From the Sector

Over the past year, TMAS, the Swedish Textile Machinery Association, has been working with ClimatePartner on a corporate carbon footprint (CCF) mapping project with its member companies, as a natural step towards supporting a more sustainable textile industry.

Over half of the members of TMAS are participating in the project, which involves calculating each operation’s Scope 1, 2 and 3 emissions in order to identify the current climate impact and areas where reductions can be made.

“Integrating climate action into strategies is becoming increasingly important in Europe and we have decided to take a pro-active role,” says TMAS secretary general Therese Premler-Andersson. “There is growing pressure from customers to be more transparant in this area and forthcoming legislation will soon make it necessary for all to take climate actions. TMAS members, however, recognise the benefit of taking action now, not least in terms of taking responsibility and demonstrating credibility.”

The CCF project’s scope examines all aspects of a business split into five areas:

• Facility Management (heating, electricity, water, cooling agents and waste disposal).
• Employee Mobility (commuting and company cars).
• Business Travel (flights travel by train, rental cars).
• Procurement (production, packaging and office materials).
• Logistics (inbound and outbound).

Primary data is being used wherever possible and emission factors originate from internationally recognised databases such as ecoinvent and GEMIS.

The ClimatePartner measurement programme is based on the guidelines of the Greenhouse Gas Protocol Corporate Accounting and Reporting Standard (GHG Protocol), and factors in all greenhouse gases covered by the Kyoto Protocol. These are carbon dioxide (CO₂), methane (CH₄), nitrous oxide (N₂O), hydrofluorocarbons (HFC), perfluorocarbons (PFC), sulphur hexafluoride (SF₆) and nitrogen trifluoride (NF₃).

Each of these gases affect the atmosphere differently and remain in the atmosphere for different lengths of time. Rather than reporting on each gas separately, they are expressed as a CO₂ equivalent (CO₂e) for the sake of simplicity. A CO₂e is essentially a conversion into a ‘global warming potential’ value that enables the influence of different gases on global warming to be compared.

Hologenix®, creators of CELLIANT®, began 20 years ago with the idea of improving the quality of people's lives and health with an emphasis on non-invasive, natural, holistic healing. Co-founder and CEO Seth Casden became fascinated with the effect infrared has on the body and worked with a dedicated team to develop and market CELLIANT® infrared technology and thus materials science innovator Hologenix came to be.

CELLIANT, a proprietary blend of IR-generating bioceramics that are ethically sourced, is a unique combination of nature and performance. CELLIANT captures and converts body heat into infrared energy for increased local circulation and cellular oxygenation, resulting in stronger performance, faster recovery and better sleep. It is a key ingredient in textiles, spanning both performance and fashion apparel, sleep and lounge wear, bedding, upholstery, uniforms and medical supplies.

The first partnership Hologenix secured was with the Ireland-based fiber company Wellman International Limited, a fully owned subsidiary of Indorama Ventures and a pioneer in recycling technologies. Hologenix still works with them today, a tribute to the company’s ability to form long-term partnerships with like-minded organizations, and their joint project of pure white CELLIANT rPET fiber was shortlisted for a prestigious Drapers Sustainable Fashion Award earlier in the year.

On the brand side, many of the first brands to incorporate CELLIANT were in the sportwear industry, including Adidas, Reebok, Saucony, Eastern Mountain Sports, Sierra Designs sleeping bags and Superfeet insoles.

In 20 years, Hologenix has achieved many scientific milestones, and CELLIANT has been and continues to be rigorously tested by a Science Advisory Board composed of experts in photobiology, nanotechnology, sleep medicine, and diabetes and wound care. The Science Advisory Board has overseen nine peer-reviewed published studies that demonstrate CELLIANT’s effectiveness and the benefits of infrared energy.

Looking ahead, Hologenix is continuing to research applications for CELLIANT in the agriculture industry and wound healing and diabetes. Expansion into the FemTech market with both product applications and scientific research about the benefits of infrared for women’s health issues is also on the horizon.

The launch of the third edition of the Imagining Sustainable Fashion Award started on October 27, 2022. The Imagining Sustainable Fashion Award (ISFA) is the international competition born out of the collaboration between Connecting Cultures, the foundation that guides the Out of Fashion platform, and C.L.A.S.S., an international eco-hub that since 2007 has been advocating for a new generation of fashion in which the union of design, innovation, communication, and responsibility shapes a conscious and competitive business, capable of playing both an economic and social role.

The Imagining Sustainable Fashion Award invites stylists, photographers, designers, illustrators and artists to create visual imagery, a project that highlights awareness, respect for people and the planet that define the values of sustainable fashion in the fashion system.

