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(c) INNATEX – international trade fair for sustainable textiles
06.12.2022

51st INNATEX targets the topic of conventional retail

International trade fair for Green Fashion focuses on new formats and strategic partnerships:

From 21 to 23 January 2023, INNATEX will be taking place for the 51st time in ac-cordance with its usual daily schedule. So far, well over 200 brands have regis-tered from Saturday to Monday in Hofheim-Wallau, near Frankfurt am Main, getting back towards pre-COVID levels. Its motto, ‘One Goal, Endless Styles’, refers not only to the diversity and solidarity in the INNATEX community but also to the fact that Green Fashion is a fundamental business area for the future.

International trade fair for Green Fashion focuses on new formats and strategic partnerships:

From 21 to 23 January 2023, INNATEX will be taking place for the 51st time in ac-cordance with its usual daily schedule. So far, well over 200 brands have regis-tered from Saturday to Monday in Hofheim-Wallau, near Frankfurt am Main, getting back towards pre-COVID levels. Its motto, ‘One Goal, Endless Styles’, refers not only to the diversity and solidarity in the INNATEX community but also to the fact that Green Fashion is a fundamental business area for the future.

Sustainability: a business model fit for the future
“We are seeking to promote constant new development in a sustainable textile industry through new formats and cooperation agreements,” says Alexander Hitzel, INNATEX Project Manager. “We are currently working with the Retail Federation (HDE) on addressing conventional retailers. In addition, we are planning creative and entirely novel concepts for the presentation of labels, as well as a business panel designed to deliver insights and hard facts for the trade. Sustainability projects are only truly sustainable if they are also selfsupporting business models.

From live presentations and strategic communication to fundraising campaigns
But, he says, the demand for established natural fibres and specifically designed production and certification options is also rising. The International Association of the Natural Textile Industry (IVN) will again be on site to offer its expertise and provide information on the implementation of the new German Supply Chain Act. The DesignDiscoveries support program, which will be on display in a freshly designed Special Area, offers selected newcomer labels a platform for their creative ideas. Applications are still open until 15 December.

“At INNATEX, retailers can seek out trends and discover new ideas and products, directly compare an unbeatable range of collections and articles from different suppliers, and get down to networking – those are the benefits of this ordering fair,” says Hitzel.

INNATEX is collaborating for the first time with the organisation Europe Cares, which provides humanitarian assistance for ‘people on the move’. Surplus goods that exhibitors can donate to the campaign will be used for the benefit of refugees at Europe’s borders.

Source:

INNATEX

Photo: Bcomp
22.11.2022

Made in Switzerland: Is Flax the New Carbon?

  • Bcomp wins BMW Group Supplier Innovation Award in the category “Newcomer of the Year”

The sixth BMW Group Supplier Innovation Awards were presented at the BMW Welt in Munich on 17 November 2022. The coveted award was presented in a total of six categories: powertrain & e-mobility, sustainability, digitalisation, customer experience, newcomer of the year and exceptional team performance.

Bcomp won the BMW Group Supplier Innovation Award in the Newcomer of the Year category. Following a successful collaboration with BMW M Motorsport for the new BMW M4 GT4 that extensively uses Bcomp’s powerRibs™ and ampliTex™ natural fibre solutions and BMW iVentures recently taking a stake in Bcomp as lead investor in the Series B round, this award is another major step and recognition on the path to decarbonizing mobility.

  • Bcomp wins BMW Group Supplier Innovation Award in the category “Newcomer of the Year”

The sixth BMW Group Supplier Innovation Awards were presented at the BMW Welt in Munich on 17 November 2022. The coveted award was presented in a total of six categories: powertrain & e-mobility, sustainability, digitalisation, customer experience, newcomer of the year and exceptional team performance.

Bcomp won the BMW Group Supplier Innovation Award in the Newcomer of the Year category. Following a successful collaboration with BMW M Motorsport for the new BMW M4 GT4 that extensively uses Bcomp’s powerRibs™ and ampliTex™ natural fibre solutions and BMW iVentures recently taking a stake in Bcomp as lead investor in the Series B round, this award is another major step and recognition on the path to decarbonizing mobility.

“Innovations are key to the success of our transformation towards electromobility, digitalisation and sustainability. Our award ceremony recognises innovation and cooperative partnership with our suppliers – especially in challenging times,” said Joachim Post, member of the Board of Management of BMW AG responsible for Purchasing and Supplier Network at the ceremony held at BMW Welt in Munich.

BMW first started to work with Bcomp’s materials in 2019 when they used high-performance natural fibre composites in the BMW iFE.20 Formula E car. From this flax fibre reinforced cooling shaft, the collaboration evolved and soon after, the proprietary ampliTex™ and powerRibs™ natural fibre solutions were found successfully substituting selected carbon fibre components in DTM touring cars from BMW M Motorsport. By trickling down and expanding into other vehicle programs, such developments highlight the vital role that BMW M Motorsports plays as a technology lab for the entire BMW Group. This continues in the form of the latest collaboration with Bcomp to include a higher proportion of renewable raw materials in the successor of the BMW M4 GT4.

With the launch of the new BMW M4 GT4, it will be the serial GT car with the highest proportion of natural fibre components. Bcomp’s ampliTex™ and powerRibs™ flax fibre solutions can be found throughout the interior on the dashboard and centre console, as well as on bodywork components such as the hood, front splitter, doors, trunk, and rear wing. Aside from the roof, there are almost no carbon fibre reinforced plastic (CFRP) components that were not replaced by the renewable high-performance flax materials. “Product sustainability is increasing in importance in the world of motorsport too,” says Franciscus van Meel, Chairman of the Board of Management at BMW M GmbH.

Bcomp is a leading solutions provider for natural fibre reinforcements in high performance applications from race to space.

The company started as a garage project in 2011 with a mission to create lightweight yet high performance skis. The bCores™ were launched and successfully adopted by some of the biggest names in freeride skiing. The founders, material science PhDs from École Polytechnique Fédérale de Lausanne (EPFL), used flax fibres to reinforce the balsa cores and improve shear stiffness. Impressed by the excellent mechanical properties of flax fibres, the development to create sustainable lightweighting solutions for the wider mobility markets started.

Flax is an indigenous plant that grows naturally in Europe and has been part of the agricultural history for centuries. It requires very little water and nutrients to grow successfully. In addition, it acts as a rotational crop, thus enhancing harvests on existing farmland. Neither cultivation nor processing of the flax plants requires any chemicals that could contaminate ground water and harvesting is a completely mechanical process. After harvesting the entire flax plant can be used for feed, to make oil and its fibres are especially used for home textiles and clothing. The long fibre that comes from the flax plant possesses very good mechanical properties and outstanding damping properties in relation to its density, making it especially suited as a natural fibre reinforcement for all kinds of polymers.

The harvesting and processing of flax takes place locally in the rural areas it was grown in. Using European flax sourced through a well-established and transparent supply chain it allows to support the economic and social structure in rural areas thanks to the large and skilled workforce required to sustain the flax production. When it comes to the production of technical products like the powerRibs™ reinforcement grid, Bcomp is investing in local production capacities close to its headquarters in the city of Fribourg, Switzerland, thus creating new jobs and maintaining technical know-how in the area. The production is built to be as efficient as possible and with minimal environmental impact and waste.

Further strengthening the local economy, Bcomp aims to hire local companies for missions and with the headquarters being located in Fribourg’s “Blue Factory” district, Bcomp can both benefit from and contribute to the development of this sustainable and diverse quarter.

Source:

Bcomp; BMW Group

Photo: Performance Days
18.10.2022

Eco Award & Performance Award for innovative winter fabrics 24/25

  • Jury presents two awards for outstanding fabric Innovation

The next PERFORMANCE DAYS will take place from November 3-4, 2022 at the MOC Ordercenter in Munich. Visitors also have the opportunity to follow the events online. Thanks to the new platform The Loop, all important information is available all year round, including current trends, new material innovations and extended tools for ease of use. The focus of the curated PERFORMANCE FORUM continues in winter honoring the winners of both awards. This year, in addition to a PERFORMANCE AWARD, the jury also presented an ECO PERFORMANCE AWARD.

  • Jury presents two awards for outstanding fabric Innovation

The next PERFORMANCE DAYS will take place from November 3-4, 2022 at the MOC Ordercenter in Munich. Visitors also have the opportunity to follow the events online. Thanks to the new platform The Loop, all important information is available all year round, including current trends, new material innovations and extended tools for ease of use. The focus of the curated PERFORMANCE FORUM continues in winter honoring the winners of both awards. This year, in addition to a PERFORMANCE AWARD, the jury also presented an ECO PERFORMANCE AWARD.

Sustainable & innovative: the award winners of the Winter 2024/25 season
As part of the winter edition of the sourcing fairs, the fabric highlights plus accessory trends in the individ-ual categories for the winter season 2024/25 will be on display at the PERFORMANCE FORUM.
 
Particularly striking this year was the high levels of innovation and quality of many submitted fabrics on the one hand, but on the other hand – also as a result of this year’s Focus Topic – the sustainable component. “We wish to enable our visitors to make the best decision in terms of material selection, also in terms of CO2 neutrality and ultimately also in terms of textile recyclability,” states Marco Weichert, CEO of PERFORMANCE DAYS.  

Nevertheless, the road to CO2 neutrality remains a long one, yet the approaches adopted with the Focus Topic ongoing until the coming spring can be seen in a positive light. In general, manufacturers are increasingly relying on the use of natural fibers when possible, such as Tencel™ or other plant fibers – most of them also prove a low CO2 balance during production. The issue of recycling comes with many new facets and wide spanning trends. The portfolio ranges from the recycling of marine waste, such as old buoys, plastic waste or fishing nets, to the recycling of waste from the automotive and computer industries, such as old car tires or computer chips. Natural dyeing methods are also gaining in importance, as is the return of fabrics to the textile cycle.

In the Marketplace, visitors have the opportunity to view over 19,000 products from exhibitors, including the fabric highlights of the individual categories at the PERFORMANCE FORUM. In order for visitors to experience the fabrics in terms of haptics, design and structure in as realistic a form as possible, the PERFORMANCE FORUM has been equipped with innovative 3D technology, including innovative tools such as 3D images, video animations and U3MA data for download.

The jury has also presented two awards for outstanding fabrics for the Winter Season 2024/25 – with the PERFORMANCE AWARD going to Long Advance Int. Co Ltd., and the ECO PERFORMANCE AWARD to PontetortoSpa.

The ECO PERFORMANCE AWARD goes to “9203/M/RC” from PontetortoSpa: High Performance despite maximum sustainability
The fabric is a blend of 23 % hemp, 69 % recycled polyester and 9 % recycled elastane. Moreover, the material boasts a low CO2 footprint during production and focuses on low release levels of microplastics into the environment. “9203/M/RC” belongs to Pontetorto's Techno Stretch organic series, which boast an excellent 4-way stretch with great elasticity. In addition, it guarantees fast drying and optimal breathability. The polyester yarn is manufactured by the mechanical recycling of plastic bottles. Hemp, the most water–repellent among natural fibers, allows for quick drying and provides optimal comfort. Hemp is considered an extremely sustainable natural fiber due to its origin from an anti–bacterial plant that requires neither pesticides nor chemical fertilizers during its growth and consumes extremely little water.

PERFORMANCE AWARD for “LPD-22015-Y4E” from Long Advanced Int. Co. Ltd.: Perfect recycling for top performance
The monocomponent 2layer fabric is a mixture of 45 % polyester mechanical stretch and 55 % recycled polyester from recycled textiles, laminated with a PET Membrane, with a weight of 147 grams.
The special feature of the “LPD 22015-Y4E” is the recycling of fabric and cutting waste. Waste is thus returned to the textile cycle and used to spin new yarn. In the future, manufacturers will have to ensure that all fabric can be recycled. Accordingly, the production of waste is then reduced by 30 % compared to conventional processes. Furthermore, the jury praised the feel and the extraordinary look of the material.

The entire PERFORMANCE FORUM including both awards can be experienced live at the fair on October 26-27, 2022 in Portland, Oregon, and in Munich at the PERFORMANCE DAYS fair on November 03-04, 2022. As of now, all innovative materials can also be found online in the Marketplace of the PERFORMANCE DAYS Loop, with the option to order free samples directly from the exhibitor.

Submarine sensors have lots to tell us about the situation below the surface. Fraunhofer IZM has mounted sensor systems on the two manta ray fins of the unmanned underwater vehicle designed by EvoLogics. (c) EvoLogics GmbH
11.10.2022

Textile Skin & Smart Sensors: Robo-Ray in Search of Munitions

Giant arsenals of unexploded ordinance are sitting on the ocean floor, lost in battle or dumped as waste. The risky job of detecting these underwater hazards is currently given to submarines specially fitted for the purpose. But even they cannot get to some of the tighter or harder to reach spots, forcing expert divers to go down and take over the often life-threatening work.

A German research consortium including Fraunhofer IZM is now using a submarine robot that is as nimble and mobile as a manta ray and equipped with innovative connected sensors on its fins to gather more information about its surroundings. It can measure water pressure so precisely that metal objects can be detected on the ocean floor, even if they are covered by sediment.

Giant arsenals of unexploded ordinance are sitting on the ocean floor, lost in battle or dumped as waste. The risky job of detecting these underwater hazards is currently given to submarines specially fitted for the purpose. But even they cannot get to some of the tighter or harder to reach spots, forcing expert divers to go down and take over the often life-threatening work.

A German research consortium including Fraunhofer IZM is now using a submarine robot that is as nimble and mobile as a manta ray and equipped with innovative connected sensors on its fins to gather more information about its surroundings. It can measure water pressure so precisely that metal objects can be detected on the ocean floor, even if they are covered by sediment.

Unmanned underwater vehicles or UUVs have been in use for several years, but high-tech pioneers for reliable underwater communication and innovative bionics like EvoLogics GmbH have let themselves be inspired by marine life like manta rays and adapted their look and technical anatomy to the submarine world.

With the enormous “wingspan” of their fins, manta rays are known to cover vast distances, while their extremely flexible vertebrae means that they can make surprisingly sharp turns on their seemingly weightless journey through the sea. Their robotic cousins can be very agile as well, but they were not smart enough yet to replace the professional divers who had to scour the sea floor for hours, looking for lost ordinance from the First or Second World War or other hazardous metal waste before offshore wind farms could be built or intercontinental cables could be put down. Now, the new robo ray will make it possible to detect submarine hazards with a whole battery of sensors.

The “Bionic RoboSkin” project, supported by Germany’s Ministry of Education and Research, is working to give the manta-shaped UUVs a flexible bionic sensor skin to help them navigate their underwater world. The skin is made from a compound fabric that is fitted with sensor elements and water-resistant connectors to supply the sensors with power and transmit their data. Researchers from Fraunhofer IZM have taken on the challenge of developing these integrated sensor modules with which the UUVs can detect touch or the proximity of objects and virtually see and analyze their surroundings. The project consortium is headed by EvoLogics GmbH and includes other experts in the field from TITV Greiz, Sensorik Bayern GmbH, the diving specialists of BALTIC Taucherei- und Bergungsbetrieb Rostock GmbH, and GEO-DV GmbH, all with one mission: To create a new generation of robots that can support their human partners with a range of semi or fully automated services and functions.

