From the Sector

More than 82 companies, businesses and social organizations – including AkzoNobel – are involved in a major Dutch research program focused on developing new technologies that will help solve some of today’s societal challenges.
 
Seven broad consortia have been established as part of the government-funded “Perspectief” program, with AkzoNobel set to play a leading role in the SusInkCoat project, which will explore how to make inks and coatings more sustainable.

The company will work together with private partners and other societal stakeholders to develop new materials, processes and applications to improve the durability, functionality and recyclability of coatings, thin films and inks. The program, which will run for the next five years, is backed by the Ministry of Economic Affairs and Climate Policy and the Dutch Research Council (NWO).

“Our discussions about collaborating with our SusInkCoat partners have been very positive,” says AkzoNobel’s R&D Director of Scientific Academic Programs, André van Linden, who is also the co-lead of SusInkCoat. “We’re all facing the same societal challenges – how to become more circular – and we’re looking for the same solutions in different application areas. But we’ve never done that together for this specific research topic, so we need an ecosystem to help us solve these challenges.
 
Van Linden adds that the program – one of many R&D projects the company is involved with – will also support AkzoNobel’s ambition to achieve 50% less carbon emissions in its own operations – and across the value chain – by 2030.
 
 “We want to make the recyclability of materials - such as furniture, building materials and steel constructions - easier by introducing functionalities like self-healing, higher durability and triggered release,” he continues. “The more you can leave the materials in their original state, the more sustainably you can operate.”

AkzoNobel will be collaborating with Canon, Evonik, GFB, PTG and RUG Ventures, who together possess extensive knowledge of market demands, supply chains and production processes. All the SusInkCoat partners will also work with academic researchers at several Dutch universities in an effort to identify promising developments that can be commercialized, used for education purposes or for outreach to the public.

Research being conducted by the other six consortia includes investigating methods to make tastier plant-based food; flat optics for more sustainable hi-tech equipment; and cheaper and more accessible medical imaging technology.

June 1, the European Parliament has adopted its Report on an EU Strategy for Sustainable and Circular Textiles. The Report wants to step up the EU’s ambition towards sustainability and circularity even further, but it has failed to recognise the strategic role of the European textile industry to scale up sustainability, nor to appreciate the global competitive threat which our companies are facing.

Director General Dirk Vantyghem commented on the MEP Report: “We welcome the strong interest of the European Parliament in the textile and fashion industry, but encourage MEPs to develop a balanced vision which reconciles sustainability and competitiveness. Developing a new business model for our industry requires carefully crafted legislation at global level, and an open dialogue between the industry, the brands and the consumer.”

EURATEX supports the EU Textile Strategy, as it was presented over a year ago by the European Commission. The 160.000 European textile companies are committed to invest in sustainability, develop new circular business models and produce high quality textile products – not just in fashion, but also in home and medical textiles, construction, agriculture or cars. To do so, indeed a new regulatory framework is needed, with clear definitions, coherent rules and effective controls. But also, the companies should be able to comply with these rules and remain globally competitive.

The EP Report has failed to respect that balance between sustainability and competitiveness. Instead, it suggests even more rules and restrictions, totally disregarding the current economic challenges caused by high energy prices, loss in consumer confidence and assertive trade partners. Putting the bar even higher will simply mean that the European textile industry will be pushed out of the market, resulting in a bigger environmental footprint and increased dependency on foreign supplies. Quite the opposite of what the EU wants to achieve with its open strategic autonomy plans.

The Report also fails to differentiate between textile products. There is a mix up between fashion and technical textiles, between products made in Europe and outside, between high quality and durable products and low-quality items. It is regretful that the European Parliament did not make that distinction and simply refers to “textiles” as a general cause of concern, without acknowledging e.g. the high quality products, made by European textile and fashion companies.

The Report puts a strong responsibility on the supply side – the industry and the brands – and does not sufficiently address the role of the consumer. Initiatives therefore are essential to create a stronger demand for sustainable textiles, which includes better communication and transparency (avoid greenwashing), fiscal measures, green public procurement and better control of online marketplaces.

