From the Sector

adidas have unveiled an innovation in the sport of wheelchair basketball. Born from extensive feedback and research with wheelchair athletes, the uniforms were developed by the adidas Innovation team in Portland in close collaboration with Adaptive Sports Northwest, a non-profit organization for adaptive athletics. The uniforms will be worn by the PNW Reign women’s wheelchair basketball team for the first time as they set out on a quest to win the NWBA Tournament on April 26-28, 2024.

Earlier in April, during the reveal of the adidas kits for the Paris 2024 Olympic and Paralympic Games, the sports brand announced that 86% of pieces of apparel worn on and off the field of play have been created using design principles that ensure they work for athletes with and without a disability alongside the development of adaptive training apparel.

The new wheelchair basketball jersey and shorts feature ergonomic advancements in pattern engineering, specifically tailored for seated positions to reduce bulk and increase comfort. Materials were selected based on detailed athlete feedback sessions and data analysis to unlock performance for seated athletes. The uniform features lightweight woven front panels for durability and full mesh back panels for breathability. Focus on the fit was paramount to deliver a uniform that felt light and comfortable.

Players of both genders have actively participated in rounds of feedback and ergometer testing sessions to measure maximum speed over pushes, providing the adidas team with invaluable insights into the mechanics of speed that will inform future research and development. In addition, the feedback was used to measure fit, performance, durability, and overall comfort to make the uniforms match the needed requirements. Finally, through the validation process, the PNW Reign basketball team confirmed that adapted patterns have been proven to reduce fabric bulk, decrease heat build-up and enhance confidence.

The Italian chemical company presents its solution for indigo garment dyeing EASYNDIGO in Amsterdam. The promise is to make indigo easy to obtain in just a few simple steps. The technology, based on the Pull&Push Mechanism, uses specific agents to enhance the two-phase dyeing process of raw garments with indigo.

1^st step: The pull mechanism
The Pull mechanism works on raw garments to pull indigo onto the fibers, using a special wetting and leveling agent called DETERWET EASYNDIGO, which acts as a solubilizer, ensures reproducibility and low-foaming, reducing dye migration during drying. It also involves the dispersing agent DISPERSOLO EASYNDIGO, effective for its diffusion-accelerating properties, which allows for a reduction in time and temperature of the dyeing process without compromising lightfastness.

2^nd step: The push mechanism
The Push mechanism works on dye bath to push the indigo into the fibers using an innovative compound named BASE EASYNDIGO and pre-reduced indigo DenimBlu30 by BluConnection. This method achieves a bright and deep indigo color, improves wash and rubbing fastness, enhances levelness, and is formaldehyde-free.

3^rd step
This extra phase is completely dedicated to creativity: with EASYNDIGO is easy to unleash it and get an authentic indigo garment, while reducing the consumption of water, energy and resources. Around these core concepts Officina39 continues to develop innovative solutions that make denim production increasingly responsible.

This innovative chemical package reaches its deepest effectiveness and gets power in combination with Tonello’s DyeMate technology: two Italian companies have combined their efforts to develop an innovative chemical and technological dyeing process.

The transition towards safer and more sustainable chemicals is progressing in some areas, while in others, it is just beginning. This is the finding of a first, joint Europe-wide assessment of the drivers and impact of chemical pollution by the European Environment Agency (EEA) and the European Chemicals Agency (ECHA). The benchmarking found that more work is still needed to reduce the impact of harmful substances on human health and the environment.

The number of industrial chemicals scrutinised under the EU’s chemicals legislation to determine their safety has increased substantially. Authorities now have much better knowledge about the hazardous properties of chemicals that are used across the EU, resulting in many actions to minimise and control the risks of several groups of substances.

According to the joint EEA-ECHA synthesis report on the EU indicator framework for chemicals, the overall use of the most harmful chemicals (in particular those that are carcinogenic, mutagenic and reprotoxic) is still growing but more slowly than the overall chemicals market growth. Pressure is increasing to avoid the use of so-called substances of concern and to implement the principles of the safe and sustainable by design framework.

There is a need to more effectively ensure that consumer products do not contain the most harmful substances, for example chemicals that are endocrine disrupting, that negatively affect the hormone system, or substances that are persistent, bioaccumulative and toxic, which present a risk for years to come even after their use has ceased.

More data and information are needed to better understand human and environmental exposure to those most harmful chemicals and their impacts. Still, the indicators show clearly that the shift to safe and sustainable chemicals must continue and should even be accelerated.

The report is based on a set of 25 key indicators, which monitor the drivers and impacts of chemical pollution in Europe.