Their capabilities will not be limited to the sea: The researchers are looking at a second use case for a land-based robot sensor platform, fittingly called “Badger” or “Dachs” in German. It will navigate by GPS and be fitted with ground penetrating radar to detect metal objects below ground or conduct other ground survey work in harder to reach places (including tunneling work).

Under the robotic manta ray’s deceptively lifelike shell lies intricate technology: A permeable and therefore pressure-neutral fabric skin is created and fitted with integrated microelectronics for touch, flow, motion, and position sensors. This textile skin is then pulled tight over the robotic fins, creating a soft robotics machine that can sense its surroundings. The team at Fraunhofer IZM is responsible for the electronics that make this possible: They developed sensor nodes suitable for submersible use that can collect and pre-process the sensor data. These nodes do not only have to be fit for purpose, they also need to be extremely miniaturized to fit underneath the thin fabric skin and integrate the necessary connectors. In active operations below the waterline, these sensors can track parameters like acceleration, pressure, or absorbency. The researchers also included LEDs in the circuit board design that let the robotic manta rays communicate with human divers, for instance to signal a turn.

All of these components and sensor packages are integrated by means of a highly miniaturized embedding method and protected from the cold and wet environment by a robust case. Despite this, the footprint of the embedded modules is amazingly small at 23 x 10.5 x 1.6 mm³, fitting a complete sensor package and microcontroller in something the size of a common door key. The case itself works as a conductor by creating the mechanical and electrical contact with the sensor skin itself. The researchers chose a modular two-part design from their original vision of the product: The embedding module combines the individual electronic components on a millimeter scale for exceptional integration; the module case acts as the mechanical interface with the skin and makes the system as robust as it has to be for its destined purpose. The coupling between module and case relies on a seemingly simple clipping action: Small pins on the connector surface on the skin and tiny hooks on the sensor module itself snap together to form an easily de- and attachable interface. The resulting system is modular to allow easy reconfiguration.

The researchers at Fraunhofer IZM will now subject their robotic manta ray to a series of tests with their project partners. The results and findings from the “Bionic RoboSkin” project will likely be of use for many other projects and contribute to more pressure-neutral and reliable packaging solutions for flexible, mobile, and smarter service robots.

The “Bionic RoboSkin” project is supported through the VDI/VDE-IT by the Ministry of Education and Research (funding code 16ES0914) as part of the federal government’s research and innovation campaign 2016 to 2020 “Microelectronics from Germany – Driver of Innovation for the Digital Economy”.

Source:

Fraunhofer Institute for Reliability and Microintegration IZM

photo: pexels
26.07.2022

Composites Germany – Results of the 19th Market Survey

  • Current crises are dampening mood in composites industry
  • Pessimistic outlook
  • Subdued investment climate
  • Varying expectations for application industries
  • GRP is still a growth driver
  • Composites Index continues to decline

This is the 19th time that Composites Germany has identified the latest performance indicators for the fibre-reinforced plastics market. The survey covered all the member companies of the three major umbrella organisations of Composites Germany: AVK, Leichtbau Baden-Württemberg and the VDMA Working Group on Hybrid Lightweight Construction Technologies.

As before, to ensure a smooth comparison with the previous surveys, the questions in this half-yearly survey have been left unchanged. Once again, the data obtained in the survey is largely qualitative and relates to current and future developments in the market.

  • Current crises are dampening mood in composites industry
  • Pessimistic outlook
  • Subdued investment climate
  • Varying expectations for application industries
  • GRP is still a growth driver
  • Composites Index continues to decline

This is the 19th time that Composites Germany has identified the latest performance indicators for the fibre-reinforced plastics market. The survey covered all the member companies of the three major umbrella organisations of Composites Germany: AVK, Leichtbau Baden-Württemberg and the VDMA Working Group on Hybrid Lightweight Construction Technologies.

As before, to ensure a smooth comparison with the previous surveys, the questions in this half-yearly survey have been left unchanged. Once again, the data obtained in the survey is largely qualitative and relates to current and future developments in the market.

Current crises are dampening mood in composites industry
Both the economy in general and industry in particular are struggling with numerous challenges at the moment. The Covid-19 pandemic has now had a negative impact for over two years and is still affecting a range of segments of the composites industry. One area that has been hit especially hard by the resulting losses is the mobility sector. Another major strain has been a sharp rise in energy costs recently. Above all, we can expect price increases in fuel and gas to become a central issue over the next few months. In addition, there are still problems along international supply chains, coupled with steep increases in raw material prices, partly due to bottlenecks in the supply. The war in Ukraine has put an additional strain on many business sectors, affecting their supply chains, in particular.

In the current survey, both these and other effects have had a major negative impact on the mood in the composites industry.

The assessment index for the current general economic situation is showing a clear decline.

Compared to the last survey, the assessment of the respondents’ own business situations has dropped significantly and for the first time in eighteen months. However, this decline has been far less severe than during the onset of the Covid-19 pandemic.

Pessimistic outlook
Furthermore, there has been a substantial decline in expectations for the future market development. The key figures for the general economic situation have been declining sharply and have reached an all-time low since the beginning of the survey. The respondents are also less optimistic about future expectations for their own companies.

However, respondents are less extreme when assessing the business situations of their own companies. Despite negative spikes, this curve is far less steep, showing that respondents are expecting less dramatic effects on their own companies than on the industry as a whole.

Subdued investment situation
Although, as expected, the investment climate has also become subdued, it should be noted that, in all, expectations are still relatively high. 70% of all respondents believe that machine investments are possible, or they are planning for it. This figure is somewhat lower than in the previous market survey, but it shows a far less dramatic development than the other factors mentioned above .

Varied expectations for application industries
We already mentioned the high level of heterogeneity of applications in the composite sector. In the survey, respondents were asked to provide assessments of market developments in various core sectors.

Their expectations clearly differ substantially from one another.

The proportion of pessimistic expectations has generally been rising for all application industries. While these expectations are almost entirely within a single-digit range, there has been a clear rise in the proportion of those expecting a deterioration of the market in the various application industries. Similar to the last surveys, major drops are expected above all for the automotive, aviation and mechanical engineering sectors. For the first time, however, we can now also see rather negative expectations on the infrastructure and building sector. Yet this is a segment which often reacts quite slowly to temporary economic fluctuations and has so far shown itself to be relatively resilient towards the above-mentioned crises. It remains to be seen whether such forebodings will come true, or whether the construction industry will continue to hold its own in the face of the current negative forces.

Growth drivers remain stable
Geographically, the survey shows that the most important growth stimuli for the composites segment are expected to come from Germany, Europe and Asia.

Where materials are concerned, we are seeing a continuation of the ongoing paradigm shift. Whereas, in the first 13 surveys, respondents always mentioned CRP as the material with the most important growth drivers in its environment, the most important stimuli are now being expected to come consistently either from GRP or from all materials.

Composites Index continues to decline
The industry is currently going through an extremely tense and difficult period, characterised by rising costs, supply chain issues, lack of availability of certain semifinished products and raw materials, increasing political instability and very pessimistic expectations for the future. All the relevant indicators of the current composites survey are pointing downwards at the moment. After some slight recovery over the last 18 months, the Composite Index has therefore clearly been weakening this time and has been dropping to new low points, especially concerning future expectations.

Industry in general, but particularly also Germany’s composite industry, has always shown itself to be very resilient towards crises and has often cushioned negative developments quickly. The total production volume for composites in Europe last year already reached its pre-crisis level of 2019. Germany continues to be the most important manufacturing country in Europe, with a market share of nearly 20%. Hopefully, the slowdown in the coming months will be less severe than expected and the composites industry will remain on an upward trajectory. We will continue to be optimistic, as composites are highly diverse and therefore a key material of the future.

The next Composites Market Survey will be published in January 2023.

Source:

Composites Germany

Photo: Pixabay
19.07.2022

The future of fashion: Revolution between fast and slow fashion

The fashion industry is massively influenced by the change in social values. Which trends can be observed and in which direction is the fashion future developing - an excerpt from the Retail Report 20231 by Theresa Schleicher.

The fashion industry is massively influenced by the change in social values. Which trends can be observed and in which direction is the fashion future developing - an excerpt from the Retail Report 20231 by Theresa Schleicher.

The fashion industry has been slowed down by the global health pandemic and further affected by the measures taken in the wake of the Ukraine war: Fragile supply chains, increased transportation and energy costs, and rising prices are having an impact on the globalized fashion industry. Those who were moving the fastest are being hit the hardest. Fast fashion based on the principle of "faster and faster, cheaper and cheaper, more and more" - which has been in the fast lane for years - is now experiencing an unprecedented crash. Even without these momentous events, the fashion system would have reached its limits. What could have developed evolutionarily is now being revolutionized. Now and in the future, it will be particularly difficult for brands and retail companies that do not have a sharp profile or that have lost many customers in the attempt to offer mass-produced goods at prices that are still lower than those of their competitors.

New value paradigm in society - also for fashion
While fashion retailers and fashion brands are focusing on expanding online and have been putting their foot on the gas pedal since the corona pandemic at the latest, a parallel change in values is taking place in society. Many behaviors that have been practiced, tested and lived for months will continue to shape our consumer behavior and lifestyles in the future. The uncertainty in society as well as a shrinking economy and rising consumer prices as a result of the Ukraine war will further contribute to this shift in values.

The old paradigm was "primarily shaped by pragmatic factors such as price, quantity, safety and convenience, so consumer behavior was predominantly based on relatively simple cost-benefit calculations." The new value paradigm, on the other hand, is more strongly influenced by "soft factors". For example, the quality of a product is defined more holistically. In addition to price, "ecological, [...] ethical and social aspects are also taken into account. It is about positive or negative experiences that one has had with producers and about the visions that they pursue with their companies". This new value paradigm is forcing the large chain stores in particular to rethink. They have to develop their business models further in the direction of sustainability, transparency and responsibility - and show attitude. The influence of the neo-ecology megatrend combined with the push towards the sense economy is reshuffling the cards in the fashion industry.

The most important driver for the change in consumer behavior is climate protection, which is also becoming personally more important to more and more people because they are feeling the effects of climate change themselves in their everyday lives. The transition to a sustainable, bio-based and circular economy is accompanied by fundamental changes in the technical, economic and social environment.

Circular fashion as an opportunity for fast fashion
The development of the fashion industry - especially the fast fashion industry - towards a more circular economy is not a short-term trend, but one of the most long-term and at the same time forward-looking trends in retailing of all.

Even before the pandemic, a growing proportion of consumers placed value on sustainably produced clothing instead of constantly shopping the latest trends. A reset is needed, but the fashion industry faces a difficult question: How can it respond to the demand for new trends without neglecting its responsibility for the environment?

The solution for reducing emissions and conserving raw materials and resources seems obvious: produce less. On average, 2,700 liters of water are needed to produce a T-shirt - that much drinking water would last a person for two and a half years. In Europe, each person buys an average of 26 kilograms of textiles per year - and disposes eleven kilograms. Of this, almost 90 percent is incinerated or ends up in landfills. Overproduction, precarious working conditions during production and the use of non-sustainable materials are the major problems of the fast fashion industry. It is time to slow down fast fashion.

Fashion recycling by Design & Recycling as a Service
A first step towards keeping fashion and textiles in the cycle for longer is to recycle materials properly. In the future, recycling must be considered as early as the design stage - not only for sustainably produced fashion, but also for fast fashion. The H&M Group, for example, developed the Circulator for this purpose: The digital evaluation tool guides the designer through materials, components and design strategies that are best suited for the product depending on its purpose, and evaluates them in terms of their environmental impact, durability and recyclability.

However, more and more young companies are specializing in offering recycling for textiles as a service. They work directly with fashion retailers or fashion brands to enable the best possible recycling, re-circulation or even upcycling. Until now, it has not been worthwhile for large textile companies to invest in their own recycling systems. But Recycling as a Service is a market of the future, led by innovative start-ups such as Resortecs that are tackling previous hurdles in our recycling system. In the future, more and more new service providers will pop up around returns and recycling and help fashion retailers to align their material cycles more sustainably.

Secondhand conquers the fast fashion market
Another way to extend the life of clothing is to pass it on to new users. We are witnessing the triumph of vintage, retro and more - chic secondhand stores and chains like Resales and Humana are popping up everywhere. The renaming of secondhand to pre-owned or pre-loved also illustrates the increased appreciation of worn clothing. The trend toward secondhand also pays off economically for companies: The number of platforms whose business model revolves around the resale of clothing is increasing, and secondhand fashion is arriving in the middle of society. The luxury segment and especially vintage fashion are stable in price because the availability of these unique pieces is limited. Fast fashion, on the other hand, is available in sufficient quantities and is particularly interesting for price-sensitive customers, as secondhand is considered one of the most sustainable forms of consumption - meaning that fashion can be shopped with a clear conscience - and is usually even offered at a lower price than new goods. The second-hand market will continue to professionalize and become more socially acceptable. As a result, the fast fashion industry will also be forced to produce higher quality clothing in order to become or remain part of the circular system.

Slow fashion gains momentum thanks to technology
The development and orientation of fast fashion towards circular processes is also changing sustainable fashion. In the future, fast fashion and slow fashion can learn from each other to fully exploit their potential: fast fashion will become more sustainable, while slow fashion will focus on faster availability and delivery and make the customer experience as pleasant as possible. Fast and slow fashion are no longer compelling opposites - because the sustainable fashion movement can also benefit from technological innovations that are being established above all by the fashion platforms, and lift slow fashion to a new level.

At the same time, Sustainable Luxury is a new form of luxury consumption - especially in the field of designer fashion, sustainability is becoming the all-important criterion. Sustainability as a means of distinction for true luxury and sustainability as a basic prerequisite for a functioning fashion industry are increasingly converging. This is where the transition between a slowdown of fast fashion and an acceleration of slow fashion takes place.

Trend Sustainable Luxury
Luxury is defined less and less by the object and its possession and is increasingly becoming an expression of one's own lifestyle and values. Consumers' understanding of premium and luxury has changed - not least driven by the neo-ecology megatrend. In the future, it will no longer be just about owning something as expensive and ostentatious as possible. What began as a rebellion against careless consumption of luxury brands that promise high-end products but accept unfair and environmentally damaging manufacturing conditions in the process has increasingly become accepted as a value attitude. Luxury products have no less a claim than to improve the world.

Sustainable and ethical products and services made from innovative materials that have the power to solve problems and make the world a better place. At the same time, this highly ethically and morally charged form of sustainability is turning into a means of distinction: For the materials are so new, the manufacturing processes still so experimental, that the products are unique and often only available in very small quantities or on order. And this exclusive sustainability naturally comes at a price. After all, a company that pursues a mission is not concerned with simply cutting costs - certainly not at the expense of others or the environment. Instead of leather and fur, luxury fashion is now made from oranges, pineapples, hemp, cacti: there are more and more new, innovative and sustainable materials from which unique garments and accessories can be made.