On a positive note, the EP Report does recognise the importance to invest in research and innovation, to support reskilling and upskilling, the need of scaling up circular economy and pay attention to the needs of SMEs. EURATEX has always insisted that such massive transition can only be successful if accompanied by significant and dedicated support programmes. The EU Textiles Transition Pathway should offer a clear perspective in this regard.

Fibre Extrusion Technology Limited (FET) of Leeds, England has installed a FET-200LAB wet spinning system at the University of Manchester which will play a major part in advanced materials research to support sustainable growth and development.

This research programme will be conducted by The Henry Royce Institute, which operates as a hub model at The University of Manchester with spokes at other leading research universities in the UK.

The Henry Royce Institute identifies challenges and stimulates innovation in advanced UK materials research, delivering positive economic and societal impact. In particular, this materials research initiative is focused on supporting and promoting all forms of sustainable growth and development.
These challenges range from biomedical devices through to plastics sustainability and energy-efficient devices; hence supporting key national targets such as the UK’s zero-carbon 2050 target.

FET-200 Series wet spinning systems complement FET’s renowned range of melt spinning equipment. The FET-200LAB is a laboratory scale system, which is especially suitable for the early stages of formulation and process development. It is used for processing new functional textile materials in a variety of solvent and polymer combinations.

In particular, the FET-200LAB will be utilised in trials for a family of fibres made from wood pulp, a sustainable resource rather than the usual fossil fuels. Bio-based polymers are produced from biomass feedstocks such as cellulose and are commonly used in the manufacture of high end apparel. The key to cellulose and other materials like lyocell and viscose is that they can be recycled, treated and fed back into the wet spinning system for repeat manufacture.

Established in 1998, FET is a leading supplier of laboratory and pilot melt spinning systems with installations in over 35 countries and has now successfully processed more than 35 different polymer types in multifilament, monofilament and nonwoven formats.

• Partnership with Spectro Coating Corp. Expands Horizons for the World’s First In-fiber Sustainable Infrared Viscose

CELLIANT® Viscose, which converts body heat into energy, is a combination of nature and performance. It was developed by materials science leader Hologenix®, creators of CELLIANT, a natural blend of IR-generating bioceramics used in textiles, and Kelheim Fibres, a leading manufacturer of viscose specialty fibers. It is the world’s first in-fiber sustainable infrared viscose.  Now Hologenix has partnered with Spectro Coating Corp., the largest vertically integrated flock coating and flock fabric manufacturer in the world, to create the first flocked infrared material with CELLIANT Viscose.

Flocking is an application method in which tiny fibers are piled on to the surface of a textile, creating textures for both decorative and functional purposes. CELLIANT Viscose in a flocked material has many potential applications in the medical field for tapes, bandages, braces and orthopedic products, home textiles and decor, dog beds, clothing, and more.  CELLIANT features natural, ethically sourced minerals, which convert body heat into infrared energy for increased local circulation and cellular oxygenation.  These CELLIANT minerals are then embedded into viscose plant-based fibers. The Viscose fibers are then flocked onto a base material. CELLIANT Viscose provides all the benefits of being a viscose fiber — lightweight, soft, highly breathable, excellent moisture management — as well as the fiber enhancements from CELLIANT infrared technology.

CELLIANT Viscose is the first IR flocked material that Spectro is producing. CELLIANT Viscose also represents a further expansion into sustainable products for Spectro. In addition, Spectro products are made in the USA, as is CELLIANT’s mineral blend.

Setting concrete environmental sustainability objectives for abating direct greenhouse gas emissions and leveraging investments and state-of-the-art technology. This is the approach that has always guided RadiciGroup in operating its businesses with a wide range of products: chemical intermediates, polyamide polymers, high performance engineering polymers and advanced textile solutions.

Between 2011 and 2020, overall Group greenhouse gas emissions were cut by 70%, falling from about 700,000 metric tons per year of CO₂ equivalent to 200,000 metric tons.  

