From the Sector

The FoxCore founding team and the ITM at TU Dresden aim to usher in a new era for fastening solutions in lightweight construction with the start of the Exist research transfer project FoxCore. The project started on June 1, 2023, and will run until November 30, 2024, with support from the German Federal Ministry of Economics and Climate Protection (BMWK) and the European Social Fund (ESF).

The innovative company is to develop and offer new and customer-oriented fastening solutions for lightweight construction applications. Safety and performance of lightweight solutions in various industries are to be increased. FoxCore's objective is to take a leading role in fastening technology.

Daniel Weise, Philipp Schegner, Michael Vorhof and Cornelia Sennewald form the FoxCore team; they will work closely with the Institute of Textile Machinery and Textile High Performance Materials (ITM) at TU Dresden. Together, they will develop optimal manufacturing technologies and establish a widespread network of customers and suppliers.

From mechanical engineering to the construction industry, from logistics to rescue technology – tensioning and clamping systems fulfil important tasks in a number of industries. The possible uses of technical textiles for industrial applications of this kind are manifold.

Patented and precisely configured
The ElasTool system from the elastics expert consists of a connection tool and a rubber rope connected to this tool via integrated locking elements. The stainless steel, aluminium or plastic connection tool and the rubber rope – with a thickness of between 12 and 38 mm – are each configured to fit precisely. The highlight of the patented connection solution: the more tensile force is exerted, the more the rope is jammed. Thanks to the locking system, ElasTool still provides a secure hold even when the diameter of the rubber rope narrows to up to 60 percent due to the tensile load. A crucial advantage over conventional end connections by pressing.

Economical and low maintenance
The system has further advantages: the textile solution runs quietly. Unlike clamping systems with steel cable springs, there is no creaking here. In addition, textiles, plastic and aluminium are particularly lightweight materials. ElasTool therefore saves energy. Another benefit: the connection system works without lubricating oil. While conventional tensioning and clamping solutions in industrial plants and products have to be oiled regularly, the JUMBO textile system works completely maintenance-free.

Versatile and easily interchangeable
Depending on the area of application of the ElasTool, the interchangeable head can be exchanged: Plastic hook instead of aluminium eyelet, stainless steel flange instead of aluminium hook – for example. The interchangeable head can be replaced effortlessly and without special tools.

"A lifting system in a high-bay warehouse, a trolley in a crane, damping for compressors or crash systems – these are just three of the many possible applications. We adapt the dimensions, material, force-stretch behaviour, flame retardancy – like all properties – specifically to the respective project," emphasises Carl Mrusek, Chief Sales Officer of JUMBO-Textil. "Thus, with ElasTool, we offer a safe load connection for a wide variety of applications in industry."

ElasTool from JUMBO-Textil

• Lightweight and flexible alternative to conventional tensioning and clamping systems
• Suitable even in small installation spaces
• With individual specifications and infinitely customisable dimensions
• Connection tool optionally made of plastic, aluminium or stainless steel
• Rubber rope in a thickness of 12 to 38 mm
• Rubber rope made of polyamide, polyester, recycled PES, polypropylene, aramid, Dyneema, monofilament, natural fibres
• Different interchangeable head shapes possible
• As an end connection or for coupling with other machine elements
• Tensile load up to 600 N, in individual cases more than this
• Individually configurable e.g. with hook, eyelet or flange

UK’s Optima 3D is delivering its weaving technology to the USA, for installation at the University of Maine’s Advanced Structures and Composites Center (ASCC).

The 3D weaving system consists of an Optima 3D Series 600 shuttle weaving machine with an integrated 2,688-hook Stäubli SX jacquard and harness. It is also complemented by Optima’s compact warp delivery creel and an associated pirn winder for shuttle bobbins and a spool winder for creel spools.

Optima’s looms offer many advanced features over conventional weaving machines, particularly in terms of versatility, as a result of the comprehensive use of digital control systems allowing rapid parameter and sequence changes, coupled with an innovative shuttle system.