Predictive, Pre-Order & Made-to-Order
Artificial intelligence and Big Data analysis can help predict fashion demand. Fast fashion leaders like Shein are characterized by agile production which is supported by AI algorithms for trend prediction fed with data from TikTok and other social media services. This could sustainably reduce overproduction and unsaleable goods in the future. As critical as Shein's practices are, the automation of processes also offers immense opportunities for a more sustainable fashion industry, as production only starts when goods are in demand.

AI support in the design process can be used to produce more sustainable fashion - and make it available more quickly. In a future of an avatar economy and in the world of virtual influencers, it may even be possible to dispense with part of the production process: Fashion will remain virtual - and thus more resource-efficient. Digital fashion will become increasingly important as the metaverse is built.

5 Key Takeaways on the Future of Fashion

  1. The current crisis in the fashion industry is an opportunity to move more in the direction of circular fashion. Above all, the new value paradigm in society, understanding quality more holistically and consuming more mindfully, is providing a push towards fairer, more ecological and more social fashion. Fast fashion and sustainability are not mutually exclusive.
  2. There are already first approaches to keep fast fashion in the cycle longer or to return it to the cycle. One important development is to consider recycling or reuse as early as the design and manufacturing process - known as recycling by design. In addition, there is a growing number of start-ups specializing in the optimized recycling of textiles and cooperating with major fashion players.
  3. Above all, the booming online trade in used fashion, often communicated as the pre-loved or pre-owned category, is making secondhand respectable for the mainstream. Such fashion, with a story and an aura of uniqueness, is also a cost-effective but more sustainable alternative to fast fashion.
  4. But slow fashion is also changing, especially due to the dominance of new technologies. Slow fashion can also benefit from processes that are currently manifesting themselves in the online fashion market, such as fast delivery or pre-order services. Slow fashion thus becomes more convenient, better and faster available. It will be easier for sustainably oriented fashion enthusiasts to consume according to their values and attitudes.
  5. The trend toward sustainable luxury continues: Sustainability as a means of distinction for a new form of luxury enables alternative manufacturing processes and innovative materials in the luxury fashion market. These are being showcased by an avant-garde and, if they prove successful, adapted by fast fashion.

1 https://onlineshop.zukunftsinstitut.de/shop/retail-report-2023/

Source:

Retail Report 2023 | Theresa Schleicher, Janine Seitz | June 2022

Photo: Pixabay
12.07.2022

Study on Click & Collect in the Fashion Industry

Study reveals need for action

How well are online and in-store businesses linked in the German fashion industry? How smoothly do omnichannel models like click & collect work? And how satisfactory is this for consumers? These questions were addressed by the Cologne-based company fulfillmenttools as part of its study "Click & Collect in the German Fashion Industry".

Study reveals need for action

How well are online and in-store businesses linked in the German fashion industry? How smoothly do omnichannel models like click & collect work? And how satisfactory is this for consumers? These questions were addressed by the Cologne-based company fulfillmenttools as part of its study "Click & Collect in the German Fashion Industry".

For the study, around 80 of the largest fashion retailers in Germany were examined in the first and second quarters of 2022. Of these, 22 companies in the sample offered Click & Collect as part of their service portfolio and could be analyzed in detail as part of test purchases. The mystery shoppers focused on how Click & Collect orders are processed via the retailers' online stores, the shopping experience when picking up the merchandise at the stores, and the handling of the returns process. The result: there is a clear need for optimization in all steps. According to the study, none of the retailers analyzed is currently in a position to offer its customers a consistent and convenient omnichannel experience.

In the fashion industry in particular, Click & Collect allows customers to benefit from on-site service and the convenience of online shopping. Immediate fitting, simple returns and no shipping costs are just a selection of the many advantages. Last but not least, the restrictions imposed in the wake of the Corona pandemic have accelerated the spread of Click & Collect in the retail sector. But how well does it work and how is it perceived by customers? "There is currently still a lack of data in operational practice that illustrates how well Click & Collect is implemented in reality from the customer's point of view. That's why we took a closer look at the status quo of Click & Collect models in the German fashion industry," says project manager Marleen Ratert.

In the study of around 80 of the largest fashion retailers in Germany, it was initially surprising that only 22 of the 80 (27%) retailers surveyed offer Click & Collect as an option for their customers in their service portfolio.

In analyzing and evaluating the companies that offer Click & Collect, the focus was on the entire journey of a customer order: ordering process, communication, pickup, returns processing and refunding.

According to the study's authors, a positive aspect is that the ordering process in the online store runs smoothly at most fashion retailers. However, customer communication before, during and after the click & collect order process was generally deficient. Missing order confirmations and non-existent information about delivery time and pick-up time were particularly negative.

he German fashion retailers performed worst in the area of the collection process. In particular, long delivery times, a lack of service points at the point of sale, and forms that have to be filled out by hand are the main reasons for dissatisfaction with the pickup process. In the area of returns processing, it was primarily the lack of digitization of the process that stood out: A large proportion still work with manual forms. However, the majority of fashion retailers in Germany have no problems processing the payment afterwards.

Monolithic IT structures, different solutions for many operational areas, traditional processes, missing interfaces - the reasons for the problems with the quick and easy introduction of omnichannel processes are numerous on the part of the companies. The demands of customers, on the other hand, have risen rapidly in recent years.

The checklist for successful omnichannel retailers provides tips and tricks for optimizing online and offline business in a process- and customer-oriented manner:

SIMPLIFY ONLINE ORDERS

  • Prominently feature Click & Collect as a service in the online store in order to draw customers' attention to it more quickly and fully exploit sales potentials
  • Improve availability of Click & Collect products

CREATE SEAMLESS IN-STORE EXPERIENCES

  • Install service points for picking up orders and clearly mark them as such to avoid waiting times at the checkout and provide customers with better orientation
  • Make store staff aware of upselling and cross-selling opportunities to encourage additional purchases

OPTIMIZE PROCESSES

  • Pick online orders in the store to significantly speed up delivery times and easily meet delivery promises
  • Digitize handover and return processes to make store operations more efficient and reduce the workload on staff
  • Regularly test omnichannel processes to identify gaps in communication and potential for optimization

IMPROVE SERVICE QUALITY

  • Implement end-to-end communication throughout the process to keep customers informed about the status of their order at all times
  • Offer various return options to best meet customer expectations

Modular software-as-a-service solutions for fulfillment processes are available to simplify complex processes for retailers, reduce the workload of employees and prevent errors in order picking. The entire study (in German) is available for download here.

Source:

fulfillmenttools.com / REWE digital

Photo: pixabay
03.05.2022

The Journey to Carbon Neutrality: Reduction technologies and measuring tools

More and more sports and fashion brands are setting themselves the goal of becoming climate neutral within the next few years, on a corporate as well as product level. The CO2 balance serves as the gateway to sustainable apparel and for more transparency for the consumer.

This process begins with the materials supplied by textile producers, requiring knowledge of the amount of CO2 emitted during production. By evaluating and quantifying CO2 emissions, the industry gains in transparency and can turn to more sustainable options.

More and more sports and fashion brands are setting themselves the goal of becoming climate neutral within the next few years, on a corporate as well as product level. The CO2 balance serves as the gateway to sustainable apparel and for more transparency for the consumer.

This process begins with the materials supplied by textile producers, requiring knowledge of the amount of CO2 emitted during production. By evaluating and quantifying CO2 emissions, the industry gains in transparency and can turn to more sustainable options.

In close collaboration with sustainability insights platform Higg and partners such as Climate Partner, PERFORMANCE DAYS Munich and Functional Fabric Fair by PERFORMANCE DAYS Portland seek targeted answers to the question, “How can we cut down on CO2 emissions?” as part of its roadmap over the next three fairs. The Focus Topic “The Journey to Carbon Neutrality” will therefore highlight materials and fibers that provide solutions on how to produce and reprocess materials in the future in a climate-friendly manner, kicking off at the spring trade fair, to be held at the Oregon Convention Center in Portland on April 4-5, 2022, at the Munich’s Exhibition Center on April 27-28, 2022, continuing through the winter fair in October/November and culminating at the Spring 2023 fair.

When the conversation turns to environmental protection and climate change these days, the term CO2 neutrality is also often mentioned in connection with CO2 emissions and CO2 reduction. Yet what exactly does CO2 neutrality mean? Climate neutrality implies achieving a balance between carbon emissions themselves and the absorption of carbon in the atmosphere into carbon sinks. To achieve net zero emissions, all greenhouse gas emissions worldwide must be offset by carbon sequestration. The fashion and sportswear industries are among the world’s highest emitters of CO2.

If one wishes to examine their emissions across all stages of the value chain, it is worth looking beyond raw materials, production, logistics and trade. Consumer behavior can also influence emissions: According to the “Fashion on Climate” report published by the Global Fashion Agenda and McKinsey at the end of August 2020, even greater leverage lies in the products themselves: 61 percent of reductions in emissions could be achieved through CO2 reductions in material production and processing, by minimizing production and manufacturing waste, and in the manufacturing of garments. By 2030, that would account for around 1 billion tons annually. And last but not least, consumer behavior is also a factor that impacts the fashion industry’s climate footprint. If even more attention is paid to sustainable clothing, and if it is reused and worn longer, this can lead to a reduction in emissions of up to 347 million tons, according to the report.

A pioneering example on the road to sustainability was PERFORMANCE DAYS’ decision to only present sustainable materials at the PERFORMANCE FORUM from the trade fair event in November 2019 onwards. And from the upcoming Spring Fair onwards, the sustainable approach will be heightened further. Within the framework of this roadmap, the new Focus Topic is intended to accompany exhibitors on their way to climate neutrality over the course of three fairs. In doing so, PERFORMANCE DAYS and Functional Fabric Fair are pursuing a 3-step plan.  

  • Step 1, April 2022: The focus of the upcoming fair will be on CO2-reducing technologies and the measuring of a product’s carbon footprint.
  • Step 2, November 2022: Within the entire Focus Topic product category, only products that indicate CO2 emissions caused during production will be shown. This contributes to more transparency and comparability in the industry.
  • Step 3, April 2023: The PERFORMANCE FORUM will present the amount of CO2 emitted by each individual product. Furthermore, approaches to solutions will be shown as to how CO2 released during the manufacturing of materials can be offset and further reduced.

For the best possible implementation and presentation of the new Focus Topic, PERFORMANCE DAYS and Functional Fabric Fair trust in collaborators: Higg and Climate Partner – amongst others – will accompany the next three fairs. The Higg Materials Sustainability Index (Higg MSI) is considered the leading tool for assessing the environmental impact of materials in the apparel, footwear and textile industries. The Higg MSI is able to calculate the environmental impact of millions of possible material manufacturing variants. A packaging library has also been added to assist in making sustainable decisions for packaging. The Higg Index is neither a certificate nor a label, but rather an important self-assessment tool that textile companies can utilize internally to be able to identify and improve environmental and social issues throughout their value chain.

Climate Partner, on the other hand, seeks solutions for climate protection: This involves the balancing of CO2 emissions – which in turn are to offset the emissions of companies with recognized climate protection projects in order to make products, services and companies climate neutral. Climate Partner also sees itself as an advisor to companies on their climate protection strategies. Together, the aim is to work on reducing CO2 emissions and to support climate protection projects that benefit the everyday lives of people in developing countries. 

Source:

PERFORMANCE DAYS

(c) Empa
05.04.2022

In the heat of the wound: Smart bandage

A bandage that releases medication as soon as an infection starts in a wound could treat injuries more efficiently. Empa researchers are currently working on polymer fibers that soften as soon as the environment heats up due to an infection, thereby releasing antimicrobial drugs.

It is not possible to tell from the outside whether a wound will heal without problems under the dressing or whether bacteria will penetrate the injured tissue and ignite an inflammation. To be on the safe side, disinfectant ointments or antibiotics are applied to the wound before the dressing is applied. However, these preventive measures are not necessary in every case. Thus, medications are wasted and wounds are over-treated.

A bandage that releases medication as soon as an infection starts in a wound could treat injuries more efficiently. Empa researchers are currently working on polymer fibers that soften as soon as the environment heats up due to an infection, thereby releasing antimicrobial drugs.

It is not possible to tell from the outside whether a wound will heal without problems under the dressing or whether bacteria will penetrate the injured tissue and ignite an inflammation. To be on the safe side, disinfectant ointments or antibiotics are applied to the wound before the dressing is applied. However, these preventive measures are not necessary in every case. Thus, medications are wasted and wounds are over-treated.

Even worse, the wasteful use of antibiotics promotes the emergence of multi-resistant germs, which are an immense problem in global healthcare. Empa researchers at the two Empa laboratories Biointerfaces and Biomimetic Membranes and Textiles in St. Gallen want to change this. They are developing a dressing that autonomously administers antibacterial drugs only when they are really needed.

The idea of the interdisciplinary team led by Qun Ren and Fei Pan: The dressing should be "loaded" with drugs and react to environmental stimuli. "In this way, wounds could be treated as needed at exactly the right moment," explains Fei Pan. As an environmental stimulus, the team chose a well-known effect: the rise in temperature in an infected, inflamed wound.

Now the team had to design a material that would react appropriately to this increase in temperature. For this purpose, a skin-compatible polymer composite was developed made of several components: acrylic glass (polymethyl methacrylate, or PMMA), which is used, for example, for eyeglass lenses and in the textile industry, and Eudragit, a biocompatible polymer mixture that is used, for example, to coat pills. Electrospinning was used to process the polymer mixture into a fine membrane of nanofibers. Finally, octenidine was encapsulated in the nanofibers as a medically active component. Octenidine is a disinfectant that acts quickly against bacteria, fungi and some viruses. In healthcare, it can be used on the skin, on mucous membranes and for wound disinfection.

Signs of inflammation as triggers
As early as in the ancient world, the Greek physician Galen described the signs of inflammation. The five Latin terms are still valid today: dolor (pain), calor (heat), rubor (redness), tumor (swelling) and functio laesa (impaired function) stand for the classic indications of inflammation. In an infected skin wound, local warmth can be as high as five degrees. This temperature difference can be used as a trigger: Suitable materials change their consistency in this range and can release therapeutic substances.

Shattering glove
"In order for the membrane to act as a "smart bandage" and actually release the disinfectant when the wound heats up due to an infection, we put together the polymer mixture of PMMA and Eudragit in such a way that we could adjust the glass transition temperature accordingly," says Fei Pan. This is the temperature, at which a polymer changes from a solid consistency to a rubbery, toughened state. Figuratively, the effect is often described in reverse: If you put a rubber glove in liquid nitrogen at –196 degrees, it changes its consistency and becomes so hard that you can shatter it like glass with one blow.

The desired glass transition temperature of the polymer membrane, on the other hand, was in the range of 37 degrees. When inflammation kicks in and the skin heats up above its normal temperature of 32 to 34 degrees, the polymer changes from its solid to a softer state. In laboratory experiments, the team observed the disinfectant being released from the polymer at 37 degrees – but not at 32 degrees. Another advantage: The process is reversible and can be repeated up to five times, as the process always "switches itself off" when it cools down. Following these promising initial tests, the Empa researchers now want to fine-tune the effect. Instead of a temperature range of four to five degrees, the smart bandage should already switch on and off at smaller temperature differences.