Key findings

• Transition towards safer and more sustainable chemicals is progressing in some areas while in others it is just getting started.
• Action by authorities and industry has supported minimising and controlling the risks from several groups of hazardous chemicals. Efforts are ongoing to increase knowledge on chemical hazards and support risk management action where needed.
• Available data suggest that there is little evidence of progress towards eliminating substances of concern from waste and secondary materials. This is a barrier to the transition towards a more circular economy.
• Emissions of certain chemicals to water and air have fallen following specific EU regulations (e.g., on industrial emissions) and international actions, but further measures are needed to reach concentration levels that are not harmful for human health and the environment.
• Emissions from industry still lead to major costs in terms of damages to human and ecosystem health.
• Human biomonitoring offers the opportunity to understand human exposure to chemicals from multiple sources and thus health risks associated with chemical pollution. As such, biomonitoring forms a key tool to measure the effectiveness of chemicals legislation in protecting human health and the environment.

Cavitec, part of Santex Rimar Group, presents the redesigned Caviscreen at Techtextil Frankfurt. Caviscreen features latest technology for breathable laminates.

Caviscreen was developed as a hotmelt coating and laminating unit for breathable sportswear, rainwear and protective clothing – with and without applying a membrane. The redesigned machine shows a brand-new method to supply adhesive more evenly and precisely. Using PUR adhesive (polyurethane reactive adhesive) goes with additional benefits like strong bonding capabilities and versatility.

Caviscreen’s hotmelt screen printing is a special system for high-end application garments. With this Caviscreen system, a PUR adhesive is transferred onto the substrate through a rotary screen, similar to the well-established textile printing method. The adhesives are fed from the drum melter through a heated hose to the traversing adhesive distribution system inside the rotary screen, just behind the doctor blade.

The adhesive is pressed by the doctor blade through the screen holes and transferred to the substrate. Different dot pattern (mesh or irregularly) and different screen thicknesses allow different coating weight and adhesive coverages.

The traversing adhesive dispenser is used to distribute the adhesive automatically over the set working width that – an additional technical benefit – can be set without any mechanical changes.

Cavitec’s screen coating system achieves high bonding strength while using less adhesive than other coating processes, because of applying the coating on the surface of the substrate and like this, the adhesive has less tendency to penetrate the substrate.

Bonding strength, softness of the fabric and the breathability are defined by the coating weight and the coverage. The rotary screen allows users to regulate and adapt the coverage respectively the coating weight. Cavitec offers a large selection of screens that are essential to fulfil the fabric requirements. A further advantage is the ease and efficiency of switching from one screen to another by simply unlocking the bayonet fitting. The IR-heater cover opens pneumatically and the lightweight screen can be easily removed by hand. Unlike with other methods, there's no need to deal with hot oil or any other heated liquid that requires cooling down.

The Caviscreen technology supports manufacturers by reducing costs with screens priced at a mere fraction, just 10%, of common gravure roller prices.

The “Cellulose Fibres Conference 2024” held in Cologne on 13-14 March demonstrated the innovative power of the cellulose fibre industry. Several projects and scale-ups for textiles, hygiene products, construction and packaging showed the growth and bright future of this industry, supported by the policy framework to reduce single-use plastic products, such as the Single Use Plastics Directive (SUPD) in Europe.

40 international speakers presented the latest market trends in their industry and illustrated the innovation potential of cellulose fibres. Leading experts introduced new technologies for the recycling of cellulose-rich raw materials and gave insights into circular economy practices in the fields of textiles, hygiene, construction and packaging. All presentations were followed by exciting panel discussions with active audience participation including numerous questions and comments from the audience in Cologne and online. Once again, the Cellulose Fibres Conference proved to be an excellent networking opportunity to the 214 participants and 23 exhibitors from 27 countries. The annual conference is a unique meeting point for the global cellulose fibre industry.  

For the fourth time, nova-Institute has awarded the “Cellulose Fibre Innovation of the Year” Award at the Cellulose Fibres Conference. The Innovation Award recognises applications and innovations that will lead the way in the industry’s transition to sustainable fibres. Close race between the nominees – “The Straw Flexi-Dress” by DITF & VRETENA (Germany), cellulose textile fibre from unbleached straw pulp, is the winning cellulose fibre innovation 2024, followed by HONEXT (Spain) with the “HONEXT® Board FR-B (B-s1, d0)” from fibre waste from the paper industry, while TreeToTextile (Sweden) with their “New Generation of Bio-based and Resource-efficient Fibre” won third place.

