From the Sector

• ESD protection in harsh environments:
• Polymer-coated chemical-resistant fabrics and fireproof special textiles with expanded electrostatic discharge (ESD) safety function have been developed.
• Graphene nanotubes used as an electrostatic dissipative material make it possible to add ESD protection without compromising resistance to aggressive environments.
• Efficient working loadings starting from 0.06% are sufficient for stable anti-static properties fully compliant with safety standards and position graphene nanotubes far ahead of other conductive materials.

Protective clothing, upholstery, and industrial fabrics that experience harsh conditions require advanced performance. Depending on the final application, specialty textiles can be augmented with flame retardancy, durability, chemical protection, and other properties. Additionally, ESD protection is obligatory in the chemical, rescue, mining, oil & gas, automotive manufacturing, and many other industries that are subject to safety regulations.
 
In applications where multifunctionality of textile is required, graphene nanotubes overcome the limitations of other conductive materials such as unstable anti-static properties; degradation of strength, or chemical or fire resistance; complicated manufacturing processes; dusty production; carbon contamination on the material’s surface; or limited color options. Recent developments show that graphene nanotubes provide ESD protection to textiles in full compliance with safety standards and without degrading the textile’s resistance to harsh environments, greatly enhancing the value of textiles.
 
One such example is textiles coated with fluoroelastomer (a polymer that is highly resistant to chemicals) augmented with graphene nanotubes from OCSiAl. Nanotubes provide the material with surface resistivity of 10^6–10^8 Ω/sq compliant with EN, ISO, and ATEX standards for personal protective equipment. This new technology opens the door for the fabric to be used in high-level protective suits, combining exceptional protection from chemicals with electrostatic discharge protection.
 
Another example is how graphene nanotube technology is being acknowledged as a replacement for metal yarns in fireproof and anti-static textiles, protecting against sparks, splashes of molten metal, high temperatures, and the risk of sudden electrostatic discharge. While metal yarns require a specific knitting process and storage conditions, incorporating nanotubes in a fabric does not require any changes in the manufacturing process as the water-based dispersion is introduced into the fabric at the fluoro-organic treatment stage. The fabric with OCSiAl’s graphene nanotubes has been proven to maintain the pre-set level of ESD protection (surface resistance of 10^7 Ω) after numerous washes.
 
Permanent and stable electrical conductivity, facilitated by graphene nanotubes, is not only a matter of safety but brings additional value in augmenting dust-repellent properties and touchscreen compatibility for comfort and time savings. At the same time, the ultralow nanotube concentrations result in maintained manufacturing processes and mechanical properties, and improve product aesthetics by making it possible to use a wide range of colors. Altogether, these benefits allow textile manufacturers to create next-generation special textiles with expanded functionality.

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.

• Future plans for the nonwovens market

The two companies will develop sustainable materials solutions based on CJ Biomaterials’ PHACT™ PHA and NatureWorks’ Ingeo™ PLA technologies NTR and CJ Biomaterials

CJ Biomaterials, Inc., a division of South Korea-based CJ CheilJedang and leading producer of polyhydroxyalkanoate (PHA), and NatureWorks, an advanced materials company that is the world’s leading producer of polylactic acid (PLA), have signed a Master Collaboration Agreement (MCA) that calls for the two organizations to collaborate on the development of sustainable materials solutions based on CJ Biomaterials’ PHACT™ Biodegradable Polymers and NatureWorks’ Ingeo™ biopolymers. The companies will develop high-performance biopolymer solutions that will replace fossil-fuel based plastics in applications ranging from compostable food packaging and food serviceware to personal care, films, and other end products.

The initial focus of this joint agreement will be to develop biobased solutions that create new performance attributes for compostable rigid and flexible food packaging and food serviceware. The new solutions developed will also aim to speed up biodegradation to introduce more “after-use” options consistent with a circular economy model. The focus on compostable food packaging and serviceware will create more solutions for keeping methane-generating food scraps out of landfills, which are the third largest source of methane emissions globally, according to World Bank. Using compostable food packaging and serviceware, we can divert more food scraps to composting where they become part of a nutrient-rich, soil amendment that improves soil health through increased biodiversity and sequestered carbon content.

CJ Biomaterials and NatureWorks plan to expand their relationship beyond cooperative product development for packaging to create new applications in the films and nonwoven markets.  For these additional applications, the two companies will enter into strategic supply agreements to support development efforts.

Renaissance Textile in Laval, France has successfully started up a complete textile recycling line, delivered, installed, and commissioned by ANDRITZ Laroche, part of the international technology group ANDRITZ.

The ANDRITZ textile recycling equipment enabled Renaissance Textile to become the first French recycling platform dedicated to industrial end-of-life textiles. The project aims to produce new fibers from the collected post-consumer apparel, which will be used to weave new recycled fabrics in the end.