Smart and unsparing
To investigate the efficacy of the nanofiber membranes against wound germs, further laboratory experiments are now in the pipeline. Team leader Qun Ren has long been concerned with germs that nestle in the interface between surfaces and the environment, such as on a skin wound. "In this biological setting, a kind of no man's land between the body and the dressing material, bacteria find a perfect biological niche," says the Empa researcher. Infectious agents such as staphylococci or Pseudomonas bacteria can cause severe wound healing disorders. It was precisely these wound germs that the team allowed to become acquainted with the smart dressing in the Petri dish. And indeed: The number of bacteria was reduced roughly 1000-fold when octenidine was released from the smart dressing. "With octenidine, we have achieved a proof of principle for controlled drug release by an external stimulus," said Qun Ren. In future, she said, the technology could be applied to other types of drugs, increasing the efficiency and precision in their dosage.

The smart dressing
Empa researchers are working in interdisciplinary teams on various approaches to improve medical wound treatment. For example, liquid sensors on the outside of the dressing are to make it visible when a wound is healing poorly by changing their color. Critical glucose and pH values serve as biomarkers.

To enable bacterial infections to be contained directly in the wound, the researchers are also working on a polymer foam loaded with anti-inflammatory substances and on a skin-friendly membrane made of plant material. The cellulose membrane is equipped with antimicrobial protein elements and kills bacteria extremely efficiently in laboratory tests.

Moreover, digitalization can achieve more economical and efficient dosages in wound care: Empa researchers are developing digital twins of the skin that allow control and prediction of the course of a therapy using real-time modeling.

Further information:
Prof. Dr. Katharina
Maniura Biointerfaces
Phone +41 58 765 74 47
Katharina.Maniura@empa.ch

Prof. Dr. René Rossi
Biomimetic Membranes and Textiles
Phone +41 58 765 77 65
Rene.rossi@empa.ch

Source:

EMPA, Andrea Six

Foto: Lalit Kumar, Unsplash
29.03.2022

The man-made fibers industry at the turning point of time

"You don't tear down a house before the new one is ready for occupancy."

Textination talked to the Managing Director of the Industrievereinigung Chemiefaser e.V., Dr. Wilhelm Rauch, about his assessment of the turning point that the man-made fibers industry is currently facing. What are the risks and threats, and what needs to change in order to remain a competitive player on the global market.

"You don't tear down a house before the new one is ready for occupancy."

Textination talked to the Managing Director of the Industrievereinigung Chemiefaser e.V., Dr. Wilhelm Rauch, about his assessment of the turning point that the man-made fibers industry is currently facing. What are the risks and threats, and what needs to change in order to remain a competitive player on the global market.

US President Joe Biden has called his Russian counterpart Vladimir Putin a war criminal in connection with the invasion of Ukraine. The United Nations' highest court, the International Court of Justice in The Hague, has ordered Russia to immediately end its war against Ukraine. How do you personally assess Russia's behavior?
Dr. Rauch:
With family roots in the Rhineland, Central and East Germany, I grew up at a time when, as a result of the division of Europe, families were separated and people were ruthlessly shot in the middle of Germany who wanted to cross the inner-German demarcation line towards the West. Since 1989, the fall of the Iron Curtain has led us into a period that lasted more than 30 years and allowed us, at least in Europe, to experience an era of peaceful coexistence between the great power blocs, intensive trade relations and prosperous states.

It is more than shocking to see today how Russia is trying to turn back the wheel of history in Europe with a brutality that the youngest generation growing up in Europe has fortunately not had to experience so far, and it brings back the worst memories of the Cold War, which everyone hoped would never return. If today in Ukraine even facilities for the peaceful use of nuclear energy are fired upon, a dimension has been reached that one does not want to extrapolate any further. In addition to the unspeakable human suffering caused, which we can only begin to alleviate by accepting Ukrainian refugees, in the long term all trust in political promises is being gambled away, which, however, is essential both for peaceful coexistence and for economic cooperation. We are facing a reordering of the world in which supply relationships and dependencies with or on autocratic states must be evaluated much more sensitively for each individual case.

The economic consequences of the Russia-Ukraine conflict are becoming increasingly clear. The Association of German Chambers of Commerce and Industry (DIHK) is correcting its forecast for 2022, but does not yet see a recession. What are your expectations for the industry in the current fiscal year?
Dr. Rauch:
The man-made fibers industry has been severely affected by the SARS-CoV-2 pandemic in the last two years. Planned investments were first postponed and then finally abandoned. By the end of 2022, three man-made fibers producers will close their doors in Germany compared to 2019. The industry started the current year on a very hopeful note, although previous issues such as REACH and, above all, energy costs were already increasing in severity before the Russia-Ukraine war. The economic consequences of the war will have a negative impact both directly in the form of increased energy prices and indirectly through changes in international competitive conditions.

What do the war in Ukraine and the economic sanctions against Russia entail for the upstream supply chains of the manmade fiber industry?
Dr. Rauch:
The immediate upstream supply chains will not be affected much by this war at first. However, we must expect supply chains in other industries to be disrupted. If, for example, certain raw materials or products are no longer available, this can have a noticeable impact, starting with logistics (mobility) and extending to components in production technology facilities. An example of this is the availability of cable harnesses, which were previously produced in Ukraine and are indispensable in many electronic components for man-made fibers production.

What is the relevance of Ukraine and Russia as sales markets for IVC member companies?
Dr. Rauch:
If we take the last year before the outbreak of the SARS-CoV-2 pandemic as the reference year, exports to Ukraine and the Russian Federation account for around 1.6% of total exports of man-made fibers from Germany. On average, a loss of sales to these countries can be tolerated, although it should not be forgotten that in individual cases - depending on a company's product portfolio - the impact can be quite significant. Looking beyond the horizon, it is not only the direct exports of man-made fibers to the war region that are of significance, but also deliveries of products in which man-made fibers are processed. Here, there are now interrupted supply relationships that result in order losses for the man-made fibers industry.

Certain industries are particularly affected by the consequences - what does this mean for the man-made fibers sector as a supplier industry?
Dr. Rauch:
Wherever production is cut back along the downstream value chain in which man-made fibers were used, the effects will be noticeable with a temporal delay. This applies, for example, to deliveries to the automotive sector, where the production of new vehicles comes to a standstill due to a lack of components originating from Ukraine.

How are exploding energy prices and the gas embargo affecting man-made fibers producers in the DACH region?
Dr. Rauch:
Even before the Russia-Ukraine war, European energy costs were already at a level that hit our members hard. For example, European gas costs currently rose by ten times from approx. 12 EUR/MWh to approx. 120 EUR/MWh as a result of the war, while in the USA they "only" rose by two and a half times from approx. 8 EUR/MWh to approx. 18 EUR/MWh. The situation is similar for electricity prices in Germany in particular, which have also risen by a factor of 10 from an already high level. Further price increases in Europe cannot be ruled out, but are more likely. Against this background, moderate adjustments in man-made fibers prices are only a drop in the bucket. A market development with virtually exploding energy costs cannot be reliably depicted by any company, nor can it be priced in such a way as to cover costs.

As the industry association of the man-made fibers industry, what do you think of "Freeze for Peace" or a stop to all Russian gas and raw material imports?
Dr. Rauch:
In Germany in particular, we have deliberately made ourselves dependent on Russian gas, contrary to all international warnings, by defining it as necessary for the bridge technology of electricity generation that we will need after the shutdown of coal- and nuclear-based power plants, before the availability of a sufficient amount of so-called "green" energy is assured. Gas is also needed for heating purposes and as a raw material, so it takes on the function of an all-rounder.

A boycott-related import stop would not only have serious negative consequences for the man-made fibers sector, but for the entire German industry and the majority of private households. As I mentioned at the beginning, it is the order of the day to help alleviate human suffering by taking in Ukrainian refugees. But this is not the end of the crisis. It must be assumed that the war situation will not be resolved in the near future. However, in order to cope with a protracted crisis situation, our economic strength must be maintained in order to be able to cope with the challenges ahead. An import freeze would be counterproductive in this respect. Since, due to the latest developments, gas deliveries are now to be paid for in rubles, there is rather a risk that Russia, for its part, will stop gas deliveries. In their effect, the two scenarios do not differ. The only thing that is certain is the fact that the availability of Russian gas to Europe is no longer guaranteed. Ultimately, the Russian demand to switch payments to rubles, which is not only aimed at revaluing the ruble, makes it clear that Russia is not dependent on Europe as a buyer of its gas. This would mean that a "freeze for peace" would lead to nothing. In the Far East, there is already a potential buyer of Russian gas to obtain it cheaply and safely, and which is also a major competitor of the European chemical fiber industry: China.

Are agreements with the United Arab Emirates and Qatar a good substitute solution for gas and oil supplies from Russia?
Dr. Rauch:
It is not a question of evaluating a measure in the sense of good or bad, but of whether it appears suitable in this particular situation to reduce unilateral dependencies on an aggressor before sustainable solutions are available in sufficient quantity. In this respect, there should initially be no ideological barriers in the measures to be examined for feasibility. The agreements concluded with the United Arab Emirates and Qatar after certainly careful political scrutiny are individual decisions and represent only one piece in the mosaic among many.

Does the saying "First we had bad luck, then we were not lucky at all" apply to the current economic performance of the industry - or: how do you assess the influence of the Corona pandemic and the war situation in this respect?
Dr. Rauch:
Both the SARS-CoV-2 pandemic and the Russia-Ukraine war are events with a global character. While the first event affected all countries equally sooner or later, the impact of the Russia-Ukraine war must be assessed in a more differentiated manner. The consequences of the war primarily affect companies in Europe, and there in particular those countries which - as mentioned above - have placed themselves in unilateral dependencies like Germany. This does not apply to the man-made fibers industry in particular. Although there are many fellow sufferers in other industries, this does not improve the situation, of course.

What does the industry expect from the political leaders in Berlin and Brussels in the future?
Dr. Rauch:
The wish list can be fixed to a few core elements:
In the long term, we need a supply of energy and raw materials that is not based on the dependence of a few autocratic states. On the way there, against the backdrop of the Russia-Ukraine war, previous exit scenarios from coal and nuclear energy must be reconsidered without prejudice with regard to their timeline. Or to put it more concisely: You don't tear down a house before the new one is ready for occupancy.

But energies from renewable raw materials must also be offered at prices that allow global competitiveness. According to a study by DECHEMA and FutureCamp, the chemical industry has calculated a price of 4 ct/kWh (including all taxes and fees). We are miles away from this today.

The revision of REACH must not lead to further bureaucracy and requirements that tie up capacity in companies. What we need in Europe is not dotting the i on Maslow's hierarchy of needs, but to ensure that we do not slide down the levels step by step and that the i dot floats in the air without an "i".

European economic policy must focus on the international competitiveness of European industry. It is not sufficient to consider and regulate the European Union only from the point of view of the internal market. The planned carbon border mechanism is such an example. It is intended to impose customs duties on imports that carry a high CO2 burden. This may protect the domestic market, but it does nothing at all to help export-oriented European industry such as the man-made fibers sector on the international world market, because European production costs remain too high by global standards despite the carbon border taxes.

The European Commission must increasingly recognize the European industry and with it the man-made fibers industry as problem solvers. Man-made fibers are indispensable as products for the energy turnaround (rotor blades for wind turbines), lightweight construction in mobility (lightweight car bodies in composite systems), sustainable road construction (geotextiles to reinforce the road surface and increase its service life), reduction of steel-reinforced concrete and thus cement, sand and gravel (reinforcement with high-tensile man-made fibers) and medical products (medical masks, bandaging materials, stents).

In Europe, we again need more market economy and no small-scale regulations that are adapted again and again and proliferate into an impenetrable thicket.

With all the wishes to politicians mentioned above, let me finally mention the following with regard to the current situation: In 1961, after the Berlin Wall was built, Russian and American tanks faced each other at Checkpoint Charlie at a distance of less than 50 meters, ready to fire.

A year later, in October 1962, nuclear-equipped American and Russian naval units met head-on in the Cuban Missile Crisis. Both John F. Kennedy and Nikita S. Khrushchev - bitter rivals in the contest of political systems - were sensible enough at the time not to let the situation escalate.

At present, I wish our national, European and transatlantic politicians’ unconditional determination in the defense of our free democratic values, but I also appeal to all politicians worldwide to take to heart one of Albert Einstein's fundamental perceptions: "I don't know what weapons will be used in the Third World War. But I can tell you what they'll use in the Fourth - rocks!"

Source:

Textination

The Interview was conducted by Ines Chucholowius, CEO Textination GmbH

Photo: Rostyslav Savchyn, Unsplash
22.03.2022

Again more Chinese company takeovers in Europe

  • Increase from 132 to 155 transactions - transaction value increases eightfold to 12.4 billion US dollars
  • Number of Chinese acquisitions in Germany rises from 28 to 35
  • UK most popular investment destination for Chinese companies followed by Germany

After the pandemic-related decline in Chinese company acquisitions in Europe in 2020, the number of transactions increased again in 2021: from 132 to 155. The transaction volume also increased: The value of investments and acquisitions has increased more than eightfold from $1.5 billion to $12.4 billion.

  • Increase from 132 to 155 transactions - transaction value increases eightfold to 12.4 billion US dollars
  • Number of Chinese acquisitions in Germany rises from 28 to 35
  • UK most popular investment destination for Chinese companies followed by Germany

After the pandemic-related decline in Chinese company acquisitions in Europe in 2020, the number of transactions increased again in 2021: from 132 to 155. The transaction volume also increased: The value of investments and acquisitions has increased more than eightfold from $1.5 billion to $12.4 billion.

Chinese investors also appeared more frequently again in Germany: After only 28 transactions by Chinese companies were counted in 2020, there were 35 of such investments or acquisitions in 2021. The investment volume rose from USD 0.4 billion to USD 2.0 billion. This figure does not include venture capital investments in German startups totaling USD 1.9 billion in 2021, in which Chinese companies were active as part of international investor groups.

These are the findings of a study by the audit and consulting firm EY, which examines investments by Chinese companies in Germany and Europe.

"Chinese companies remain cautious about investing in Europe overall," observes Yi Sun, partner and head of China Business Services in the Europe West region at EY. "One contributing factor is still the pandemic, which continued to cause disruptions in 2021 - partly because of mitigation measures such as travel restrictions, strict quarantine rules for people traveling to China from abroad, and lockdowns both in Europe and in China itself. Most Chinese companies that have already acquired companies abroad have been more concerned with restructuring in Europe in recent years rather than expanding further - especially in the automotive supply and machinery sectors."

According to Sun, the now high hurdles for foreign investments, especially in certain critical industries, as well as increasing competition from financial investors with strong capital, also had a dampening effect. "Purchase prices on the M&A market have risen sharply recently - in some cases, the Chinese interested parties didn't want to go along with that. Listed Chinese companies in particular fear putting pressure on their own share price with expensive acquisitions," Sun said. "In addition, some of the potential takeover candidates own production facilities or R&D centers in the US. In such cases, they may fear rejection by the Committee on Foreign Investment in the U.S. (CFIUS) - and potential Chinese bidders may not even be invited."