Prior to the event, the conference advisory board had nominated six remarkable innovations for the award. The nominees were neck and neck, when the winners were elected in a live vote by the audience on the first day of the conference.

First place
DITF & VRETENA (Germany): The Straw Flexi-Dress – Design Meets Sustainability
The Flexi-Dress design was inspired by the natural golden colour and silky touch of HighPerCell® (HPC) filaments based on unbleached straw pulp. These cellulose filaments are produced using environmentally friendly spinning technology in a closed-loop production process. The design decisions focused on the emotional connection and attachment to the HPC material to create a local and circular fashion product. The Flexi-Dress is designed as a versatile knitted garment – from work to street – that can be worn as a dress, but can also be split into two pieces – used separately as a top and a straight skirt. The top can also be worn with the V-neck front or back. The HPC textile knit structure was considered important for comfort and emotional properties.

Second place
Honext Material (Spain): HONEXT® Board FR-B (B-s1, d0) – Flame-retardant Board made From Upcycled Fibre Waste From the Paper Industry
HONEXT® FR-B board (B-s1, d0) is a flame-retardant board made from 100 % upcycled industrial waste fibres from the paper industry. Thanks to innovations in biotechnology, paper sludge is upcycled – the previously “worthless” residue from paper making – to create a fully recyclable material, all without the use of resins. This lightweight and easy-to-handle board boasts high mechanical performance and stability, along with low thermal conductivity, making it perfect for various applications in all interior environments where fire safety is a priority. The material is non-toxic, with no added VOCs, ensuring safety for both people and the planet. A sustainable and healthy material for the built environment, it achieves Cradle-to-Cradle Certified GOLD, and Material Health CertificateTM Gold Level version 4.0 with a carbon-negative footprint. Additionally, the product is verified in the Product Environmental Footprint.

Third Place
TreeToTextile (Sweden): A New Generation of Bio-based and Resource-efficient Fibre
TreeToTextile has developed a unique, sustainable and resource efficient fibre that doesn’t exist on the market today. It has a natural dry feel similar to cotton and a semi-dull sheen and high drape like viscose. It is based on cellulose and has the potential to complement or replace cotton, viscose and polyester as a single fibre or in blends, depending on the application.
TreeToTextile Technology™ has a low demand for chemicals, energy and water. According to a third party verified LCA, the TreeToTextile fibre has a climate impact of 0.6 kg CO2 eq/kilo fibre. The fibre is made from bio-based and traceable resources and is biodegradable.

The next conference will be held on 12-13 March 2025.

The DITF is leading the joint project "DACCUS-Pre*". The basic idea of the project is to develop a new building material that stores carbon in the long term and removes more CO₂ from the atmosphere than is emitted during its production.       

In collaboration with the company TechnoCarbon Technologies, the project is now well advanced - a first demonstrator in the form of a house wall element has been realized. It consists of three materials: Natural stone, carbon fibers and biochar. Each component contributes in a different way to the negative CO₂ balance of the material:

Two slabs of natural stone form the exposed walls of the wall element. The mechanical processing of the material, i.e. sawing in stone cutting machines, produces significant quantities of stone dust. This is very reactive due to its large specific surface area. Silicate weathering of the rock dust permanently binds a large amount of CO₂ from the atmosphere.

Carbon fibers in the form of technical fabrics reinforce the side walls of the wall elements. They absorb tensile forces and are intended to stabilize the building material in the same way as reinforcing steel in concrete. The carbon fibers used are bio-based, produced from biomass. Lignin-based carbon fibers, which have long been technically optimized at DITF Denkendorf, are particularly suitable for this application: They are inexpensive due to low raw material costs and have a high carbon yield. In addition, unlike reinforcing steel, they are not susceptible to oxidation and therefore last much longer. Although carbon fibers are more energy-intensive to produce than steel, as used in reinforced concrete, only a small amount is needed for use in building materials. As a result, the energy and CO₂ balance is much better than for reinforced concrete. By using solar heat and biomass to produce the carbon fibers and the weathering of the stone dust, the CO₂ balance of the new building material is actually negative, making it possible to construct CO₂-negative buildings.

The third component of the new building material is biochar. This is used as a filler between the two rock slabs. The char acts as an effective insulating material. It is also a permanent source of CO₂ storage, which plays a significant role in the CO₂ balance of the entire wall element.

From a technical point of view, the already realized demonstrator, a wall element for structural engineering, is well developed. The natural stone used is a gabbro from India, which has a high-quality appearance and is suitable for high loads. This has been proven in load tests.  Bio-based carbon fibers serve as the top layer of the stone slabs. The biochar from Convoris GmbH is characterized by particularly good thermal insulation values.