Award submissions will be examined by an international jury composed of:

• Anna Detheridge, Founder and President, Connecting Cultures
• Giusy Bettoni, CEO and Founder, C.L.A.S.S.
• Rita Airaghi, Steering Advisor, Gianfranco Ferré Research Center
• Paola Arosio, Head of New Brands & Sustainability Projects, Camera Nazionale della Moda Italiana
• Jeanine Ballone Managing Director, Fashion 4 Development
• Evie Evangelou, Founder and President, Fashion 4 Development
• Sara Kozlowski, Vice President of Program Strategies, Education, and Sustainability Initiatives, Council of Fashion Designers of America
• Dio Kurazawa, Founding Partner, The Bear Scouts
• Renata Molho, journalist, former editor-in-chief of L'Uomo Vogue and former editor-at-large of L'Uomo Vogue, Vogue Italia, Casa Vogue
• Stefania Ricci, Director, Museo Salvatore Ferragamo
• Jovana Vukoje, Senior New Brands Specialist, Camera Nazionale della Moda Italiana

The winning projects of past editions were Take a Walk on the Green Side by Emma Scalcon (2021 - Italy) and Fashion Affair by Vishal Tolambia (2022 - India), two very different works that highlighted how challenging sustainability issues are in the contemporary communication landscape.

The deadline for submissions is Wednesday, January 25, 2023.
The winner will be announced in March 2023 and will receive a cash prize of €3,000.00.

Tonello will be unveiling the release of their new, more efficient and more responsible Laundry (R)Evolution, including three tools, at Kingpins Show in Amsterdam, from October 19-20.

Configurator
The new Configurator allows clients to choose the technologies, software, and accessories for their next laundry, combining diverse solutions and thus obtaining a real projection of energy and resource consumption, as well as savings and sustainability benefits.

B.O.P. (Be On Point)
The seamless integration with THE Laser, B.O.P. is based on the most recent developments in Computer Vision It makes positioning laser designs on garments automatic and rapid It allows a choice of different production modes and detects up to 8 garments at the same time.

Metro
Metro is a software that automatically and transparently measures the actual consumption of a laundry, summarizing these figures in each garment’s “environmental passport”.

At the show, Tonello will also demonstrate their technologies by washing the MSP Collection, in collaboration with PVH Europe, Kingpins, and designed by Piero Turk.

Hexcel Corporation has received Type Approval for its HexPly® M9.6GF prepreg products from Bureau Veritas (BV), a leader in testing, inspection, and certification services.

This certification enables carbon fiber-reinforced epoxy prepregs to be used in the production of parts for all BV-approved marine vessels. It also guarantees the quality, performance and consistency of the prepregs for ship and boat builders.

BV-approved HexPly M9.6GF prepregs can be reinforced with unidirectional, non-crimp and twill-weave fabrics. They are particularly suitable for use in the manufacture of masts and other large structural components for wind-assisted ship propulsion (WASP). To reduce reliance on engines and cut fuel usage, WASP vessels harness the power of ocean winds often using large carbon fiber-reinforced masts flying durable composite solid sails.

HexPly M9.6 prepregs were recently used to manufacture the mast for the Chantiers de l’Atlantique Silenseas project. The HexPly M9.6 prepregs satisfied all the requirements of the Silenseas consortium’s mast-section manufacturers for quality, mechanical performance, and processing characteristics, while also proving to be cost effective.

This year’s JEC forum DACH, taking place from November 29 to 30, 2022, is strategically located in a composites « golden triangle », between Munich, Augsburg and Ingelstadt. This dynamic area, at the heart of the Bavarian region is known to be hosting major companies such as Airbus, Faurecia, Kuka, Siemens, Voith Composites, KraussMaffei Technologies, Cevotec, Munich Composites, or Premium Aerotec, thus promising a two-days opportunity to meet with key decision makers.

The digital platform available to all participants prior to the event enables to schedule one to one business meetings between buyers and suppliers from the whole value chain of composites, as well as informal networking during breaks, lunches and evening event.

In total, 500 attendees, suppliers and buyers, from Germany, Austria and Switzerland, are expected to participate to JEC Forum DACH 2022.

Business meetings event*
DAY 1 – November 29, 2022:

• 10.15 – 11.45 am – “Keynote and Plenary Conference Session : Market Developments
• Moderator: Dr. Michael Effing, AVK
• 4.0 – 5.30 pm – “Keynote and Plenary Conference Session: Recycling of Composites

DAY 2 – November 30, 2022:

• 9.00– 10.30 am – “Keynote and Plenary Conference Session: Sustainability of Composites
• 3.15 – 4.45 pm – “Keynote and Plenary Conference Session: Innovations: Raw Materials, Processes and Applications

Celebrating composites innovation through awards and startup competition

• The AVK Innovation Awards: Goal is to promote and give prominence to new products/components and applications made from fiber-reinforced plastics (FRP) and promote new processes and methods for manufacturing FRP products.
• Startup Booster competition: The contest is open to entrepreneurs, SMEs, startups and academic spinoffs building innovative composite and advanced materials projects that are based in Germany, Austria or Switzerland (the DACH region).