Declining interest in industrial companies
Traditional industrial companies continue to account for the majority of deals - especially in Germany: 12 of the 35 transactions in Germany and 30 of the 155 transactions in Europe took place in the industrial sector.

However, their number is declining: In 2020, 36 industrial transactions were counted across Europe. "Chinese investors are still interested in European automotive suppliers or mechanical engineering companies - but now more in the subsectors of electromobility, autonomous driving and high-tech materials," says Sun.

However, Yi Sun identifies a significant increase in interest elsewhere: "Chinese private equity funds and venture capitalists are becoming increasingly active. In Germany in particular, there were some very large investments in startups last year in which Chinese investors were significantly involved. In addition to German engineering skills, e-commerce expertise is increasingly in demand."

High tech/software companies accounted for 27 transactions across Europe last year (previous year: 20). "We see an increased interest in game developers and software programmers, for example. Especially the most active Chinese investor last year, Tencent, has recently become heavily involved in this segment," observes Sun.

The number of acquisitions and investments in the healthcare sector also increased: from 16 to 26 transactions. "The healthcare sector - whether pharma, biotech or medical technology - is increasingly becoming one of the most important target sectors for Chinese companies because there is a lot of pent-up demand in this sector in China, especially in research and development."

Great Britain replaces Germany as top destination in Europe
Most transactions were recorded in the UK last year. With 36 acquisitions and investments, the UK is just ahead of Germany (35 transactions) and well ahead of the third-placed Netherlands (13).

In the previous year, the order at the top was reversed: in 2020, Germany with 28 transactions was ahead of the UK with 21 deals.

"To the extent that the interest of Chinese investors is moving away from classic industrial companies toward technology, software and media companies, the target market of Great Britain is gaining in importance," says Sun. However, she is convinced that Germany remains an attractive market for Chinese investors: "Many Chinese companies have had good experiences with their investments in Germany in particular. In addition, there are now close and resilient ties between China and Germany at many levels. We will see more Chinese transactions in Germany in the coming months - especially when the impact of the pandemic on the economy subsides," Sun expects.

The largest investment in Europe last year was the sale of Philips' home appliances division to Hong Kong-based investment firm Hillhouse Capital for $4.4 billion.

The second largest transaction was Tencent's acquisition of the British developer studio Sumo Digital for US$1.1 billion, followed by China International Marine Containers' takeover of the Danish reefer container manufacturer Maersk Container Industry for also US$1.1 billion.

Study Design:

  • Sources: EY research, Thomson ONE, Merger Market, communications from the companies or consulting firms and law firms involved.
  • Acquisitions and investments originating from companies headquartered in China and Hong Kong or their subsidiaries were examined.
  • The target companies are headquartered in Europe and are operationally active.
  • Pure real estate transactions were not included.
  • The analysis also included transactions that had not yet been completed as of the reporting date of Feb. 17, 2022

Increasingly, Chinese investors are also participating in venture capital financing rounds, mostly as part of investor groups. In these cases, it is often not possible to determine the amount provided by the Chinese investor. Therefore, these transactions are included in the number of transactions but not in the total values.

Source:

Ernst & Young Global Limited (EYG)

Nicolas Meletiou, Pixabay
01.03.2022

Textiles and the environment: the role of design in Europe’s circular economy

From the perspective of European consumption, textiles have on average the fourth highest negative life cycle impact on the environment and climate change, after food, housing and mobility. A shift to a circular textile production and consumption system with longer use, and more reuse and recycling could reduce those impacts along with reductions in overall consumption. One important measure is circular design of textiles to improve product durability, repairability and recyclability and to ensure the uptake of secondary raw materials in new products.

Key messages

From the perspective of European consumption, textiles have on average the fourth highest negative life cycle impact on the environment and climate change, after food, housing and mobility. A shift to a circular textile production and consumption system with longer use, and more reuse and recycling could reduce those impacts along with reductions in overall consumption. One important measure is circular design of textiles to improve product durability, repairability and recyclability and to ensure the uptake of secondary raw materials in new products.

Key messages

  • In 2019, the EU textile and clothing sector had a turnover of EUR162 billion, employing over 1.5 million people across 160,000 companies. As was the case in many sectors, between 2019 and 2020, the COVID-19 crisis decreased turnover by 9% for textiles as a whole and by 17% for clothing.
  • In 2020, textile consumption in Europe had on average the fourth highest impact on the environment and climate change from a global life cycle perspective. It was the consumption area with the third highest impact on water and land use, and the fifth highest in terms of raw material use and greenhouse gas emissions.
  • To reduce the environmental impacts of textiles, a shift towards circular business models, including circular design, is crucial. This will need technical, social and business model innovation, as well as behavioural change and policy support.
  • Circular design is an important enabler of the transition towards sustainable production and consumption of textiles through circular business models. The design phase plays a critical role in each of the four pathways to achieving a circular textile sector: longevity and durability; optimised resource use; collection and reuse; and recycling and material use.

Textiles are identified as a key value chain in the EU circular economy action plan and will be addressed in the forthcoming European Commission’s 2022 EU strategy for sustainable and circular textiles and EU sustainable products initiative. This briefing aims to improve our understanding of the environmental and climate impacts of textiles from a European perspective and to identify design principles and measures to increase circularity in textiles. It is underpinned by a report from the EEA’s European Topic Centre on Circular Economy and Resource Use available here.

1. Production, trade and consumption of textiles
Textiles is an important sector for the EU economy. In 2019, the EU textile and clothing sector had a turnover of EUR162 billion, employing over 1.5 million people in 160,000 companies. As was the case for many sectors, between 2019 and 2020, the COVID-19 health and economic crisis decreased turnover by 9% for textiles as a whole and by 17% for clothing (Euratex, 2021).

In 2020, 6.9 million tonnes of finished textile products were produced in the EU-27. EU production specialises in carpets, household textiles and other textiles (including non-woven textiles, technical and industrial textiles, ropes and fabrics). In addition to finished products, the EU produces intermediate products for textiles, such as fibres, yarns and fabrics (Köhler et al., 2021).

The textiles sector is labour intensive compared with others. Almost 13 million full-time equivalent workers were employed worldwide in the supply chain to produce the amount of clothing, textiles and footwear consumed in the EU-27 in 2020. This makes the textiles sector the third largest employer worldwide, after food and housing. Most production takes place in Asia, where low production costs come at the expense of workers’ health and safety.
 
Textiles are highly globalised, with Europe being a significant importer and exporter. In 2020, 8.7 million tonnes of finished textile products, with a value of EUR125 billion, were imported into the EU-27. Clothing accounts for 45% of imports in terms of volume, followed by household textiles, other textiles and footwear (Eurostat, 2021a). The EU imports mainly from China, Bangladesh and Turkey, and exports mainly to the United Kingdom, Switzerland and the United States (Euratex, 2020).

Consumption
European households consume large amounts of textile products. In 2019, as in 2018, Europeans spent on average EUR600 on clothing, EUR150 on footwear and EUR70 on household textiles (Köhler et al., 2021; Eurostat, 2021b).

The response to the COVID-19 pandemic, involving stay-at-home measures and the closure of companies and shops, decreased textile production and demand overall (Euratex, 2021). As a result, the consumption of clothing and footwear per person decreased in 2020, relative to 2019, while the consumption of household textiles slightly increased. Average textile consumption per person amounted to 6.0kg of clothing, 6.1kg of household textiles and 2.7kg of shoes in 2020 (see Figure 1).

Apart from this COVID-related drop in consumption in 2020, the estimated consumption of clothing and footwear stayed relatively constant over the last decade, with slight fluctuations between years (see Figure 2). Similarly, the consumption of household textiles was also relatively steady, with a slight increase over the decade.

When calculating the ‘estimated consumption’ based on production and trade data from 2020, and excluding industrial/technical textiles and carpets, total textile consumption is 15kg per person per year, consisting of, on average:

  • 6.0kg of clothing
  • 6.1kg of household textiles
  • 2.7kg footwear.

For 2020, this amounts to a total consumption of 6.6 million tonnes of textile products in Europe. Textile consumption estimates are uncertain, as they vary by study, often using different scopes and calculation methods.

2. Environmental and climate impacts of textiles
The production and consumption of textiles has significant impacts on the environment and climate change. Environmental impacts in the production phase result from the cultivation and production of natural fibres such as cotton, hemp and linen (e.g. use of land and water, fertilisers and pesticides) and from the production of synthetic fibres such as polyester and elastane (e.g. energy use, chemical feedstock) (ETC/WMGE, 2021b). Manufacturing textiles requires large amounts of energy and water and uses a variety of chemicals across various production processes. Distribution and retail are responsible for transport emissions and packaging waste.

During use and maintenance — washing, drying and ironing — electricity, water and detergents are used. Chemicals and microfibres are also emitted into the waste water. Meanwhile, textiles contribute to significant amounts of textile waste. At the end of their life, textiles often end up in general waste and are incinerated or landfilled. When textile waste is collected separately, textiles are sorted and reused, recycled or disposed of, depending on their quality and material composition. In 2017, it was estimated that less than 1% of all textiles worldwide are recycled into new products (Ellen MacArthur Foundation, 2017).

To illustrate the magnitude of the impacts of textile consumption on raw material use, water and land use and greenhouse gas emissions compared with other consumption categories, we have updated our calculations of the life cycle environmental and climate impacts in the EU. We used input-output modelling based on data from the Exiobase database and Eurostat. In line with the reduced textile consumption level in 2020 because of the COVID-19 pandemic, the environmental impacts decreased from 2019 to 2020.

Raw material use
Large amounts of raw materials are used for textile production. To produce all clothing, footwear and household textiles purchased by EU households in 2020, an estimated 175 million tonnes of primary raw materials were used, amounting to 391kg per person. Roughly 40% of this is attributable to clothes, 30% to household textiles and 30% to footwear. This ranks textiles as the fifth highest consumption category in Europe in terms of primary raw material use (see Figure 3).

The raw materials used include all types of materials used in producing natural and synthetic fibres, such as fossil fuels, chemicals and fertilisers. It also includes all building materials, minerals and metals used in the construction of production facilities. Transport and retail of the textile products are included as well. Only 20% of these primary raw materials are produced or extracted in Europe, with the remainder extracted outside Europe. This shows the global nature of the textiles value chain and the high dependency of European consumption on imports. This implies that 80% of environmental impacts generated by Europe’s textile consumption takes place outside Europe. For example, cotton farming, fibre production and garment construction mostly take place in Asia (ETC/WMGE, 2019).

Water use
Producing and handling textiles requires large quantities of water. Water use distinguishes between ‘blue’ water (surface water or groundwater consumed or evaporated during irrigation, industry processes or household use) and ‘green’ water (rain water stored in the soil, typically used to grow crops) (Hoekstra et al., 2012).

To produce all clothing, footwear and household textiles purchased by EU households in 2020, about 4,000 million m³ of blue water were required, amounting to 9m³ per person, ranking textiles’ water consumption in third place, after food and recreation and culture (see Figure 4).

Additionally, about 20,000 million m³ of green water was used, mainly for producing cotton, which amounts to 44m³ per person. Blue water is used fairly equally in producing clothing (40%), footwear (30%) and household and other textiles (30%). Green water is mainly consumed in producing clothing (almost 50%) and household textiles (30%), of which cotton production consumes the most.

Water consumption for textiles consumed in Europe mostly takes place outside Europe. It is estimated that producing 1kg of cotton requires about 10m³ of water, typically outside Europe (Chapagain et al., 2006).

Land use
Producing textiles, in particular natural textiles, requires large amounts of land. The land used in the supply chain of textiles purchased by European households in 2020 is estimated at 180,000 km², or 400m² per person. Only 8% of the land used is in Europe. Over 90% of the land use impact occurs outside Europe, mostly related to (cotton) fibre production in China and India (ETC/WMGE, 2019). Animal-based fibres, such as wool, also have a significant land use impact (Lehmann et al., 2018). This makes textiles the sector with the third highest impact on land use, after food and housing (see Figure 5). Of this, 43% is attributable to clothes, 35% to footwear (including leather shoes, which have a high land use impact because of the need for cattle pasture) and 23% to household and other textiles.

Greenhouse gas emissions
The production and consumption of textiles generate greenhouse gas emissions, in particular from resource extraction, production, washing and drying, and waste incineration. In 2020, producing textile products consumed in the EU generated greenhouse gas emissions of 121 million tonnes carbon dioxide equivalent (CO2e) in total, or 270kg CO2e per person. This makes textiles the household consumption domain responsible for the fifth largest impact on climate change, after housing, food, transport and mobility, and recreation and culture (see Figure 6). Of this, 50% is attributable to clothes, 30% to household and other textiles, and 20% to footwear. While greenhouse gas emissions have a global effect, almost 75% are released outside Europe, mainly in the important textile-producing regions in Asia (ETC/WMGE, 2019).

About 80% of the total climate change impact of textiles occurs in the production phase. A further 3% occurs in distribution and retail, 14% in the use phase (washing, drying and ironing), and 3% during end of life (collection, sorting, recycling, incineration and disposal) (ECOS, 2021; Östlund et al., 2020).

Textiles made from natural fibres, such as cotton, generally have the lowest climate impact. Those made from synthetic fibres (especially nylon and acrylic) generally have a higher climate impact because of their fossil fuel origin and the energy consumed during production (ETC/WMGE, 2021b; Beton et al., 2014).

3. Design as an enabler of circular business models for textiles
To reduce the environmental and climate change impacts of textiles, shifting towards circular business models is crucial to save on raw materials, energy, water and land use, emissions and waste (ETC/WMGE, 2019). Implementing and scaling circular business models requires technical, social and business model innovation; as well as enablers from policy, consumption and education (EEA, 2021).

Circular design is an important component of circular business models for textiles. It can ensure higher quality, longer lifetimes, better use of materials, and better options for reuse and recycling. While it is important to enable the recycling and reuse of materials, life-extending strategies, such as design for durability, ease of reuse, repair and remanufacturing, should be prioritised. Preventing the use of hazardous chemicals and limiting toxic emissions and release of microplastics at all life cycle stages should be incorporated into product design.

Designing for circularity is the most recent development in design for sustainability. Expanding a technical and product-centric focus to a focus on large-scale system-level changes (considering both production and consumption systems) shows that this latest development requires many more disciplines than traditional engineering design. Product design as a component of a circular business model depends on consumer behaviour and policy to realise its potential and enable implementation. Figure 7 shows the linkages between the circular business model, product design, consumer behaviour and policy. All are needed to slow down and close the loop, making it circular.

Photo: pixabay
25.01.2022

momox fashion presents Second Hand Fashion Report 2022

  • Representative study with almost 8,000 participants regarding the second hand fashion market in Germany
  • Second hand replaces new: 84 percent have bought less new goods due to second hand shopping
  • 71 percent have spent less money on new goods because they have bought second-hand clothing
  • For just under one in two (45 percent), buying second-hand clothing has become a matter of course
  • When buying second-hand fashion, sustainable production is more important (60 percent) than the brand name (48 percent)

Second hand replaces new - that's what 84 percent of second hand shoppers in Germany say, stating that buying second hand items has replaced buying a new clothing item for them.