The CO₂ balance of a house wall made of the new material has been calculated and compared with that of conventional reinforced concrete. This results in a difference in the CO₂ balance of 157 CO₂ equivalents per square meter of house wall. A significant saving!

* (Methods for removing atmospheric carbon dioxide (Carbon Dioxide Removal) by Direct Air Carbon Capture, Utilization and Sustainable Storage after Use (DACCUS).

Kelheim Fibres is showcasing recent research findings at this year's Cellulose Fibres Conference (13rd-14th of March). The development, led by Dr. Ingo Bernt, Project Leader of Fibre & Application Development at Kelheim Fibres, and Dr. Thomas Harter from Graz University of Technology, provides insights into the correlation between the geometry of viscose fibres and the liquid absorption of tampons.

Kelheim Fibres has long been engaged in the functionalization of viscose fibres, including the specific adaptation of fibre cross-sections. The trilobal Galaxy® serves as an example. The current study underscores the properties of the fibre, primarily rooted in its geometry. This involves taking a closer look at the underlying mechanisms. It has been confirmed that, in contrast to the traditionally round viscose fibres and despite similar chemical compositions and mechanical properties, Galaxy® enables significantly better liquid absorption.

While the higher specific surface area of trilobal fibres already promotes improved liquid absorption, this is not the main factor accounting for the difference in absorption. Instead, the geometric shape of the fibres proves to be crucial. Trilobal fibres create and maintain a more voluminous, extensive network within the absorbent body, providing a larger volume for liquid absorption.

Dr. Ingo Bernt emphasizes, "The results of our study are not limited to tampons—any application requiring increased absorbency can benefit from the properties of our Galaxy® fibres."

The lecture "Geometry Matters: Unveiling Tampon Absorption Mechanisms" by Dr. Ingo Bernt und Dr. Thomas Harter takes place on the 14th of March at 2:50pm.

The European Chemicals Agency (ECHA), between 2009 and 2023, has performed compliance checks of approximately 15 000 registrations, representing 21 % of full registrations.  The Agency has met its legal target for dossier evaluation, which was increased from 5 % to 20 % in 2019. While, for substances registered at quantities of 100 tonnes or more per year, ECHA has checked compliance for around 30% of them.  

In 2023, the Agency conducted 301 compliance checks, covering more than 1 750 registrations and addressing 274 individual substances. These checks focused on registration dossiers that may have data gaps and aim to enhance the safety data of these substances. As a result, 251 adopted decisions were sent to companies, requesting additional data to clarify long-term effects of chemicals on human health or the environment.

ECHA will now put more focus on following up the requests sent to companies. In the follow-up evaluation process, the Agency assesses the incoming information for compliance. The outcome of the incoming data is shared with the Member States and European Commission to enable prioritisation of substances. ECHA will work closer together with the Member States for enforcement of non-compliant dossiers.  

Compliance of registration dossiers will remain a priority for ECHA for the coming years. This year, the Agency will review the impact of the Joint Evaluation Action Plan, aimed at improving REACH registrations compliance, and, together with stakeholders, develop new priority areas to work on.

• Revenues: 477.6 million euros (-6%)
• EBITDA before non-recurring items: 79.0 million euros (-15%)
• Net income: 32.6 million euros (-26%)
• Free cash flow before non-recurring items: 45.3 million euros
• Dividend: €0.36 per share

Lectra’s Board of Directors, chaired by Daniel Harari, reviewed the consolidated financial statements for the fiscal year 2023. Audit procedures have been performed by the Statutory Auditors.

Currency changes between 2022 and 2023 mechanically decreased revenues and EBITDA before non-recurring items by 3.9 million euros (-3%) and 1.7 million euros (-8%) respectively in Q4, and by 11.2 million euros (-2%) and 4.8 million euros (-6%) respectively in the year, at actual exchange rates compared to like-for-like figures.

OUTLOOK
While the 2023 full-year results were affected by the adverse environment, they also attest to the substantial improvement in the fundamentals of the Group's business model, which will have a positive impact on 2024 results. Persistent macroeconomic and geopolitical uncertainties could nevertheless continue to weigh on investment decisions by the Group's customers.

While the most recent indicators seem to suggest that the situation is unlikely to deteriorate further, the timing and magnitude of a rebound in new system orders remain uncertain.

Outlook for 2024
To facilitate analysis, the accounts of Lectra excluding the Launchmetrics acquisition ("Lectra 2023 Scope") will be analysed separately from the Launchmetrics accounts in 2024.