The ASCC is certainly no stranger to advanced technology, or indeed ambitious composite projects – in 2019 it received no less than three Guinness World Records, for the world’s largest prototype polymer 3D printer, the largest solid 3D-printed object, and the largest 3D-printed boat. In its latest project it has further introduced BioHome3D – the first 3D-printed house made entirely with bio-based materials developed in a partnership with Oak Ridge National Laboratory. The 182-square-metre prototype features 3D-printed floors, walls and roof which are fully recyclable and highly insulated with 100% wood insulation and customisable R-values. Construction waste was nearly eliminated due to the precision of the printing process.

MAS Holdings, a global apparel & textile manufacturing and tech conglomerate, headquartered in Sri Lanka, secures a stake in HeiQ AeoniQ™ as part of its Plan for Change initiative to support the development of next-generation cellulosic filament fibers to replace polyester and nylon.

HeiQ from Switzerland and MAS Holdings entered a partnership for MAS to secure a stake in HeiQ AeoniQ GmbH, a subsidiary of HeiQ Group that will produce HeiQ AeoniQ™, a climate-positive cellulosic yarn.

With this investment, MAS Holdings becomes the first manufacturer to partner with HeiQ AeoniQ™ in their efforts to provide a sustainable alternative to polyester and nylon. The investment to be made by MAS Holdings is part of the group’s strategy to drive a positive environmental impact. The MAS Plan for Change aims to generate 50% of the company’s revenue through sustainable products by 2025, revolutionizing the textile industry with a focus on innovation, sustainable sourcing, and pioneering circularity at scale.

With the closing of this deal, HeiQ and MAS agreed to a 5-year Offtake Agreement for 3,000 tons of HeiQ AeoniQ™ yarn in 2025 and 5,000 tons per year from 2026 to 2029, valued by HeiQ in the aggregate to US$ 100 million. MAS will finalize this commitment within a stipulated time period after achieving milestone 1, and a mutual plan for commercialization. HeiQ and MAS firmly believe that rapid scaling is key to facilitating the fast adoption of sustainable, circular technologies such as HeiQ AeoniQ™.

The HeiQ AeoniQ™ pilot plant in Austria is manufacturing this revolutionary continuous cellulosic filament yarn since Q3 2022, with up to a 100 tons capacity to be upscaled up to 300 tons by the end of 2023.

The HeiQ AeoniQ™ production scale-up is planned to have its definitive boost by early 2026 with the construction of an entirely new gigafactory capable of a 30,000-ton output per year, in a 250M USD estimated investment.

Polyester and nylon, two oil-based fibers, virtually non-recyclable, account for about 70% of all the global textile production, they take between 350 to 1000 years to degrade in nature, are currently close loop recycled at less than 1%, and are at the origin of 35% of the microplastics that can be found in today's oceans. HeiQ AeoniQ™ was innovated and is being hyper-scaled up to change this course of action.

Increasing energy and resource efficiency in the construction sector will be key to the EU’s ambition of achieving climate neutrality by 2050. By enabling the manufacture of strong, durable and lightweight products, composite materials can help the construction sector improve its environmental sustainability, as well as reduce total lifecycle costs. The latest EPTA industry briefing, Pultruded composites contribute to a more sustainable future for construction, discusses how pultruded composites answer the need for materials offering high performance, faster installation, corrosion resistance and low maintenance.

The report is available to download from the EPTA website.

The future of construction
As one of the largest global users of energy and raw materials, the construction industry is under immense pressure to improve its sustainability. At the same time, it must respond to demands for improved performance and reduced total cost of ownership. New materials will be needed to minimise the use of natural resources, enable a reduction of carbon footprint and facilitate circular economy practices. Choosing the optimum materials required for durability throughout the lifecycle will be increasingly important. A shift to off-site production is also forecast, where factory-controlled environments and automated processes can improve quality control, lower waste, and reduce work on site.