These results were largely achieved through the action implemented by the Group’s Specialty Chemicals Business Area at its plants in Novara, Italy, and in Germany, which are the heart of RadiciGroup’s chemicals business. Here the Group produces an essential intermediate for synthesizing polyamide 66, adipic acid, whose production process releases nitrous oxide as a by-product. Nitrous oxide in itself is not particularly problematic (in fact, it is used in the medical sector as an anaesthetic and in the food industry as a spray propellant, in cans of whipped cream, for instance), but, if it is released into the atmosphere, it has a much higher greenhouse gas effect than carbon dioxide.

At the Radici Chimica site in Novara, a multiyear investment budget of over EUR 10 million was dedicated to lowering these emissions through three important undertakings: in 2004, putting into operation a three catalyst bed reactor, designed and patented by the company, to decompose nitrous oxide into nitrogen and oxygen, the two elements it is composed of, thus making it innocuous for the atmosphere; in 2013, installing an EnviNOx plant to decrease the release of nitrous oxide formed in the production of nitric acid, and, in 2021, a further improvement in the emissions abatement system associated with nitric acid production.

Since activating the last plant just 9 months ago, more than 35,000 metric tons of CO₂ equivalent have been cut. All the above-mentioned actions have enabled Radici Chimica Novara to record a nitrous oxide emissions level less than 10 ppm, a value close to zero.

With the wipes sector adapting to demands for products that protect consumers from COVID-related risks, industry experts will present the latest insights for moving forward post-pandemic at the World of Wipes® (WOW) International Conference.   

The shift from “clean” to “safe” in the world of wipes will be among the key topics thought-leading speakers will address at the in-person event, June 27-30, at the Marriott Marquis in Chicago.

The information-packed program will tackle timely topics to support decision making on the following key themes: Circular and Sustainable Wipes, Supply Chain Challenges in Wipes, Nonwoven Substrates for More Sustainable Wipes, Trends in the Wipes Market and Among Consumers, Disinfection Concerns and New Technologies, Sustainable Wipe Packaging Trends and Developments in Flushability Issues.

World of Wipes Session Highlights

• Lifestyle Shifts and the World of Wipes: Meeting the Changing Consumer Demand to Secure Growth – Liying Quian, Research Analyst, Euromonitor International will explore personal and beauty care trends based on consumer surveys that could shape wipes’ long-term performance
• The Supply Chain – Import Pressures Versus Domestic Manufacturing – Jacob Smith, Director, Supply Chain and Customer Care, Health, Hygiene, and Specialties Division, North America, Berry Global will share his expertise and experience on how COVID-19 has impacted domestic production and international sourcing of wipes
• Packaging Sustainability:  A Global Perspective – David Clark, Vice President of Sustainability, Amcor will look at how consumer brands, retailers and others are responding to consumer demand for more sustainable packaging and discuss progress and risks in the U.S. and other countries
• How Sustainable are You Willing to Be? New Technology to Support Use of Recycled Fiber Sources – Richard Knowlson, Principal, RPK Consulting will tackle the question of how new manufacturing technology can help produce more sustainable nonwoven substrates in today’s price-sensitive environment
• Dead Turtle Logos – What We Know So Far in the EU – Heidi Beatty, Chief Executive Officer, Crown Abbey, LLC will share the latest learnings on the European Union’s Single Use Plastic Directive and the impact of the plastic-free packaging logos on consumer attitudes
• Challenges and Pitfalls of Scaling Up a Waste Cleaning Wipes Collection and Recycle System – Sergio Barbarino, Research Fellow, Fabric and Home Care Open Innovation, Procter & Gamble Distribution Company Europe will look at cleaning wipes’ potential to be recycled and become a convenient pioneering experimental platform
• Case Study: Surface Disinfection Incompatibility with Medical Devices Creates Potential Patient Risks – Caroline Etland, Ph.D., RN. CNS, ACHPN, Associate Professor, Hahn School of Nursing, BINR, University of San Diego will share real examples of the issues healthcare facilities face with surface disinfection incompatibility that make cleaning and disinfection a major challenge

In addition to the conference program, WOW 2022 also features two nights of tabletop displays and receptions; the presentation of the World of Wipes Innovation Award® and the INDA Lifetime Technical Achievement Award; and 11 hours of face-to-face engagement during a welcome reception, first-time attendee mentorship program, and breakfast connections. The event kicks off with the WIPES Academy, a 1.5-day value-added training opportunity on June 27-28.