The Group has based its 2024 objectives on the exchange rates in effect on December 29, 2023, in particular $1.10/€1. When converting 2023 results using the exchange rates retained for 2024, 2023 revenues are mechanically reduced by 4.7 million euros (to 472.9 million euros) and 2023 EBITDA before non-recurring items is reduced by 2.2 million euros (to 76.8 million euros). Thus, for the Lectra 2023 Scope, the comparisons between 2024 and 2023 printed below are based on constant exchange rates.

At this early stage of 2024, continuing low visibility regarding orders and revenues from new systems makes it impossible to predict the actual timing and scale of the future rebound in this area. On the other hand, visibility is high for recurring revenues, which accounted for 68% of total revenues in 2023 and will continue to grow in 2024.

In light of the above, Lectra has set as its objective for 2024, for the Lectra 2023 Scope, to achieve revenues in the range of 480 to 530 million euros (+2% to +12%) and EBITDA before non-recurring items in the range of 85 to 107 million euros (+10% to +40%).

The low end of the revenues range is based on the absence of a rebound in new systems orders, which would remain stable in 2024 relative to 2023, with a 6% decline in revenues from perpetual software licenses, equipment and accompanying software and non-recurring services, as the order backlog was lower on December 31, 2023 than a year before.

The high end of the revenues range reflects a gradual rebound in new systems orders, which at year-end 2024 would be back to year-end 2022 level.
 
In addition, Launchmetrics revenues (for the consolidation period from January 23 to December 31) are projected to be in the range of 42 to 46 million euros, with an EBITDA margin before non-recurring items of more than 15% (assuming an exchange rate of $1.10/€1).

Many end-users now expect recycled materials to be in textile products they purchase – and this is driving innovation throughout the industry. However, there are still many technical and economic issues facing yarn and fabric producers using recycled resources. Members of the Swiss Textile Machinery Association offer some effective solutions to these challenges.

Synthetic recycled materials such as PET can usually be treated similarly to new yarn, but there are additional complexities where natural fibres like wool and cotton are involved. Today, there’s a trend towards mechanically recycled wool and cotton fibres.

Spinning recycled cotton
The use of mechanically recycled fibres in spinning brings specific quality considerations: they have higher levels of short fibres and neps – and may often be colored, particularly if post-consumer material is used. It’s also true that recycled yarns have limitations in terms of fineness. The Uster Statistics 2023 edition features an extended range of fibre data, supporting sustainability goals, including benchmarks for blends of virgin and recycled cotton.
In general, short fibres such as those in recycled material can easily be handled by rotor spinning machines. For ring spinning, the shorter the fibres, the more difficult it is to guide them through the drafting zone to integrate them into the yarn body. Still, for wider yarn counts and higher yarn quality, the focus is now shifting to ring spinning. The presence of short fibres is a challenge, but Rieter offers solutions to address this issue.

Knitting recycled wool
For recycling, wool fibres undergo mechanical procedures such as shredding, cutting, and re-spinning, influencing the quality and characteristics of the resulting yarn. These operations remove the natural scales and variations in fibre length of the wool, causing a decrease in the overall strength and durability of the recycled yarn. This makes the yarn more prone to breakage, especially under the tension exerted during knitting.

Adapting to process recycled materials often requires adjustments to existing machinery. Knitting machines must be equipped with positive yarn suppliers to control fibre tension. Steiger engages in continuous testing of new yarns on the market, to check their suitability for processing on knitting machines. For satisfactory quality, the challenges intensify, with natural yarns requiring careful consideration and adaptation in the knitting processes.

From fibres to nonwovens
Nonwovens technology was born partly from the idea of recycling to reduce manufacturing costs and to process textile waste and previously unusable materials into fabric structures. Nonwovens production lines, where fibre webs are bonded mechanically, thermally or chemically, can easily process almost all mechanically and chemically recycled fibres.

Autefa Solutions offers nonwovens lines from a single source, enabling products such as liners, wipes, wadding and insulation to be produced in a true closed loop. Fibres are often used up to four times for one product.

Recycling: total strategy
Great services, technology and machines from members of Swiss Textile Machinery support the efforts of the circular economy to process recycled fibres. The machines incorporate the know-how of several decades, with the innovative power and quality standards in production and materials.
Stäubli’s global ESG (environmental, social & governance) strategy defines KPIs in the context of energy consumption, machine longevity and the recycling capacity in production units worldwide, as well in terms of machinery recyclability. The machine recyclability of automatic drawing in machines, weaving systems and jacquard machines ranges from 96 to 99%.