Lightweight pultruded parts can be pre-assembled into modules or complete structures in the factory for faster installation on site. Lightweight profiles lower energy use during transportation and installation, and a longer service life combined with minimal maintenance can deliver a reduced through-life carbon footprint. Pultruded parts such as profiles, gratings, beams, tubes and planks are increasingly found in a range of building, construction and infrastructure applications. Examples include bridge decks, fencing, stairs and handrails, train platforms, cladding, utility poles, modular building concepts, and window frames.

One application offering large growth potential for composites is bridges. Composite bridges are being designed to provide a service life of 100 years and unlike steel bridges do not require regular repainting to protect them from corrosion. Over recent years, pultruded glass fibre composite has become a highly popular choice for pedestrian and cycle bridges. Pre-fabricated ‘easy fit’ bridge decking planks, pre-assembled bridge modules and complete bridge ‘kits’ are now available. Corrosion-resistant composite bridges are ideal for use near water or on the coast, and in remote locations where regular maintenance operations would be difficult. A composite bridge can deliver the same performance as a steel structure with a weight saving of up to 50% or more. This enables more streamlined bridge designs which require less substantial supporting structures and foundations, greatly reducing consumption of materials and energy. Lightweight also results in easier logistics and simplified installation. Pultruded are more easily transported to the construction site, with lower fuel consumption, and easier to move on site, often reducing labour requirements and the capacity of lifting equipment.

A lifecycle approach
As the construction industry looks to the future, the environmental and economic benefits of composite materials linked to easier logistics and installation, durability and low maintenance are becoming increasingly valued. More projects are demonstrating the benefits of composite materials and standards covering the design, fabrication and installation of pultruded profiles are making it easier for the construction industry to use them. With ongoing development and collaboration, pultrusion has the potential to contribute to a more sustainable future for construction and many other industries. EPTA will continue to promote the advancement of pultrusion technology and its applications and foster sustainable practices within the industry.

Silence and resource efficiency are the order of the day in the development and optimization of electric vehicles. On the one hand, ever stricter emissions regulations worldwide are increasing demand for components that reduce noise pollution while helping vehicle manufacturers meet their sustainability targets. On the other hand, the absence of noise from the combustion engine in e-cars amplifies the disruptive effects of other noise sources in the passenger compartment. With Ultra-
Silent Tune, Autoneum now presents a new lightweight and environmentally friendly technology for underbody shields that reduces tire rolling noise both outside and inside the vehicle, thus improving not only acoustic performance but also driver comfort in electric cars.

Autoneum's Ultra-Silent Tune technology owes its sound-absorbing performance to acoustic chambers of different shapes and sizes. The chambers are created by applying an embossed polyester foil to the side of the Ultra-Silent underbody shield facing away from the noise source: they capture the sound waves emitted by the car tires, modulate them according to their respective geometry and reflect them back onto the porous carrier material. Compared to conventional single-layer underbody shields, whose acoustic performance is mainly determined by the noise-reducing properties of the product side facing the tires, Ultra-Silent Tune exploits both sides of the component, which significantly improves its acoustic absorption. Autoneum thus makes innovative use of the proven concept of traditional chamber absorbers, reducing exterior tire rolling noise.

Moreover, Ultra-Silent Tune combines optimized acoustic performance with the sustainability benefits of Autoneum's Pure technology Ultra-Silent. In addition to the high proportion of recycled PET fibers, underbody shields made from Ultra-Silent Tune can be manufactured from 100% polyester and thus be fully recycled at the end of vehicle life. Furthermore, the thickness of the multilayer construction can be flexibly adapted to the packaging spaces of different vehicle models. Underbody shields made from Autoneum's new Ultra-Silent Tune technology are already in pre-development at various vehicle manufacturers in Europe.