Nonwovens line specialist Reifenhäuser Reicofil presented its portfolio of high-performance and sustainable nonwovens under the slogan "Living Nonwovens" at IDEA 22 at the Miami Beach Convention Center in Florida from March 28 to 31, 2022.

In terms of sustainability, Reicofil offers various approaches to save fossil raw materials, such as the processing of bio-based raw materials as an ecological alternative - for diapers, for example. Here, the topsheet material, made of bulky, soft, and industrially compostable High Loft nonwovens, meets maximum hygiene requirements. For industrial applications, high-strength nonwovens can be processed even from up to 90% PET flakes from post-consumer waste.

Another highlight was the so-called BiCo technology. In this process, two different raw materials are combined in one fiber in the spunbond process, creating a bimetal effect and causing the fiber to crimp. This opens the door for manufacturers to completely new product properties that are unattainable with monofibers.

Nonwoven-film composites with low grammage
For the medical sector, Reicofil showcased its leading solutions for high-barrier medical protective clothing and - together with its sister business unit Reifenhäuser Cast Sheet Coating - the pioneering Ultrathin Coating production process, which enables customers to produce film-nonwoven-composites more cost-effectively and thus competitively.

Smart digitization
With the c.Hub, the new data platform of the Reifenhäuser Group, Reicofil offers its customers a digitization solution that is tailored to the requirements of nonwovens production.

With just 3 months to go before Techtextil Frankfurt, UK company Fibre Extrusion Technology Limited (FET), is looking forward to exhibiting at this trade show once again. Techtextil attracts international blue-chip companies at the cutting edge of technology, seeking innovative solutions to technical challenges, so this event represents an ideal opportunity to demonstrate how FET can help achieve their goals.

FET is an acknowledged leader in laboratory and pilot meltspinning equipment for a vast range of applications, such as precursor materials used in high value technical textiles, sportswear, medical devices and specialised novel fibres from exotic and difficult to process polymers. Where melt spinning solutions are not suitable, FET provides a viable alternative with pilot and small scale production wet spinning systems.

However, FET will also showcase at Techtextil its more recent laboratory scale spunbond system, which enables client development of nonwoven fabrics in a number of formats and polymers. FET already has a number of spunbond systems in the field, including composite systems which utilise both spunbond and meltspun functions.

A major theme to be highlighted on the FET stand is Sustainability. The FET range of laboratory and pilot extrusion lines is ideally suited for both process and end product development of sustainable materials.

FET has successfully processed almost 30 different polymer types in multifilament, monofilament and non-woven formats, collaborating with specialist companies worldwide to promote greater sustainability through innovative manufacturing processes.

It looks like a normal shirt, but it has it all: The new SmartTex shirt uses integrated sensors to transfer physiological data from astronauts to Earth via a wireless communication network. In this way, the effects of the space environment on the human cardiovascular system will be evaluated and documented, especially with regard to long-term manned space missions. Developed by the German Aerospace Center (DLR) in cooperation with DSI Aerospace Technology, the Medical Faculty of Bielefeld University and textile research partner Hohenstein, SmartTex will be tested for the first time as part of the Wireless Compose-2 (WICO2) project by German ESA astronaut Dr. Matthias Maurer, who will leave for his ‘Cosmic Kiss’ mission on the International Space Station (ISS) for six months on October 30, 2021.

