

Since its inception, the DPA has been utilized by the Department of Defense to make critical investments in domestic textile manufacturing infrastructure and capacity, creating private-public partnerships through the government’s capital investments under the DPA and guaranteeing purchases through long-term contracts.  

NCTO applaud President Biden’s action and anticipate further steps including a reported order that will seek to strengthen government procurement of U.S. products in the coming days. NCTO appreciate President Biden outlining the “National Strategy for the COVID-19 Response and Pandemic Preparedness” a series of actions and steps the administration will undertake to deploy and manufacture the vaccine and other essential products.

Underwear and loungewear specialist MEY announces the launch of its product series "Zzzleepwear,” developed to improve the quality of sleep for men and women. Setting new standards in the sleepwear category, functionality and technical innovation are the focus of the product styles that also offer stylish looks and wearer comfort.

People who sleep well recharge their batteries and can start the next day full of energy. However, many people suffer from sleep problems that can have a long-term negative impact on health and well-being. MEY’s Zzzleepwear was built to address that.

„Zzzleepwear“ reflects far-infrared rays
Fabrics of the "Zzzleepwear" series are equipped with energear™ technology from schoeller®. They reflect the body's own energy, which is emitted in the form of far-infrared rays. The textile finish is based on a titanium-mineral matrix, which reflects far-infrared rays back to the body. This effect can have a positive impact on the body and its energy balance. The understanding of far infrared rays and their positive properties has its origin in Asian healing medicine. Far Eastern medicine has incorporated life energy, "Qi" in Chinese, for centuries. More and more people are discovering that their performance increases when energy balance and energy flow are in harmony. schoeller® is transferring this function to textiles, and MEY is using the finish for the first time in nightwear.

Further fabric properties and design features
For the new "Zzzleepwear" series, the energear™ coating is applied to the inside of the fabric in a honeycomb-like form. It thus represents the core of the series. In addition, the fabric with melange structure is made of natural cotton and thermoregulating fibers that provide high breathability. The large proportion of natural cotton fibers increases the wearing comfort of this special nightwear. The "Zzzleepwear" series offers different color variations, as well as outstanding design features like flat seams and an interior print in the neck area.

Podcast with soporific effect
MEY wants to lull its customers to sleep in a particularly original way: A Spotify code is printed on every item in the series. By scanning this code, customers can listen to a sleep podcast created especially for the selected pair of pyjamas. In the eleven-part good night story, the products tell their own manufacturing story, from the cotton field to the fabric production in Albstadt to the store – so boring, it will have customers nodding off in no time.

Belgian textile innovator Devan Chemicals was lauded by Frost & Sullivan for its antimicrobial technology with proven quaternized silane chemistry, known under its trade name as BI-OME®.

RONSE, BELGIUM – The non-leaching attributes of the technology coupled with its ability to reduce microbial mutation make it a potential candidate for textiles where durability and safe human contact are highly valued.

Based on its recent analysis of the European antimicrobial technology for the textile market, Frost & Sullivan recognizes the Belgium-headquartered Devan Chemicals NV (Devan) with the 2020 European Technology Innovation Leadership Award. Devan’s highly relevant antimicrobial technology addresses issues concerning the contamination of PPE and textiles, including the spread of drug-resistant bacteria, viral transmissions, and hospital-acquired infections (HAIs). Its quat-silane technology, due to its non-migrating behaviour, physically punctures the microorganism cell to destroy it without interfering with cell DNA. Notably, it eliminates the adverse effects of leaching antimicrobials while providing high efficiency in the range of 99.9 percent to 99.99 percent, even after multiple washes.

"By providing non-migrating antimicrobial technology for the textile industry, Devan plugs the safety and performance gaps inherent in current inorganic and organic antimicrobial agents. Its antimicrobial technology, unlike silver- or triclosan-based technology, comprises non-migrating monomers and prepolymers such as organo-functional silane," said Monami Dey, Industry Manager, Frost & Sullivan. "The organo-silane polymers are covalently bonded and polymerized to the textile surface as a coating via padding, exhaust, and spraying techniques. The coating forms a non-leaching reactive surface and destroys the microbes on contact, without releasing harmful components into the environment."

Devan CEO Sven Ghyselinck is very happy with the award: “The best practice award is a nice recognition of the hard work we did in the last 6 months to evaluate the performance against viral activity. It’s great to see our efforts didn’t go unnoticed.”