KARL MAYER GROUP will be presenting a WEFTTRONIC® II G at the ITMA with new features and upgrades for greater efficiency. This warp knitting machine with weft insertion produces lattice structures from high-strength polyester, which are firmly established in the construction industry in particular. With a working width of 213", it offers productivity and further advantages through design innovations. New features include weft thread tension monitoring, management and the new VARIO WEFT laying system. The component for the weft insertion aims at maximum flexibility. It allows the patterning of the weft yarn to be changed quickly and easily electronically, without mechanical intervention during yarn insertion and without limits on repeat lengths. In addition, there is less waste.

The KARL MAYER GROUP also supports its customers with well thought-out Care Solutions. The new support offers include retrofit packages for retrofitting control and drive technology for weft insertion and composite machines, and service packages that bundle various services. These include machine inspections and the replacement of all drive belts. The customer benefits from fixed prices that cover the costs of technician assignments, various discount options and transparent services.

A new solution for the vertical greening of cities is presented from the field of application for technical textiles. The core of the innovation is a grid textile produced on warp knitting machines with weft insertion by KARL MAYER Technische Textilien GmbH. The knitted lattice fabric is made of flax. It is used as a climbing aid for fast-growing plants, and after the greening phase, in autumn, it can be recycled together with these plants as biomass in pyrolysis plants to produce electricity and activated carbon. In summer, the planted sails lower the ambient temperature through evaporation effects. In addition, photosynthesis creates fresh air and binds CO2. Other important advantages are low soil requirements and flexible placement in public spaces. The greening system was developed by the company Micro Climate Cultivation, OMC°C, with the support of KARL MAYER Technische Textilien.

The KARL MAYER GROUP will also be exhibiting a sustainable composite solution made from natural fibres. The reinforcing textile of the innovative lightweight material is a multiaxial non-crimp fabric, which was also produced from the bio-based raw material flax on a COP MAX 4 from KARL MAYER Technische Textilien. The boatbuilding specialist GREENBOATS uses natural fibre composites to achieve sustainable products. The fact that it succeeds in this is shown, for example, by the Global Warming Potential (GWP): 0.48 kg of CO2 per kilogram of flax reinforcement compares with 2.9 kg of CO2 per kilogram of glass textile.

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.

• Sales increase by 4.7% to €283.7 million in Q1 2023
• Adjusted EBITDA improves by 9.0% to €40.1 million
• Growth based in particular on strong demand from the semiconductor industry

SGL Carbon generated Group sales of €283.7 million in Q1 2023 (Q1 2022: €270.9 million). This corresponds to an increase of €12.8 million or 4.7% compared to the same period of the previous year. Increased demand for specialty graphite components for the semiconductor industry from the Graphite Solutions business unit contributed in particular to the pleasing increase in sales. But also the Process Technology and Composite Solutions business units continued their positive business development.

Accordingly, adjusted EBITDA (EBITDApre) improved by 9.0% to €40.1 million in the reporting period (Q1 2022: €36.8 million).

Sales development
In the first three months of fiscal year 2023, the business unit Graphite Solutions was the main driver of SGL Carbon's growth with an increase in sales of €21.3 million or 17.8%. This is due in particular to the reallocation of production capacities from the solar industry market segment to the semiconductor industry. The Process Technology (+€6.6 million) and Composite Solutions (+€4.0 million) business units also contributed to the increase in sales.

The Carbon Fibers (CF) business unit recorded a decline in sales of €24.0 million in the reporting period. The decline is mainly due to the scheduled expiry of the attractive supply contract for the BMW i3 in the middle of last year. Freed-up production capacities were compensated by orders from the wind industry in the 2nd half of 2022. But the necessary construction of wind turbines in Europe is currently stalling. Low building permits and high manufacturing costs are temporarily hampering the construction and expansion of wind parks and therefore the necessary increase in renewable energy.

Earnings development
In line with the sales development combined with higher capacity utilization and positive product mix effects, adjusted EBITDA (EBITDApre) improved from €36.8 million to €40.1 million in Q1 2023, representing a quarter-on-quarter increase of 9.0%.