*You can view the full program here.

The substance graphene can become increasingly important as a component in textile catalysts when purifying water from textile dyeing as has been shown in a recently completed doctoral project at the University of Borås.

In his project, Milad Asadi, a new doctor in Textile Technology, has modified conventional yarn by encapsulating iron particles in graphene and developed a multifunctional smart e-textile. The focus was on developing a method for purifying wastewater from textile dyeing. The smart e-textile acts as a catalyst that causes the substance hydrogen peroxide to be formed, which is needed in order to break down pollutants in wastewater.

The project has generated a complete textile reactor for the treatment of wastewater through the so-called electro-Fenton technology, which is mainly used industrially to purify wastewater. The novelty of the technology is to use the properties of both graphene and iron, which is the main catalyst.

“Previous research has mainly been about the treatment of wastewater by using chemicals to break down the textile dyes. My project is the first where graphene, which is electrically conductive, is used to encapsulate iron. The e-textile can also be used several times, unlike when chemicals are used and which are then rinsed off. The challenge in the project was to scale up the technology so that the treated yarn can be fed into automatic knitting machines”, explained Milad Asadi.

The e-textile catalyst can be reused and hydrogen peroxide is formed internally inside the reactor, which reduces the use of biological catalysts, making the technology more sustainable compared to chemical methods.

A new fabric inspection technique for accurately detecting the most subtle of defects on patterned fabrics during high speed production has been developed by BTMA member Shelton Vision, of Leicester, UK.

The patent-pending system has been integrated into the company’s WebSpector platform and validated through factory trials on a purpose-built full scale in-house demonstration system with sophisticated fabric transport capabilities. As a result, a first system has already been ordered by a manufacturer of both plain and patterned fabrics, including camouflage, in Colombia. This follows the successful conclusion of a 21-month Innovate UK project in which techniques for the resolution of complex pattern deformations were developed by machine vision and computer scientists in the company, backed up by the machine vision and robotics department at Loughborough University.

Restrictions
Traditional methods for defect detection rely on human inspection which is ineffective, with detection rates under 65%, while the Shelton WebSpector machine vision system offers a sophisticated platform for automated defect detection of over 97%, but until now has been restricted to plain textiles.

While pattern matching and neural network approaches have previously been tried for patterned textiles, they have failed to provide a practical solution due to the extreme complexity associated with pattern matching on deformable substrates like textiles, as well as the time required to train a neural network for each pattern type.

Challenges
The challenge is that fabrics are not rigid and can be creased or stretched and are also subject to local distortion,” says Shelton Vision Managing Director and CEO Mark Shelton. “As a result, inspection without the technique we have developed, would lead to thousands of false positives. Our sophisticated pattern inspection software techniques ensure a clean image, allowing the detection of faults on fabrics running at speeds of up to a hundred metres a minute.”

The full system consists of:

• A camera and lighting system for optimum image capture at high speed and associated image processing hardware.
• Self-training software utilising statistical analysis to automate the system configuration for new textile products.
• An advanced suite of defect detection algorithms for the detection of all textile defect types.
• An AI-driven defect classification system which learns and automates defect naming in real time, as well as a real time defect grading capability based on client decision rules.
• A system for recording and retrieving complete roll map images for subsequent review and quality control.

The generation of textile roll maps with complete defect data allows for an optimised textile cut plan, improved downstream processing and quality assurance.

Adient, a supplier of seating systems for the automotive industry, has entered into a cooperation with Swedish steelmaker H2 Green Steel (H2GS) to reduce the carbon footprint in its value chain.
 
On 1st September Michel Berthelin, Executive Vice President Adient EMEA, and Henrik Henriksson, CEO of H2 Green Steel, have mutually signed an agreement to supply fossil-free steel with low carbon footprint from 2026 on and subsequently use it in Adient's metal products.

Michel Berthelin explains the background to the cooperation: “As a company, we are committed to the Science Based Targets Initiative, a collaboration between leading global institutions to set a science-based climate target. We also support the Carbon Disclosure Project, which helps companies and cities to understand and disclose their environmental impacts. The decision to shift parts of the steel volume sourced for our production to a steel with low carbon footprint is part of our sustainability strategy. It is our goal to reduce emissions at our production sites that are caused directly by our own sources or indirectly by our energy suppliers by 75% by 2030. In parallel, we aim to reduce emissions along our supply chains by 35% over the same period. In doing so, Adient actively fosters the industry's transformation towards a more responsible use of natural resources.”

Steel from H2 Green Steel is produced with up to 95% less CO₂ emissions compared to conventional steel production. The company achieves this by replacing coal with green hydrogen in production and by the use of electricity from non-fossil sources. In this way, mainly water and heat are produced as waste products.