Earlier this month Devan published new test results confirming the high performance virus-reducing capabilities of its BI-OME fabric coating technology on both unwashed and intensely washed fabrics. The Belgian company has worked closely with a series of international third party laboratories to test different fabric substrates against a wide range of enveloped viruses. Before washing, samples treated with Devan BI-OME score very good to excellent (99% and higher according to ISO 18184) results on virus reduction. Different substrates, like polyester, cotton and polycottons, were exposed to enveloped viruses like SARS-COV-2 (known to cause COVID-19), Feline Corona, Vaccinia (the EU standard for enveloped viruses) and Porcine Respiratory viruses. After 30minutes, BI-OME already reduced 99.96% of the activity of SARS-COV-2.

After washing, a decrease in virus reduction performance of coating technologies is normal and expected. However, BI-OME is confirmed to deliver only a minimal reduction, retaining up to 98.5% virus reduction even when the fabric is washed 25 times.

"Devan is working towards sustainability and green chemistry. For instance, its technology does not contain any harmful solvents such as formaldehyde or polychlorinated phenols and fulfills the regulatory obligations of the EU BPR," noted Dey. "Its commitment to promoting sustainability in textile finishes with a strong focus on GMO-free, kosher, as well as halal certifications, and recyclability has given the company an edge in launching new products at an accelerated pace to match customers’ most pressing concerns and demands."

One of those innovations is BI-OME NTL (natural), a natural, bio-based antimicrobial solution that guarantees an optimal freshness and hygiene for textiles. The active ingredient is the well-known Linseed oil, obtained from the dried, ripened seeds of the flax plant. The active ingredients in BI-OME NTL are GMO free, Halal, Kosher and recyclable.

The ITM 2021 Exhibition, which is postponed to 22-26 June 2021 due to the coronavirus pandemic outbreak, will direct the world and Turkish textile industry, which will demonstrate a vigorous comeback in the post-pandemic period.

The ITM Exhibition, which was planned to be held between 2-6 June this year, was postponed to 22-26 June 2021 due to the troublesome Coronavirus pandemic. Participating companies in countries that had to interrupt their production, especially Italy, France, Spain, Germany and China, which were most affected by the virus, welcomed the postponement of the ITM Exhibition. The countries, holding similar opinions that it is not possible to save from the pandemic without effective drug treatment or vaccine against coronavirus, started normalization process by increasing their protective measures while fighting against the pandemic.

Young, all-Italian dream-team will lead Pinko to a next level

Pinko looks ahead. Evolution & revolution are the keywords for the new management’s strategies. For the first time, President Pietro Negra will be supported by an all-Italian young team to build the success of the brand from now on. Research and innovation have always been part of the Pinko DNA: once again, they lead the path to cutting edge management.

The Pinko family grows with figures fully trained in the realms of fashion, luxury and retail, the actual Pinko R-evolution kickstart. “We pondered on Pinko’s future,” says Pietro Negra, President of Cris Conf in Fidenza (Parma), which he founded with his wife Cristina Negra and which controls Pinko. “This is just the beginning of a bigger project to be disclosed step by step in the next few months. The company turnover is a crucial point for any family business willing to preserve its independence. We believe in the power of younger generations. Therefore we created an all-Italian team to boost an already successful business model.”

Federico Bonelli, with experiences in Ernst & Young, The Boston Consulting Group and Bain & Company has been appointed General Manager. Emanuele Bianchi, previously in Diesel Coccinelle and Dolce & Gabbana, takes on as Marketing & Communication Director. Cecilia and Caterina Negra, the founders’ daughters and pivotal figures of Pinko’s success, confirm their roles leading respectively the Communication and the Creative department. Caterina Salvador becomes Director of Style and Product after working in Giorgio Armani, Hugo Boss, Calvin Klein, Dolce & Gabbana, Coin. More talents will be eventually hired.

China is the world’s undisputed front-runner in the global car market, leading the way in both production and sales. 2018 saw 27.8 million vehicles produced and domestic sales of 28.1 million, and while these numbers were down slightly year-on-year, the opportunities for global textile producers are still unrivalled given the overall size of the market. These opportunities can best be explored at this year’s biennial China International Nonwovens Expo & Forum (CINE – supported by Techtextil), which runs from 3 – 5 June in Shanghai.
While CINE features nonwovens & nonwoven products, machinery for nonwovens and raw materials & chemicals for nonwovens for a wide range of applications, it is the potential in the automotive sector that is generating a lot of talk before this June’s event. And considering only around 50% of demand for automotive textiles is met by domestic output, the opportunities for imports from overseas suppliers is high.