Taking into account depreciation and amortization of €14.3 million (Q1 2022: €14.1 million) as well as one-off effects and non-recurring items of minus €0.1 million, EBIT in the reporting period amounted to €25.7 million (Q1 2022: €31.2 million). It should be noted that Q1 of the previous year was positively impacted by one-off effects and and non-recurring items amounting to €8.5 million. Accordingly, net profit for the period of €15.3 million was lower than in the same quarter of the previous year (€21.5 million).

Debt, equity and capitel expenditure
Net financial debt increased slightly to €174.2 million as of March 31, 2023 (Dec. 31, 2022: €170.8 million). The leverage ratio remains unchanged at 1.0. Due to the positive consolidated net income, the equity ratio increased again slightly compared to the end of fiscal 2022 to 39.5% (Dec. 31, 2022: 38.5%).

Looking at the capital expenditure in Q1 2023, it amounted to €19.0 million, which is higher than the average values of the previous quarters. "At the beginning of 2023, we had already announced the expansion of our investment activities to expand production capacities in the Graphite Solutions business unit. In previous years, our capital expenditure was in line with depreciation and amortization. In addition to these approximately €60 million, we will invest further €20 to €30 million in 2023, which will be financed by advance payments in the context of long-term supply contracts from our customers in the semiconductor industry. Our semiconductor customers secure future production capacities for graphite components, which are needed for their own growth. In return, SGL Carbon's long-term supply contracts will enable future profitable growth," said Dr. Torsten Derr, CEO of SGL Carbon.

Outlook
In line with the business performance in the first three months of 2023, the company confirms the sales and earnings guidance issued on March 23, 2023.

For the financial year 2023, Group sales are expected to be at the prior-year level and  EBITDApre between €160 - 180 million. Taking into account depreciation and amortization, EBITpre is forecast to be between €100 - 120 million. Furthermore, free cash flow at the end of fiscal 2023 is expected to be at the prior-year level and return on capital employed (ROCE) between 10% and 12%.

• Spunbond, meltblown and composite structures for new market opportunities

RadiciGroup is participating with its Advanced Textile Solutions business area at Index in Geneva from 18 to 21 April 2023. Among the Group’s products showcased are spunbond and meltblown for different application sectors, such as roofing, construction, automotive, HO.RE.CA. and filtration.

“The key message we are bringing to the fair is sustainability,” noted Enrico Buriani, CEO of the Nonwovens division of RadiciGroup Advanced Textile Solutions. “Those who already know us know that, for many years, the Group has been focused on proposing low environmental impact products and processes where sustainability is scientifically measured or certified by independent third parties. Our company is dedicated to nonwovens, which, by the way, are produced using 100% renewable energy. We have expanded our portfolio of innovative solutions for customers interested in realizing projects with sustainability as an essential requirement.”

Respunsible® is a spunbond brand manufactured from recycled polypropylene. A preliminary Life Cycle Assessment (LCA) study was carried out by RadiciGroup to demonstrate the correlation between the reduction in environmental impact and the percentage increase in recycled material. The final results demonstrate that a variable percentage of from 50 to 70% recycled material leads to a reduction in CO2 emissions of from 30 to 40%, compared to a fabric made of 100% virgin material, without comprising high technical performance.

Additionally, since RadiciGroup has achieved ISCC PLUS certification (International Sustainability and Carbon Certification), it can offer bio, biocircular or circular polypropylene spunbond and meltblown nonwovens, in which the sustainable polypropylene is biomass balanced. This certification signifies traceability along the supply chain and verifies that the certified companies meet high environmental and social standards.

“Since 2020, we have had a technologically advanced meltblown production line,” Mr. Buriani concluded. “This allows us to make composite structures, sold under the brand name Radimelt®. Now our goal is to expand our filtration applications, diversifying and developing new business, for instance vacuum cleaner bags or HVAC (heating, ventilation and air conditioning) system filters, where we can meet the high efficiency and mechanical resistance demanded, thanks to our latest generation technology.”