• Growing geographic separation between cotton production and textile manufacturing since the 1990s

The United States Department of Agriculture (USDA) released a comprehensive study about Chinese cotton in August 2022. The authors, Fred Gale and Eric Davis, concentrate on textiles, imports and Xinjiang.

China is the world’s largest textile manufacturer and the largest cotton consumer, but changes in China’s economy are reshaping the geography of its cotton-textile sector. Nearly all of China’s cotton is produced in the Xinjiang Uyghur Autonomous Region (XUAR), also known more simply as Xinjiang.

Their study reviewed the regional patterns of China’s cotton textile industry development and identified growing geographic separation between cotton production and textile manufacturing since the 1990s using data from Chinese sources. The study investigated spatial patterns of demand for imported cotton by analyzing lists of Chinese companies applying for a share of the import quota from 2016 to 2022. Multiple regression analysis was used to control for potentially confounding influences when investigating whether companies in coastal provinces were more likely to use imported cotton than similarly sized companies in other regions.

Textile manufacturers — the main consumers of cotton — are concentrated in coastal and central regions where the share of China’s cotton production fell from over 50 percent to 10 percent during 2011–21. These geographic changes are a factor influencing global trade in cotton and textiles. Additionally, the use of forced labor in Xinjiang attracted more attention to the industry, prompting the United States and other countries to ban products produced in the region.

This study reviews the economic, geographic, and policy factors reshaping the industry and influencing the global trade of cotton and textile products. The study also examines data on Chinese companies applying for a share of China’s cotton import quota to gain insight about the demand for imported cotton.

China became the world’s largest producer, consumer, and importer of cotton soon after joining the World Trade Organization (WTO) in 2001. Despite adopting a tariff-rate quota (TRQ) system for cotton imports and issuing supplemental quotas in most years, the large number of cotton goods manufacturers that request shares of the quota suggests demand for imported cotton exceeds  the quota.

While the TRQ was intended to protect China’s cotton farmers, many farmers abandoned the labor-intensive crop as wages rose rapidly in many other industries and other crops produced higher returns. In response, officials encouraged cotton production in the relatively remote region of Xinjiang to prevent China from becoming reliant on imported cotton. Xinjiang growers receive a subsidy payment for cotton, and subsidies for machinery and seeds. A transportation subsidy induces textile manufacturers in eastern and central regions to purchase cotton from Xinjiang, which is about 2,200 to 2,900 miles from most of the country’s textile manufacturers. Financial support and other incentives encourage manufacturers to shift operations to Xinjiang.

Textile manufacturers in China are highly interested in importing cotton due to its lower price and quality. China imports about 20 percent of its cotton, and the United States is a chief exporter of cotton to China. While imported cotton is used in all provinces, manufacturers near the eastern seaboard show a greater propensity for imports. Nevertheless, in all regions, domestic cotton has the largest share of mill use.

Between 2016 and 2022, 1,581 companies applied for a share of the TRQ, and 265 companies applied in all 7 years. Most of these companies also applied for supplemental quotas issued with slightly higher tariffs. This large number of applicants suggests that imports could be even greater if quotas did not limit them. The operation of the quota application process is not public information, but data submitted by applicants suggests access to imported cotton is uneven. About 14 percent of applicants said imported cotton comprised over half of the cotton they used. Another 20 percent of companies requesting import quota did not use any imported cotton, suggesting that many applicants are unable to import. Textile manufacturers coped with limits on cotton imports by increasing their use of synthetic, chemical-based fibers or by importing cotton yarn. From 2000 to 2020, China’s yarn imports doubled from under 1 million metric tons to around 2 million metric tons with Vietnam supplying about 45 percent of that total in 2020.

The number of textile manufacturers in Xinjiang applying for a share of the cotton import quota rose from 37 to 68 between 2016 and 2022. However, imports constituted less than 2 percent of  the cotton Xinjiang applicants reported using—and 66 percent of them reported using no imported cotton—suggesting that applications from Xinjiang textile companies were often denied.
Analysis found that applicants in coastal provinces used more imported cotton than similarly sized applicants in other regions. Each location of a multi-plant company must apply separately for tariff-rate quotas. Textile manufacturers in Xinjiang that requested a share of the import quota included branches of some of China’s largest textile companies, but the analysis found that Xinjiang applicants used less imported cotton than similar manufacturing plants located in other regions. China’s role as a cotton importer appears to have peaked, while other countries are increasing their share of imports.

USDA baseline projections suggest that by 2030 Vietnam, Pakistan, Indonesia, Bangladesh, and Turkey will together account for 47 percent of the world’s cotton imports while China will only account for 24 percent. The study cam be downloaded from the USDA website.