"We were already able to gain valuable insights into the interaction of the body, clothing and climate under microgravity conditions during the previous projects Spacetex (2014) and Spacetex2 (2018)," explains Hohenstein Senior Scientific Expert Dr. Jan Beringer. The insights provided at the time by the mission of ESA astronaut Dr. Alexander Gerst have now been directly incorporated into the development of the new SmartTex shirt at Hohenstein. "Matthias Maurer can wear his tailor-made shirt comfortably on his body during his everyday work on the International Space Station. For this, we used his body measurements as the basis for our cut development and the production of the shirt. We integrated the necessary sensors as well as data processing and communication modules into the shirt's cut in such a way that they interfere as little as possible and are always positioned in the right place, regardless of the wearing situation. This is the prerequisite for reliably measuring the relevant physiological data." The SmartTex shirt is intended to provide a continuous picture of the vital functions of astronauts. This will be particularly relevant for future long-term manned space missions to the Moon and Mars.

For example, during the BEAT experiment (Ballistocardiography for Extraterrestrial Applications and long-Term missions), Matthias Maurer will be the first astronaut to wear a T-shirt equipped with sensors that measure his ballistocardiographic data such as pulse and relative blood pressure. For this purpose, the sensors were calibrated in the :envihab research facility at the DLR Institute of Aerospace Medicine in Cologne. Details on the contraction rate and opening and closing times of the heart valves, which are normally only accessible via sonography or computer tomography, can also be read from the data material. The goal is to study the effects of the space environment on the human cardiovascular system. To be able to analyse these effects realistically, Matthias Maurer's ballistocardiographic data will be recorded before, during and after his stay on the ISS. For the future, a technology transfer of the SmartTex shirt for application in the field of fitness or even in telemedicine is conceivable.

Wireless Compose-2 (WICO2)
The project was planned and prepared by the German Aerospace Center (DLR) and its cooperation partners DSI Aerospace Technology, Hohenstein and the University of Bielefeld. The wireless communication network reads sensor data and can determine the position of people and objects in space by propagation times of radio pulses. It is also available as a platform for several experiments on the ISS. The determined data is temporarily stored within the network and read out at regular intervals by the astronauts. These data packets are then transferred to Earth via the ISS link and analysed by the research teams. It can generate its own energy from artificial light sources via solar cells.

ESA astronaut Dr. Matthias Maurer in summer 2021 during preliminary talks on the Cosmic Kiss mission in DLR's :envihab in Cologne. © DLR

Sensors measure physiological data during a test run on Earth. © DLR

With the "SmartTex" shirt, astronauts can wear the necessary sensors comfortably on their bodies. © DLR

Dr. Jan Beringer, Hohenstein Senior Scientific Expert. © Hohenstein

• At this year’s INDEX from October 19th to October 22nd, Truetzschler Nonwovens, Truetzschler Card Clothing and Voith introduce new solutions for manufacturing a broad range of sustainable nonwovens for wipes, hygiene or medical textiles at booth 2327.

Plastic-free initiatives worldwide affect everyone: consumers, product developers, nonwoven producers and finally nonwoven machinery suppliers.

Truetzschler Nonwovens and Voith address the quest for more sustainable and affordable nonwovens in the wipes segment by two proven technologies for manufacturing pulp-based nonwovens. Firstly, WLS (Wet-Laid/Spunlaced) lines. More than a handful are in service worldwide and mainly target the flushable wipes market. At INDEX we’ll introduce our latest nextLevel/WLS baby and body wipes, a joint development by Voith and Truetzschler.

The second focus is on carded/pulp (CP) products. A CP line – including a TWF-NCT card placed between the HydroFormer and the AquaJet is already running to full capacity at customer site. Various CP materials, including innovative nextLevel/CP wipes, will be on display at the booth and invite visitors to discuss characteristics, benefits, line concepts and equipment.

When talking sustainable nonwovens, solutions for efficiently manufacturing biodegradable nonwovens from virgin cotton fibers, comber noils and viscose/lyocell fibers must not be missing. Visitors can look forward to directly comparing cotton nonwovens to a broad range of cellulose-based material.

Truetzschler Card Clothing, our in-house competence center with respect to card clothings and comprehensive service, presents its latest development, the Z wire for high-speed roller cards. A new geometry minimizes fiber fly and allows for better carding and more stable web forming.