  • Representative study with almost 8,000 participants regarding the second hand fashion market in Germany
  • Second hand replaces new: 84 percent have bought less new goods due to second hand shopping
  • 71 percent have spent less money on new goods because they have bought second-hand clothing
  • For just under one in two (45 percent), buying second-hand clothing has become a matter of course
  • When buying second-hand fashion, sustainable production is more important (60 percent) than the brand name (48 percent)

Second hand replaces new - that's what 84 percent of second hand shoppers in Germany say, stating that buying second hand items has replaced buying a new clothing item for them. Another 71 percent state that they have spent less money on clothing because they have bought used items.** These are the results of the current Second Hand Fashion Report 2022, for which the second hand online store momox fashion has conducted two studies for the third time in a row: A representative survey in cooperation with the market research institute Kantar as well as a customer survey among momox fashion customers to get detailed insights into the second hand clothing market. A total of 7,826 people took part in the surveys.

Buying second hand clothes has become a matter of course for every second person
The representative Kantar survey shows that buying second-hand clothing has become routine: 67 percent of Germans have already bought second-hand clothing at some point - an increase of eleven percent on the previous year. More than one in two (56 percent) do so regularly - at least once a year. For 45 percent, buying second-hand clothing has become a matter of course or very much a matter of course. In addition, more than half of Germans (53 percent) estimate that their closet consists of up to 20 percent second-hand clothing.*

Second hand clothing is not only shopped online, but also sold
The most popular way to buy used clothing is online shopping: 44 percent of respondents buy their second-hand fashion pieces online. Around one in three (28 percent) go to second-hand stores in search of their next favorite second-hand item, followed by flea markets with 14 percent. Surprisingly, the 50+ generation in particular likes to buy online (44 percent). Generation Z (under 25s), however, prefers second-hand stores (30 percent).*

But it is not only second-hand online shopping that is popular. Almost one in two (45 percent) resells used clothing, preferably online (76 percent). Only 11 percent sell at flea markets and 8 percent at second-hand stores.*

Sustainability remains main motivation for buying used clothing
To find out more about the reasons for buying second-hand clothing, momox fashion conducted a customer survey among almost 7,000 participants. The main motivation for buying second-hand clothing continues to be the sustainability aspect with 87 percent. 83 percent buy second-hand clothing because of the price savings compared to new goods. Around one in two (49 percent) goes in search of clothing in second-hand stores because the desired items are no longer available in regular stores.**

Almost all respondents (91 percent) generally consider sustainability and environmental protection to be important or very important when buying clothing. This is also reflected in consumer behavior: Around three quarters (85 percent) try to buy second-hand whenever possible. 58 percent make sure to purchase sustainable clothing. And 31 percent use environmentally friendly products for the care and cleaning of clothing.**

Sustainable production or brand name - which is more important?
For more than half (51 percent) of the respondents, the brand name is less important or unimportant when buying used clothing. Whether the clothing was produced sustainably, on the other hand, is considered by 60 percent to be very important or important. Especially for the 60+ generation (75 percent), sustainable production of second-hand clothing is very important or important.**

Second hand clothing is especially popular among parents
However, second-hand clothing is not only bought for oneself, almost every fifth person (18 percent) also buys it for his/her children.* Among the parents of the second-hand shoppers, 85 percent buy second-hand clothing for their children. Online stores (58 percent) and online marketplaces and second-hand online stores (51 percent) are the most popular. 43 percent buy used children's clothing from friends. 33 percent like to go shopping in second-hand stores and another 23 percent in stationary children's clothing stores. At the same time, 63 percent of respondents say they buy more second-hand clothing since becoming parents.**

Jackets and coats are second hand top sellers
Second-hand jackets and coats (70 percent) are the most popular items, followed by sweaters (60 percent), dresses and skirts (56 percent) and pants (49 percent). Pants and sweaters seem to have become more popular among second-hand shoppers compared to the previous year (previous year: 46 percent and 51 percent). Younger shoppers (18-29 year olds) prefer to buy their sweaters second hand even more than jackets and coats (80 percent).**

Sources:
* Kantar survey
** momox fashion survey
 
Method:
Kantar survey: number of cases (n=1,037), target group: 16-64 years; method: online survey in the survey period (13.-16.11.2021), conducted by Kantar Deutschland GmbH on behalf of momox AG.
 
momox fashion survey: number of cases (n=6,789), survey period (21.-26.10.2021), target group: momox fashion customers aged under 18 to over 60; method: online survey, conducted by momox AG

Download of study (in German)

Photo: Pixabay
21.12.2021

Consumption after Corona: Consumers focus on Quality and Sustainability

Study by Roland Berger and Potloc

  • Consumers expect more quality (67%) and sustainability (51%) from brands and products
  • Small retail stores are trendy and score with exclusive product range
  • Furniture, household and garden articles remain in focus

The Covid pandemic has changed the purchasing behavior. Consumers are focusing primarily on brands with high quality standards (67%) and sustainable products (51%). Even though the trend towards online shopping remains unbroken, small stores in particular can score points with exclusive product ranges. Almost a third (32%) of consumers visit these types of stores more frequently than before the crisis. These are the core findings of the "Decoding Consumer Behavior" study published in fall 2021 by Roland Berger and Potloc, for which 2,100 consumers from twelve countries were surveyed.

Study by Roland Berger and Potloc

  • Consumers expect more quality (67%) and sustainability (51%) from brands and products
  • Small retail stores are trendy and score with exclusive product range
  • Furniture, household and garden articles remain in focus

The Covid pandemic has changed the purchasing behavior. Consumers are focusing primarily on brands with high quality standards (67%) and sustainable products (51%). Even though the trend towards online shopping remains unbroken, small stores in particular can score points with exclusive product ranges. Almost a third (32%) of consumers visit these types of stores more frequently than before the crisis. These are the core findings of the "Decoding Consumer Behavior" study published in fall 2021 by Roland Berger and Potloc, for which 2,100 consumers from twelve countries were surveyed.

"Overall, consumers are much more positive about the future and, for the most part, do not want to cut back further in 2022. This is good news for retailers, who had to overcome an unprecedented cut with the pandemic," says Thorsten de Boer, Partner at Roland Berger. "However, brands and retailers should take into account that consumers have different priorities when making decisions today. They also expect a consistent online presence across platforms and devices more than ever. And when they enter a store, they are looking for an exclusive experience."

Customers focus on goods for their own homes and everyday needs
In the immediate purchasing decision, value for money (68%) and quality (56%) are the most important criteria for consumers. Here, too, sustainability is becoming increasingly important. One-third want to give even greater consideration to this criterion in the future. Sustainability has finally reached the consumer," says Richard Federowski, Partner at Roland Berger.

A look at the shopping baskets shows that the focus continues to be on products for everyday needs and the home (furniture, household and garden articles). 37% have spent more money on food this year, for example, and 29% also want to make additional investments here in 2022. "The trend towards cocooning, i.e. retreating into a private domestic life, continues to have an impact. The demand for business outfits, will tend to remain at a low level in the near future," says Federowski. "Fashion from the sports and leisure sector also continues to be in high demand, and sustainability aspects will increasingly have to be taken into account in collections. However, purchases here will be made primarily online because it is simply more convenient for most people."

City center retailers can score with customer service and product ranges
Online retailing continues to gain ground globally. Online retailing continues to gain ground globally. A third of the people surveyed said they would order more online in 2021 than in the previous year. Above all, free delivery and the ability to return items easily and free of charge are important to customers. "Consumers have learned how convenient and fast online shopping can be, and this is true across all product categories - including groceries to an increasing extent," says de Boer. Services such as (virtual) advice, click-and-collect or live shopping currently play only a minor role in online shopping, but will become essential in the future.

The situation is very different when it comes to shopping in stores. German consumers in particular are flocking to city centers to enjoy the benefits of personal advice (51%). While frequencies are not yet at pre-Corona levels, conversion rates are very good. They also want to access exclusive product ranges (37%) and celebrate their shopping. "Therein lies an opportunity for retailers and city centers," says de Boer. "However, in order to compete, even small retailers can no longer do it without a digital component. To do so, they need to take their exclusive experiences to social platforms. They also know their clientele well and often sit on valuable data - this potential of 'small data' and 'communities' needs to be tapped."

The study in English can be downloaded here.

Source:

Roland Berger and Potloc

(c) STFI
14.12.2021

Funding Project Raw Material Classification of Recycled Fibers

For centuries, old textiles have been used to make tear fibers and processed into new textile products. This effective recycling is one of the oldest material cycles in the world. Today, it is not only clothing that is recycled, but also high-quality technical textiles. As the products of the textile industry evolve, so do the demands on textile recycling. The basis for this is a clear assessment and classification of raw materials.

For centuries, old textiles have been used to make tear fibers and processed into new textile products. This effective recycling is one of the oldest material cycles in the world. Today, it is not only clothing that is recycled, but also high-quality technical textiles. As the products of the textile industry evolve, so do the demands on textile recycling. The basis for this is a clear assessment and classification of raw materials.

In the research project of the German Institutes of Textile and Fiber Research Denkendorf (DITF) and the Sächsisches Textilforschungsinstitut e.V. (STFI - Saxony Textile Research Institute), a methodology is being developed that will make it possible to analyze the tearing as well as the subsequent processes with regard to fiber quality. The systematic analysis should make it possible to optimize the subsequent spinning processes in such a way that the recycled content of the yarn can be increased without the yarn properties differing significantly from those of a yarn consisting of 100% good fibers. These yarns can then be processed into sustainable textile products such as clothing or composite components.

The project, which is funded by the BMWi/IGF, is scheduled to run for two years and will end on December 31, 2022. The main benefits for the participating companies are to enable them to make greater use of secondary raw materials, to open up new markets through technologies or products developed in the project, to initiate synergies and long-term cooperation, and to prepare a joint market presence.    

The project includes several steps:

  • Material selection and procurement
    Cotton fibers to be processed are obtained from used textiles (T-shirts) and waste from the cotton spinning mill. Aramid fibers are processed from used protective clothing and technical textiles.
  • Optimization of the preparation / dissolution of the textiles
    To ensure that the fibers are detached from the corresponding textiles as gently as possible and with a not too high reduction, exact settings have to be found for the tearing process, which are technologically very demanding and require a lot of experience.
  • Determination of the quality criteria for the evaluation of the fiber dissolution
    In order to define the quality criteria, the fibers coming from the tearing mill are determined by means of an MDTA-4 measuring device from Textechno GmbH & Co. KG. The criteria determined are to be used to characterize the (lowest possible) fiber shortening caused by the tearing process.
  • Determination of optimized settings in the spinning process
    In order to determine the optimum settings for producing a yarn from the recycled fibers, they are spun after the rotor spinning process. By adjusting the spinning process, the aim is to produce a yarn that has good uniformity and also appropriate firmness.
  • Production and comparison of yarns from recycled raw materials
    In order that the recycled fibers - consisting of aramid and cotton - can each be used to produce an area-measured material, the material is to be processed at industrial scale. For this purpose, the fibers are processed over a complete blowroom line with following sliver production over adapted cards. After drawing and the following roving production, yarns are produced according to the rotor or ring spinning process. The finished yarns are used to produce knitted fabrics.
  • Coordination, analysis of results and preparation of reports
    The final report is prepared by the DITF and the STFI. The results will be transferred through publications, technical information to associations and trade fair presentations. Regular meetings with the participating companies are planned.

Textination spoke with Stephan Baz, Deputy Head of the Competence Center Staple Fiber, Weaving & Simulation, Head of Staple Fiber Technology and Markus Baumann, Research Associate at the Competence Center Staple Fiber, Weaving & Simulation (both DITF) as well as Bernd Gulich, Head of Department Nonwovens/Recycling and Johannes Leis, Research Associate Focus Nonwovens/Recycling (both STFI) about the current status of the funding project.

What is the current status of the project?
We are currently in the phase of carrying out trials and the iterative optimization of several project components. As expected, several loops are necessary for the mechanical preparation itself and also for the adjustment of the spinning process with the different variants. Ultimately, after all, the project aims at coordinating the processes of mechanical preparation and spinning as processing in order to achieve optimum results. At the same time, determining the quality criteria of the fibers produced is not trivial. This also requires the further development of processes and test methods that can be implemented productively in industry and that allow the quality of the fibers produced to be assessed effectively and unaffected by residual yarns, for example. What is really remarkable is the interest and willingness of the industry to drive the project work forward. The considerable quantities of materials required for our trials were purchased from ReSales Textilhandel und -recycling GmbH, Altex Textil-Recycling GmbH & Co. KG and Gebrüder Otto GmbH & Co. KG. Furthermore, with Temafa Maschinenfabrik GmbH, Nomaco GmbH & Co. KG, Schill + Seilacher GmbH, Spinnerei Neuhof GmbH & Co. KG and Maschinenfabrik Rieter AG, many members of the project-supporting committee are actively involved in the project, from consulting to the providing of technologies. The company Textechno Herbert Stein GmbH & Co. KG has provided a testing device of the type MDTA4 for the duration of the project and supports our work with regard to the evaluation of the mechanically prepared fibers. We are of course particularly pleased about this, as it has allowed us to look at and analyze several technologies in both mechanical preparation, testing and spinning. We expect to be able to make more detailed statements at the beginning of the coming year.

Which approaches do you think are particularly promising?
With regard to technologies, we must refer to the evaluation and analysis of the trials, which are currently still ongoing. We will be able to go into more detail in the first quarter of next year.

Of course, things are already emerging. With meta-aramid waste, promising approaches could be found very quickly; with post-consumer cotton, this is considerably more complex. Obviously, there is a link between the quality of the raw material and the quality of the products. In some cases, we have already been able to determine very low average fiber lengths in the procured goods; to a certain extent, these are of course directly reflected in the output of our processes. From this, and this is not a new finding, a great importance of the design of the textiles is again derived.

What are the challenges?
In addition to the expected high short fiber content, the residual yarns after the tearing process are an issue of particular focus. The proportion of these residual yarns can vary between the materials and preparation technologies, but the further dissolution of the products of the tearing process is essential.

If the processes are considered further in a utilization phase, the question of design naturally also arises for the best possible use of recycled fibers. Many problems, but also the approaches to solutions for the use of comparatively short fibers, can also be expected to apply to the (multiple) use of mechanically recycled fibers.

Can we speak of upcycling in the final product?
We see yarn-to-yarn recycling neither as upcycling nor downcycling, but as closed-loop recycling. The background is that the products are to go into the same application from which they came and have to compete with primary material. This means that certain specific requirements have to be met and at the same time there is considerable price pressure. In the case of downcycling, a significant reduction in properties is accepted, while in the case of upcycling, the higher-priced application can make up for the reprocessing effort. In the attempt to produce yarn material again from yarn material, both are only permissible to a small extent. This represents the particular challenge.