The new 12,000 m² plant is equipped with a complete tearing line whose design is the result of close collaboration between R&D specialists from ANDRITZ Laroche and Renaissance Textile, as well as customized trials carried out jointly by the two parties at the ANDRITZ technical center in Cours, France.

The new clothing produced based on this type of circular economy model thus reflects the social and sustainability commitments of Renaissance Textile in terms of decarbonizing the textile industry, the fight against global warming, autonomy in raw material sourcing, and promotion of local staffing, particularly for people who have been unemployed for a long time or are seeking to enter the labor market for the first time. By 2025, for example, Renaissance Textile plans to create no less than 110 direct jobs.

• Positive business development in all four business units
• Sales increases by 14.8% to €853.9 million
• Adjusted EBITDA improves by 25.4% to €136.1 million
• Successful refinancing of the 2018 convertible bonds

After €270.9 million in Q1 2022 and €278.9 million in Q2, SGL Carbon increased its consolidated sales to €304.1 million in Q3 2022. After nine months, this corresponds to a significant sales growth of 14.8% to a total of €853.9 million (9M 2021: €743.5 million). The positive business development is also reflected in the company's adjusted EBITDA, which improved by 25.4% year-on-year to €136.1 million (9M 2021: €108.5 million). All four business units contributed to the operating success.

Outlook
Due to the positive business development, the management increased the forecast for the full year on 6 September 2022. For the financial year 2022, Group sales of approx. €1.2 billion (previously: approx. €1.1 billion) and adjusted EBITDA of €170 to 190 million (previously: €130 to 150 million) are expected.

Consequently, an adjusted EBIT of €110 to 130 million (previously: €70 to 90 million) is forecasted. The expectations for return on capital employed (ROCE) of originally 7% to 9% are raised to 10% to 12% in line with the development of earnings. The estimate for free cash flow (significantly below the previous year's level of €111.5 million) remains unchanged.

Perstorp has been acquired by PETRONAS Chemicals Group Berhad (PCG), Malaysia´s leading integrated chemicals provider and part of PETRONAS Group, on 11 October 2022.

In May this year, PCG signed a Securities Purchase Agreement with Financière Forêt S.à.r.l, a company under PAI Partners, a European private equity firm, to acquire the entire equity interest in Perstorp, a leading sustainability-driven global specialty chemicals company based in Sweden. With the completion of the acquisition, Perstorp is now PCG’s wholly-owned subsidiary.

PCG will strive to ensure the timely completion of Perstorp’s growth projects in a safe and cost-effective manner. Perstorp has several projects lined up in the near future, including the launch of Project Air which aims to reduce carbon emissions through the production of sustainable methanol. Recently, The European Union Innovation Fund selected Project Air, as one of the 17 large-scale green tech projects, which together will be granted more than EUR 1.8 billion. Project Air is a gamechanger for the chemical industry, moving from fossil raw materials to recycled and bio-based feedstock, thereby enabling sustainable chemical products to a large variety of industries and end products. At full capacity, it will reduce global CO2 emissions with close to 500,000 metric tons per year from today’s levels, corresponding to one percent of current emissions in Sweden.

HeiQ will showcase some of its latest technologies at the Taipei Innovative Textile Application Show – TITAS 2022, from the 12th to the 14th of October, at the Taipei Nangang Exhibition Center. A newly launched, upgraded formula - HeiQ Barrier Eco Dry New, is added to the company’s fluorocarbon-free water repellent technology range and will be one of the highlights.

As urbanization and modern lifestyles cause an estimated 40% of the global population to be afflicted by allergies, HeiQ recently launched HeiQ Allergen Tech, a finish based on bio-based synbiotic technology to combat inanimate allergens on textiles. It will also be introduced at TITAS.

HeiQ innovations driving change
The global call for sustainability has put the textile industry, as the second-highest generator of CO₂ emissions, under the spotlight. Most of the marine pollution is caused by non-degradable micro-and nanoparticle emissions from washing clothes, and tons of textile items pile up in landfills. Clothing a potential 8Bn global population by 2023 doesn’t have to be a problem, and HeiQ is driving change in the textile industry so that every player can be part of the solution. In response to the ongoing energy crisis, HeiQ will emphasize the use of HeiQ Clean Tech, a polyester dyeing auxiliary system that helps mills save energy by 30-35%, thereby reducing the carbon footprint of the finished product.

The Lenzing Group and VERBUND, an energy transition company, launched the first development stage of the largest ground-mounted photovoltaic system in Upper Austria. Together with its energy partner VERBUND, Lenzing is also paving the way for the transition to zero-emission mobility. The installation of electric vehicle charging infrastructure at the company’s premises underlines Lenzing’s commitment to the energy transition process.