While new car sales in China dropped for the first time last year since 1992, production still reached 27.8 million vehicles, including 23.5 million passenger cars and 4.3 million commercial vehicles. Furthermore, strong growth is still evident in new energy vehicle (NEV) sales, as well as exports of all vehicle types. NEV production totalled 1.27 million units last year, a staggering 60% increase, while sales grew by nearly 62%. More e-vehicles are sold in China than rest of the world combined, while the government recently set a target of selling 7 million e-vehicles by 2025, ensuring growth in this sector will remain robust for some time. Exports of all vehicle types in 2018 did not grow as fast as NEVs, but the 1.04 million vehicles produced for overseas markets last year still represented growth of 16.8%.

Premium automotive industry buyers attend CINE
Given CINE’s strong reputation in the Chinese nonwovens sector, a number of leading automobile brands, and textile suppliers to these companies, source at the fair. Previous buyers have included Autoliv, Honeywell, Johnson Controls, Lear Corporation, Lydall, Toyota Boshoku, Volkswagen, Wangbo Co Ltd and more.

This edition, buyers such as these can source from a range of automotive nonwovens suppliers. This includes Shanghai Shenda, one of the country’s largest producer of automotive textiles, who will group together a number of automotive interior suppliers.

This year the fair will take place in a new venue, the Shanghai Convention & Exhibition Center of International Sourcing, located conveniently between Hongqiao airport and downtown Shanghai. Visitor registration for the fair is now open and can be accessed here: http://vis.eastfair.com/CINEPCEN/reg.aspx.

Aachen researchers have developed the adaptive textile facade green.fACade, which was presented on 2^nd August 2018 in the Aachen Faculty of Architecture of RWTH Aachen University, Germany. green.fACade is installed in front of a building like a second skin and can permanently reduce nitrogen oxide pollution in cities.

The researchers achieve the reduction of harmful nitrogen oxides (NO and NO2) by coating the facade with titanium dioxide. Titanium dioxide acts as a photo catalyst and enables the oxidation of nitrogen oxides to form washable nitrate (NO3-). Since the facade is also greened, it contributes to the conversion of carbon dioxide into oxygen by photosynthesis. In addition, a green facade creates an optical resting point in the cityscape and reduces urban heat through evaporation cooling. The enclosed pictures demonstrate how the introduction of green.fACade can have an effect. Picture 1 shows the Aachen Central Bus Station after, picture 2 before the possible introduction of green.fACade.

green.fACade is part of the innovative research project "adaptive textile facades", which uses the special properties of textiles. Thanks to its design, textiles can let sunlight and air through, thus contributing to a modern, aesthetic building design. A new feature of the research project is that further elements such as the titanium oxide coating or sun protection elements are integrated into the textile facade and placed in front of the existing building facade. The adaptive textile facade acts independently and thus reduces energy consumption through the positive climatic effects on the building facade.

"Adaptive Textile Facade" is part of a current research series with the aim of developing innovative facade constructions that are climate-neutral and increase the comfort of local residents. The research team consists of the three RWTH fields of architecture (Faculty of Architecture, PhD student architect M.Sc. Jan Serode), medicine (University Hospital RWTH Aachen, Clinic for Ophthalmology, Prof. Dr Walter) and textile technology (Institut für Textiltechnik, Prof. Dr Gries) and was able to contribute its expertise in the best possible way.

This summer the research team was supported for the first time by the Munich architectural office Auer Weber, represented by managing director Philipp Auer: "For us architects, developments in the field of textile outer shells are a special challenge. Here, highly developed textile materials and processing methods are combined with the lightness and grace of fabrics. Adaptive textile facade elements will increasingly turn the "building shell" into a "building skin", a system that not only offers weather, heat and sun protection, but is in constant intelligent exchange with its environment".

The great importance of these topics for the public was documented by the presence of Kirsten Roßels, representative of the Department of Economics, Science and Europe of the city of Aachen.  Ms Roßels explains: "As the city of Aachen, we are delighted with the innovative and future-oriented project ideas that are being developed at Aachen University, such as the adaptive textile facade. These developments underline the importance of Aachen as a city of science and I would appreciate it if these and other technologies could also become visible in Aachen in the future".

Prof. Dr Gries from the Institut für Textiltechnik sums up: "As textile researchers, we see a great opportunity to develop concrete solutions for our urban living spaces together with renowned experts from other disciplines. I'm sure we can make the urban climate more pleasant and reduce pollution."