What does a recyclate prepared from used textiles mean for the spinning process?
Part of this question is to be answered in the project by the detailed classification of the processed fibers and is thus the subject of the tests currently underway. It turns out that, in addition to the rather obvious points such as significantly reduced fiber length, process disturbances due to undissolved fabrics and yarn pieces, there are also less obvious aspects to be considered, such as a significantly increased outgoing quantity for processing in the spinning process. The outgoing quantity is of particular interest here, because in the end the newly produced yarn should also contain a considerable proportion of prepared fibers.

What consequences does this have for textile machinery manufacturing?
The consequences that can already be estimated at the present time are that, particularly in the processing of cotton, the machinery in the spinning preparatory mill is specialized in the processing of (new) natural fibers with a certain amount of dirt. In contrast to new fibers, processed fibers are clean fibers with a significantly higher proportion of short fibers. Elements that are good at removing dirt also reject an increased amount of short fibers, which can lead to unintentionally high waste quantities under certain circumstances. It is therefore necessary to adapt the established machine technology to the new requirement profile of the raw material "processed fibers". Analogous adaptations are probably necessary along the entire processing chain up to the yarn. In the drafting system of the spinning machine, of course, this is due more to the high short fiber ratio than to elements that have been optimized for cleaning out dirt and foreign substances.

Source:

Textination GmbH

(c) Toray
23.11.2021

Toray Industries: A Concept to change Lives

Founded in January 1926, Tokyo-based Japanese chemical company Toray Industries, Inc. is known as the world's largest producer of PAN (polyacrylonitrile)-based carbon fibers. But its overall portfolio includes much more. Textination spoke with Koji Sasaki, General Manager of the Textile Division of Toray Industries, Inc. about innovative product solutions, new responsibilities and the special role of chemical companies in today's world.

Toray Industries is a Japanese company that - originating in 1926 as a producer of viscose yarns - is on the home stretch to its 100th birthday. Today, the Toray Group includes 102 Japanese companies and 180 overseas. They operate in 29 countries. What is the current significance of the fibers and textiles business unit for the success of your company?

Founded in January 1926, Tokyo-based Japanese chemical company Toray Industries, Inc. is known as the world's largest producer of PAN (polyacrylonitrile)-based carbon fibers. But its overall portfolio includes much more. Textination spoke with Koji Sasaki, General Manager of the Textile Division of Toray Industries, Inc. about innovative product solutions, new responsibilities and the special role of chemical companies in today's world.

Toray Industries is a Japanese company that - originating in 1926 as a producer of viscose yarns - is on the home stretch to its 100th birthday. Today, the Toray Group includes 102 Japanese companies and 180 overseas. They operate in 29 countries. What is the current significance of the fibers and textiles business unit for the success of your company?

The fibers’ and textiles’ business is both the starting point and the foundation of Toray's business development today. We started producing viscose yarns in 1926 and conducted our own research and development in nylon fibers as early as 1940. And since new materials usually require new processing methods, Toray also began investing in its own process technology at an early stage. On the one hand, we want to increase our sales, and on the other hand, we want to expand the application possibilities for our materials. For this reason, Toray also began to expand its business from pure fibers to textiles and even clothing. This allows us to better respond to our customers' needs while staying at the forefront of innovation.

Over the decades, Toray has accumulated a great deal of knowledge in polymer chemistry and organic synthesis chemistry - and this know-how is the foundation for almost all of our other business ventures. Today, we produce a wide range of advanced materials and high-value-added products in plastics, chemicals, foils, carbon fiber composites, electronics and information materials, pharmaceuticals, medicine and water treatment. However, fibers and textiles remain our most important business area, accounting for around 40% of the company's sales.

What understanding, what heritage is still important to you today? And how do you live out a corporate philosophy in the textile sector that you formulate as "Contributing to society through the creation of new value with innovative ideas, technologies and products"?

Toray has consistently developed new materials that the world has never seen before. We do this by focusing on our four core technologies: Polymer chemistry, organic synthetic chemistry, biotechnology and nanotechnology. We do this by focusing on our four core technologies: Polymer chemistry, organic synthetic chemistry, biotechnology and nanotechnology. For textiles, this means we use new polymer structures, spinning technologies and processing methods to develop yarns with unprecedented properties. We always focus on the needs and problems of the market and our customers.

This approach enables us to integrate textiles with new functions into our everyday lives that natural fibers and materials cannot accomplish. For example, we offer sportswear and underwear that absorb water excellently and dry very quickly, or rainwear and outdoor clothing with excellent water-repellent properties that feature a less bulky inner lining. Other examples include antibacterial underwear, uniforms, or inner linings that provide a hygienic environment and reduce the growth of odor-causing bacteria. People enjoy the convenience of these innovative textiles every day, and we hope to contribute to their daily comfort and improve their lives in some way.

In 2015, the United Nations adopted 17 sustainable development goals – simply known as the 2030 Agenda, which came into force on January 01, 2016. Countries were given 15 years to achieve them by 2030. In your company, there is a TORAY VISION 2030 and a TORAY SUSTAINABILITY VISION. How do you apply these principles and goals to the textile business? What role does sustainability play for this business area?

Sustainability is one of the most important issues facing the world today - not only in the textile sector, but in all industries. We in the Toray Group are convinced that we can contribute to solving various problems in this regard with our advanced materials. At the same time, the trend towards sustainability offers interesting new business approaches. In our sustainability vision, we have set four goals that the world should achieve by 2050. And we have defined which problems need to be addressed to achieve this.

We must:

  1. accelerate measures to combat climate change,
  2. implement sustainable, recycling-oriented solutions in the use of resources and in production,
  3. provide clean water and air, and
  4. contribute to better healthcare and hygiene for people around the world.

We will drive this agenda forward by promoting and expanding the use of materials that respond to environmental issues. In the textile sector, for example, we offer warming and cooling textiles – by eliminating the need for air conditioning or heating in certain situations, they can help reduce energy costs. We also produce environmentally friendly textiles that do not contain certain harmful substances such as fluorine, as well as textiles made from biomass, which use plant-based fibers instead of conventional petrochemical materials. Our product range also includes recycled materials that reduce waste and promote effective use of resources.

The TORAY VISION 2030, on the other hand, is our medium-term strategic plan and looks at the issue of sustainability from a different angle: Toray has defined the path to sustainable and healthy corporate growth in it. In this plan, we are focusing on two major growth areas: Our Green Innovation Business, which aims to solve environmental, resource and energy problems, and the Life Innovation Business, which focuses on improving medical care, public health, personal safety and ultimately a longer expectancy of life.

Innovation by Chemistry is the claim of the Toray Group. In a world where REACH and Fridays for Future severely restrict the scope of the chemical industry, the question arises as to what position chemistry can have in the textile industry. How do chemistry, innovation and sustainability fit together here?

The chemical industry is at a turning point today. The benefits that this industry can bring to civilization are still enormous, but at the same time, disadvantages such as the waste of resources and the negative impact on the environment and ecosystems are becoming increasingly apparent. In the future, the chemical industry will have to work much more towards sustainability - there is no way around it.

As far as textiles are concerned, we believe there are several ways to make synthetic materials more sustainable in the future. One of these, as I said, is materials made from plants instead of petrochemical raw materials. Another is to reduce the amount of raw materials used in production in the first place – this can be achieved, for example, by collecting and recycling waste materials from production or sales. Biodegradable materials that reduce the impact of waste products on the environment are another option worth pursuing, as is the reduction of environmentally harmful substances used in the production process. We are already looking at all of these possibilities in Toray's synthetic textiles business. At the same time, by the way, we make sure to save energy in our own production and minimize the impact on the environment.

Toray's fibers & textiles segment focuses on synthetic fibers such as nylon, polyester and acrylic, as well as other functional fibers. In recent years, there has been a clear trend on the market towards cellulosic fibers, which are also being traded as alternatives to synthetic products. How do you see this development – on the one hand for the Toray company, and on the other hand under the aspect of sustainability, which the cellulosic competitors claim for themselves with the renewable raw material base?

Natural fibers, including cellulose fibers and wool, are environmentally friendly in that they can be easily recycled and are rapidly biodegradable after disposal. However, to truly assess their environmental impact, a number of other factors must also be considered: Primarily, there is the issue of durability: precisely because natural fibers are natural, it is difficult to respond to a rapid increase in demand, and quality is not always stable due to weather and other factors.

Climatic changes such as extreme heat, drought, wind, floods and damages from freezing can affect the quantity and quality of the production of natural fibers, so that the supply is not always secured. In order to increase production, not only does land have to be cleared, but also large amounts of water and pesticides have to be used to cultivate it – all of which is harmful to the environment.

Synthetic fibers, on the other hand, are industrial products manufactured in controlled factory environments. This makes it easier to manage fluctuations in production volume and ensure consistent quality. In addition, certain functional properties such as resilience, water absorption, quick drying and antibacterial properties can be embedded into the material, which can result in textiles lasting longer in use.

So synthetic fibers and natural fibers, including cellulose fibers, have their own advantages and disadvantages – there is no panacea here, at least not at the moment. We believe: It is important to ensure that there are options that match the consumer's awareness and lifestyle. This includes comfort in everyday life and sustainability at the same time.

To what extent has the demand for recycled products increased? Under the brand name &+™, Toray offers a fiber made from recycled PET bottles. Especially with the "raw material base: PET bottles", problems can occur with the whiteness of the fiber. What distinguishes your process from that of other companies and to what extent can you compete with new fibers in terms of quality?

During the production of the "&+" fiber, the collected PET bottles are freed from all foreign substances using special washing and filtering processes. These processes have not only allowed us to solve the problem of fiber whiteness – by using filtered, high-purity recycled polyester chips, we can also produce very fine fibers and fibers with unique cross sections. Our proven process technologies can also be used to incorporate specific textures and functions of Toray into the fiber. In addition, "&+" contains a special substance in the polyester that allows the material to be traced back to the recycled PET bottle fibers used in it.

We believe that this combination of aesthetics, sustainability and functionality makes the recycled polyester fiber "&+" more competitive than those of other companies. And indeed, we have noticed that the number of requests is steadily increasing as companies develop a greater awareness of sustainability as early as the product planning stage.

How is innovation management practiced in Toray's textile division, and which developments that Toray has worked on recently are you particularly proud of?

The textile division consists of three sub-divisions focusing on the development and sale of fashion textiles (WOMEN'S & MEN'S WEAR FABRICS DEPT.), sports and outdoor textiles (SPORTS WEAR & CLOTHING MATERIALS FABRICS DEPT.) and, specifically for Japan, textiles for uniforms used in schools, businesses and the public sector (UNIFORM & ADVANCED TEXTILES DEPT.).

In the past, each division developed its own materials for their respective markets and customers. However, in 2021, we established a collaborative space to increase synergy and share information about textiles developed in different areas with the entire department. In this way, salespeople can also offer their customers materials developed in other departments and get ideas for developing new textiles themselves.

I believe that the new structure will also help us to respond better to changes in the market. We see, for example, that the boundaries between workwear and outdoor are blurring – brands like Engelbert Strauss are a good example of this trend. Another development that we believe will accelerate after the Corona pandemic is the focus on green technologies and materials. This applies to all textile sectors, and we need to work more closely together to be at the forefront of this.

How important are bio-based polyesters in your research projects? How do you assess the future importance of such alternatives?

I believe that these materials will play a major role in the coming years. Polyester is made from purified terephthalic acid (PTA), which again consists of paraxylene (PX) and ethylene glycol (EG). In a first step, we already offer a material called ECODEAR™, which uses sugar cane molasses waste as a raw material for EG production.

About 30% of this at least partially bio polyester fiber is therefore biologically produced, and the material is used on a large scale for sportswear and uniforms. In the next step, we are working on the development of a fully bio-based polyester fiber in which the PTA component is also obtained from biomass raw materials, such as the inedible parts of sugar cane and wood waste.

Already in 2011, we succeeded in producing a prototype of such a polyester fiber made entirely from biomass. However, the expansion of production at the PX manufacturer we are working with has proven to be challenging. Currently, we are only producing small sample quantities, but we hope to start mass production in the 2020s.

Originally starting with yarn, now a leading global producer of synthetic fibers for decades, you also work to the ready-made product. The range extends from protective clothing against dust and infections to smart textiles and functional textiles that record biometric data. What are you planning in these segments?

In the field of protective clothing, our LIVMOA™ brand is our flagship material. It combines high breathability to reduce moisture inside the garment with blocking properties that keep dust and other particles out. The textile is suitable for a wide range of work environments, including those with high dust or grease levels and even cleanrooms. LIVMOA™ 5000, a high quality, also demonstrates antiviral properties and helps to ease the burden on medical personnel. The material forms an effective barrier against bacteria and viruses and is resistant to hygroscopic pressure. Due to its high breathability, it also offers high wearing comfort.

Our smart textile is called hitoe™. This highly conductive fabric embeds a conductive polymer – a polymer compound that allows electricity to pass through - into the nanofiber fabric. hitoe™ is a high-performance material for detecting biosignals, weak electrical signals that we unconsciously emit from our bodies.

In Japan, Toray has developed products for electrocardiographic measurements (ECGs) that meet the safety and effectiveness standards of medical devices. And in 2016, we submitted an application to the Japanese medical administrative authorities to register a hitoe™ device as a general medical device – this registration process is now complete. Overall, we expect the healthcare sector, particularly medical and nursing applications, to grow – not least due to increasing infectious diseases and growing health awareness among the elderly population. We will therefore continue to develop and sell new products for this market.

In 1885, Joseph Wilson Swan introduced the term "artifical silk" for the nitrate cellulose filaments he artificially produced. Later, copper, viscose and acetate filament yarns spun on the basis of cellulose were also referred to as artifical silk. Toray has developed a new innovative spinning technology called NANODESIGN™, which enables nano-level control of the fineness and shape of synthetic fibers. This is expected to create functions, aesthetics and textures that have not existed before. For which applications do you intend to use these products?

In NANODESIGN™ technology, the polymer is split into a number of microscopic streams, which are then recombined in a specific pattern to form a new fiber. By controlling the polymer flow with extreme precision, the fineness and cross-sectional shape of the fiber can be determined much more accurately than was previously possible with conventional microfiber and nanofiber spinning technologies. In addition, this technology enables the combination of three or more polymer types with different properties in one fiber – conventional technologies only manage two polymer types. This technology therefore enables Toray to specify a wide range of textures and functions in the production of synthetic fibers that were not possible with conventional synthetic fibers – and even to outperform the texture and feel of natural fibers. Kinari, our artificial silk developed with NANODESIGN technology, is a prime example here, but the technology holds many more possibilities – especially with regard to our sustainability goals.

What has the past period of the pandemic meant for Toray's textile business so far? To what extent has it been a burden, but in which areas has it also been a driver of innovation? What do you expect of the next 12 months?

The Corona catastrophe had a dramatic impact on the company's results: The Corona catastrophe had a dramatic impact on the company's results: In the financial year 2020, Toray's total sales fell by about 10% to 188.36 billion yen (about 1.44 billion euros) and operating profit by about 28% to 90.3 billion yen (about 690 million euros). The impact on the fiber and textile business was also significant, with sales decreasing by around 13% to 719.2 billion yen (approx. 5.49 billion euros) and operating profit by around 39% to 36.6 billion yen (approx. 280 million euros).