Thanks to the ground-mounted photovoltaic system at the “Ofenloch” landfill site, Lenzing, in conjunction with VERBUND, is consistently moving forward on the path to a carbon-free energy supply and has commissioned the first half of the new photovoltaic system with a peak power of 2,780 kWp. Full commissioning of the system with a peak power of 5,560 kWp is envisaged in mid-October. Annual electricity production will amount to 6,000,000 kWh, which is expected to cut CO₂ emissions by some 4,400 tonnes per year. The Austrian pioneer in fiber production already commissioned three rooftop photovoltaic systems in spring/summer of 2022, with a peak power of 1,454 kWp and annual electricity production of some 1,508,000 kWh. The electricity flows directly into the company’s on-site production and will also power electric charging stations in future. In the first development stage, 16 wallboxes are set to be installed by the end of the year. A further 32 charging points are planned for 2023. The charging stations will be accessible to staff, visitors and the company’s own vehicle fleet.

“VERBUND’s photovoltaic operator model allows us to make the transition to solar power without incurring investment costs or risks. Thanks to the constant expansion in renewable energy, we remain on course to ecologize the value chain, while optimizing our carbon footprint, cutting costs and reducing the load on the grid, as we are using nearly 100 percent of photovoltaic power in our production,” explains Christian Skilich, Chief Pulp Officer of the Lenzing Group.

Freudenberg Performance Materials – the Freudenberg Group’s nonwovens specialist – was hosting a meeting of the German National Hydrogen Council at the Freudenberg headquarters in Weinheim, Germany, on September 16. As a leading global supplier of technical textiles, Freudenberg Performance Materials provides fuel cell components for mobility applications and for electrolyzers used to produce CO₂-free hydrogen.

The German National Hydrogen Council was appointed by the German government and acts as an independent, non-partisan advisory board. The council board currently consists of 25 high-ranking experts in the fields of economy, science and civil society. The objective is to assist and advise the State Secretaries’ Committee on Hydrogen in the further development and implementation of Germany’s National Hydrogen Strategy. Council meetings are hosted by one of the board members to enable the council to deepen its knowledge of the relevant technologies, value chain roles and challenges. Dr. Silke Wagener is a member of the council board, and represents the Freudenberg technology group, giving input on suppliers’ know-how as well as contributing her decades-long expertise in technological solutions for the hydrogen industry.

During a tour of the factory organized for the council board members, Freudenberg Performance Materials explained the development and production of performance-critical gas diffusion layers manufactured from carbon fiber-based nonwovens for fuel cells and porous transport layers for electrolyzers. The tour highlighted the potential for improvements from a supplier’s perspective, such as the need for very timely exchange and collaboration along the value chain. Functioning, unbroken and scalable value chains, in parallel with the development and scaling of hydrogen infrastructure, are key prerequisites for the hydrogen industry to fulfill its vital role in the transformation to climate neutrality.

Gas diffusion layers are one of the main components at the heart of the fuel cell. Their function is to transport gases and liquids in the cells. They have a significant impact on system performance and costs, and are indispensable for the functioning of fuel cells. The same applies for porous transport layers that are the key component of electrolyzers for the CO₂-free production of what is called green hydrogen.

Fuel cells in combination with green hydrogen are an important technology for CO₂-free mobility, in particular with reference to buses, heavy-duty trucks and trains. Other uses include stationary applications such as stationary power generation or heat generation in buildings or industry.
Apart from mobility, green hydrogen also plays a key role in climate-neutral energy supplies in the industrial sector, particularly in the chemical and steel industries.

The Lenzing Group, a leading provider of wood-based specialty fibers, is expanding its global clean electricity portfolio by gradually transitioning to green energy at its production site in Nanjing. This will enable its Chinese subsidiary Lenzing Nanjing Fibers to use electricity derived solely from renewable sources from 2023 onwards and reduce the site’s carbon emissions by 100,000 tonnes annually. Lenzing only recently announced the transition to green electricity at its Indonesian production facility.

In 2019, Lenzing became the first fiber producer to set a target of halving its carbon emissions by 2030 and becoming climate neutral by 2050. This carbon reduction target has been recognized by the Science Based Targets Initiative. In Nanjing, Lenzing is currently investing in cutting its carbon emissions and converting a standard viscose production line to 35,000 tonnes of TENCEL™ branded modal fibers. Thanks to this move, the Chinese site will exclusively produce eco-friendly specialty fibers.

The company aims to generate more than 75 percent of its fiber revenue from the wood-based, biodegradable specialty fibers business under the TENCEL™, LENZING™, ECOVERO™ and VEOCEL™ brands by 2024. With the launch of the lyocell plant in Thailand in March 2022 and the investments in existing production sites in China and Indonesia, the share of specialty fibers in Lenzing’s fiber revenue is set to exceed the 75 percent target by a significant margin as early as 2023.