In the financial year 2021, however, the outlook for the fibers and textiles sector is significantly better: So far, the segment has exceeded its goals overall, even if there are fluctuations in the individual areas and applications. In the period from April to June, we even returned to the level of 2019. This is partly due to the recovering sports and outdoor sector. The fashion apparel market, on the other hand, remains challenging due to changing lifestyles that have brought lock-downs and home-office. We believe that a full recovery in business will not occur until the travel and leisure sector returns to pre-Corona levels.

Another side effect of the pandemic that we feel very strongly, is the growing concern about environmental issues and climate change. As a result, the demand for sustainable materials has also increased in the apparel segment. In the future, sustainability will be mandatory for the development and marketing of new textiles in all market segments. Then again, there will always be the question of how sustainable a product really is, and data and traceability will become increasingly important. In the coming years, the textile division will keep a close eye on these developments and develop materials that meet customers' needs.

About the person:
Koji Sasaki joined Toray in 1987. In his more than 30 years with the company, he has held various positions, including a four-year position as Managing Director of Toray International Europe GmbH in Frankfurt from 2016 to 2020. Since 2020, Koji Sasaki has been responsible for Toray's textile division and serves as acting chairman of Toray Textiles Europe Ltd. In these roles, he supervises the company's development, sales and marketing activities in the apparel segment, including fashion, sports and work or school uniforms.

The interview was conducted by Ines Chucholowius, Managing partner Textination GmbH

(c) PERFORMANCE DAYS
16.11.2021

PERFORMANCE DAYS 2021: Hybrid Event in December

From December 1 to 2, 2021, the industry will meet up again live at the trade fair center in Munich. Trade visitors, industry insiders and experts can look forward to inter-personal exchanges, intensive networking, exciting fabric innovations and various other program highlights. The fair will go ahead in strict compliance with the current official hygiene regulations and in close cooperation with the Messe München authorities. Planned as a hybrid event, PERFORMANCE DAYS offers the possibility to follow what is on offer digitally.

From December 1 to 2, 2021, the industry will meet up again live at the trade fair center in Munich. Trade visitors, industry insiders and experts can look forward to inter-personal exchanges, intensive networking, exciting fabric innovations and various other program highlights. The fair will go ahead in strict compliance with the current official hygiene regulations and in close cooperation with the Messe München authorities. Planned as a hybrid event, PERFORMANCE DAYS offers the possibility to follow what is on offer digitally.

Live in Munich: PERFORMANCE DAYS in Hall A6
In Hall A6 on the grounds of the New Trade Center in Munich, trade visitors can look forward to an extensive portfolio of exhibitors showcasing their latest functional textiles and fabric innovations for the upcoming winter season, winter 2023/24. Exhibitors who are unable to present their highlights on site can also be accessed via the PERFORMANCE DAYS LOOP digital platform throughout the course of the fair. As part of the newly developed “remote booths” concept, trade visitors will for the first time also find collections from exhibitors who cannot be in Munich in person for the trade show. Interactive exchanges via chat, call or video call is planned.

Two further PERFORMANCE DAYS fairs are planned as live events: The Functional Fabric Fair by PERFORMANCE DAYS in Portland, Oregon, USA on November 17-18, 2021 and Functional Textiles Shanghai by PERFORMANCE DAYS on December 6-7, 2021. Registration is open at www.functionalfabricfair.com/ and www.functionaltextilesshanghai.com/

PERFORMANCE FORUM together with USA Fair
As part of the PERFORMANCE FORUM, a select jury of experts assembles for two days prior to the fair to exchange views on the latest fabric innovations for the winter 23/24 season. In order to ensure a more global market overview, the PERFORMANCE FORUM will curate highlights for the first time in conjunction with the US fair in Portland. Consequently, the next fair in Munich will not only feature the latest products from exhibitors at the Munich fair, but also highlights from the fair in Portland. This year’s Focus Topic in cooperation with the Vaude Academy will engage with the topic “The Sustainable Future of Nylon” and a specific hand-chosen selection of fabric materials. Furthermore, as part of the winter fair, the “sustain & innovate” conference on sustainability, organized in close cooperation with SAZsport, will take an in-depth look at the topic comprising all its aspects along with speakers, webinars and discussion rounds. The program will be broadcast live from the fair and thus accessible for all who wish to follow it online in digital form.  

Eco Award and Performance Award for Innovative Winter Fabrics 23/24
This year, in addition to a PERFORMANCE AWARD, the jury also presented an ECO PERFORMANCE AWARD. An integral part of the winter edition of PERFORMANCE DAYS is the presentation of the fabric highlights and accessory trends in the respective categories for the Winter Season 2023/24 at the PERFORMANCE FORUM. The well-known segments will be joined for the first time this winter by the Shoes & Bags category, while the renowned Lifestyle Category will be continued under its new title, “Function Meets Fashion”. The high level of innovation and quality of many of the fabrics submitted this year are particularly striking.

“The fusion of the two PERFORMANCE FORUMs of our fairs in Munich and Portland has lead to a significant increase in quality and innovation. Thanks to the new partnership, not only were we able to get new, exciting manufacturers on board, but there was also a significant increase in participation in general“, says Marco Weichert, CEO of PERFORMANCE DAYS.

Natural fabrics such as organic cotton, wool or canvas remain in demand. These are joined by significantly more plant fibers such as hemp, coconut shell, bamboo or fibers derived from pineapple or banana leaves. The additional use of castor oil, zinc or ginger supports the antibacterial effect, ensures enhanced breathability, optimum temperature management and makes the fabric soft, light and kind to the skin. The topic of recycling presents itself in various new facets and features exciting trends. The portfolio ranges from the recycling of marine waste, such as old buoys, plastic waste or fishing nets, to the recycling of waste from the automotive and computer industries, such as old car tires or computer chips. Natural dyeing methods are also gaining increasing importance, as is the recycling of materials into the textile loop.

In the Marketplace, visitors have the opportunity to view over 13,000+ products from exhibitors, including the fabric highlights of the individual categories at the PERFORMANCE FORUM. In order to be able to present the fabrics to the digital visitors as realistically as possible in terms of feel, design and structure, the PERFORMANCE FORUM has been equipped with groundbreaking 3D technology, including innovative tools such as 3D images, video animations and U3M files for download.

In addition to the PERFORMANCE AWARD WINNER, which goes to drielease/Optimer, there is also an ECO PERFORMANCE AWARD WINNER, awarded to Long Advance.

Completely new look: With the innovative Dricomfort Geo, drirelease turns to a blend of 6 % Lycra, 44 % polyester and 50 % recycled polyester. The processing of the various fibers in the knitting process, in combination with the Dricomfort GEO finishing, makes the reversible interlock fabric unique.

Unique, new pattern and knit designs are possible thanks to a special jacquard knitting process used to process the recycled polyester yarn. The material impresses with its lightness and versatility. The GEO technology also ensures optimal body temperature management. The adaptable technology provides excellent thermal regulation features through efficient heat management and enhanced moisture transport to optimize comfort and performance. Moreover, GEO boasts UV protection up to 50+.

New recycling variant: Long Advance presents LNT-21191-Z4C, a post consumer nylon that opens up a new world to recycling. The fabric, which consists of 7 % elastane and 93% recycled polyamide via Mass Balance, introduces new facets to the topic of recycling. BASF is using tire waste from now on and processes them into a new fiber. fiber. Due to the recycling, the need for synthetic fabrics are reduced to replace petroleum-based plastics with plastics made from renewable raw materials.

Photo: pixabay
20.07.2021

Closed-Loop Recycling Pilot Project for Single Use Face Masks

  • Circular economy for plastics: Fraunhofer, SABIC, and Procter & Gamble join forces

The Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE and its Institute for Environmental, Safety and Energy Technology UMSICHT have developed an advanced recycling process for used plastics. The pilot project with SABIC and Procter & Gamble serves to demonstrate the feasibility of closed-loop recycling for single-use facemasks.

The transformation from a linear to a circular plastics economy can only succeed with a multi-stakeholder approach. The Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE combines the competencies of six institutes of the Fraunhofer-Gesellschaft and cooperates closely with partners from industry. Together, we work on systemic, technical and social innovations and keep an eye on the entire life cycle of plastic products.  

  • Circular economy for plastics: Fraunhofer, SABIC, and Procter & Gamble join forces

The Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE and its Institute for Environmental, Safety and Energy Technology UMSICHT have developed an advanced recycling process for used plastics. The pilot project with SABIC and Procter & Gamble serves to demonstrate the feasibility of closed-loop recycling for single-use facemasks.

The transformation from a linear to a circular plastics economy can only succeed with a multi-stakeholder approach. The Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE combines the competencies of six institutes of the Fraunhofer-Gesellschaft and cooperates closely with partners from industry. Together, we work on systemic, technical and social innovations and keep an eye on the entire life cycle of plastic products.  

Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT is a pioneer in sustainable energy and raw materials management by supplying and transferring scientific results into companies, society and politics. Together with partners, the dedicated UMSICHT team researches and develops sustainable products, processes and services which inspire.

Fraunhofer Institute UMSICHT, SABIC and Procter & Gamble (P&G) are collaborating in an innovative circular economy pilot project which aimed to demonstrate the feasibility of closed-loop recycling of single-use facemasks.

Due to COVID-19, use of billions of disposable facemasks is raising environmental concerns especially when they are thoughtlessly discarded in public spaces, including - parks, open-air venues and beaches. Apart from the challenge of dealing with such huge volumes of essential personal healthcare items in a sustainable way, simply throwing the used masks away for disposal on landfill sites or in incineration plants represents a loss of valuable feedstock for new material.

“Recognizing the challenge, we set out to explore how used facemasks could potentially be returned into the value chain of new facemask production,” says Dr. Peter Dziezok, Director R&D Open Innovation at P&G. “But creating a true circular solution from both a sustainable and an economically feasible perspective takes partners. Therefore, we teamed up with Fraunhofer CCPE and Fraunhofer UMSICHT’s expert scientists and SABIC’s T&I specialists to investigate potential solutions.”

As part of the pilot, P&G collected used facemasks worn by employees or given to visitors at its manufacturing and research sites in Germany. Although those masks are always disposed of responsibly, there was no ideal route in place to recycle them efficiently. To help demonstrate a potential step change in this scenario, special collection bins were set up, and the collected used masks were sent to Fraunhofer for further processing in a dedicated research pyrolysis plant.

“A single-use medical product such as a face mask has high hygiene requirements, both in terms of disposal and production. Mechanical recycling, would have not done the job” explains Dr. Alexander Hofmann, Head of Department Recycling Management at Fraunhofer UMSICHT. “In our solution, therefore, the masks were first automatically shredded and then thermochemically converted to pyrolysis oil.

Pyrolysis breaks the plastic down into molecular fragments under pressure and heat, which will also destroy any residual pollutants or pathogens, such as the Coronavirus. In this way it is possible to produce feedstock for new plastics in virgin quality that can also meet the requirements for medical products” adds Hofmann, who is also Head of Research Department “Advanced Recycling” at Fraunhofer CCPE.

The pyrolysis oil was then sent to SABIC to be used as feedstock for the production of new PP resin. The resins were produced using the widely recognized principle of mass balance to combine the alternative feedstock with fossil-based feedstock in the production process. Mass balance is considered a crucial bridge between today’s linear economy and the more sustainable circular economy of the future.

“The high-quality circular PP polymer obtained in this pilot clearly demonstrates that closed-loop recycling is achievable through active collaboration of players from across the value chain,” emphasizes Mark Vester, Global Circular Economy Leader at SABIC. “The circular material is part of our TRUCIRCLE™ portfolio, aimed at preventing valuable used plastic from becoming waste and at mitigating the depletion of fossil resources.”

Finally, to close the loop, the PP polymer was supplied to P&G, where it was processed into non-woven fibers material. “This pilot project has helped us to assess if the close loop approach could work for hygienic and medical grade plastics.” says Hansjörg Reick, P&G Senior Director Open Innovation. “Of course, further work is needed but the results so far have been very encouraging”.

The entire closed loop pilot project from facemask collection to production was developed and implemented within only seven months. The transferability of advanced recycling to other feedstocks and chemical products is being further researched at Fraunhofer CCPE.

Photo: Pixabay
29.06.2021

A sustainable Circular Economy: Polypropylene Recycling from Carpet Waste

A significant part of carpet waste consists of petroleum-based polypropylene. As a non-recyclable product, disposing of it has previously meant incineration or landfill. However, a new solvent is now making it possible to recover virgin-standard polypropylene from carpet waste — with no perceptible reduction in quality. Developed by the Fraunhofer Institute for Building Physics IBP and its partners, the process also involves costs that are quite competitive. The development has taken place as part of the ISOPREP EU project.

The EU alone produces around 1.6 million tons of carpet waste every year. The majority of this ends up being sent to landfill or incinerated, as carpet is a composite material that is not suitable for purely mechanical recycling methods. With carpet waste analysed in the project consisting of around a quarter polypropylene, a petroleum-based plastic, the result is a great deal of resources going to waste.

A significant part of carpet waste consists of petroleum-based polypropylene. As a non-recyclable product, disposing of it has previously meant incineration or landfill. However, a new solvent is now making it possible to recover virgin-standard polypropylene from carpet waste — with no perceptible reduction in quality. Developed by the Fraunhofer Institute for Building Physics IBP and its partners, the process also involves costs that are quite competitive. The development has taken place as part of the ISOPREP EU project.

The EU alone produces around 1.6 million tons of carpet waste every year. The majority of this ends up being sent to landfill or incinerated, as carpet is a composite material that is not suitable for purely mechanical recycling methods. With carpet waste analysed in the project consisting of around a quarter polypropylene, a petroleum-based plastic, the result is a great deal of resources going to waste.

Carpet recycling now possible thanks to a new process
A team of researchers, including from Fraunhofer IBP, has now developed a new recycling process as part of an EU project named ISOPREP (see logo). “For the first time, this is making it possible to recover polypropylene from carpet waste — and the outcome is virgin-quality,” says Maike Illner, a researcher at Fraunhofer IBP. Not only does this allow the recovered polypropylene to be used in lower-quality products (in a process known as downcycling), but it also means that the quality is similar to that of newly manufactured polypropylene, making the material suitable for high-quality products too.

The process is based on a special solvent in the form of an ionic liquid. With the right components, it is able to selectively extract polypropylene from carpet fibers. Before the team of experts applies the solvent, the carpet waste is cleaned — something which involves removing as much of the backing as possible — and broken down. Once the pretreatment is complete, the waste is fed into a reactor in which it undergoes treatment using the solvent. The polypropylene is selectively dissolved in the solvent, a method that provides an effective way of removing dyes and other additives. The process is already being used on an extensive laboratory scale involving several liters of the solvent — and now, the research consortium has set its sights on scaling the process up to a pilot plant with the ability to recycle a ton of carpet waste per day. The pilot plant is set to commence operation by the end of the project in March 2022.

Costs and environmental impact
A recycling process can only be deployed on a large scale if its costs are competitive. For this application, this means retaining as much of the expensive ionic liquid as possible in the cycle. “If loss rates can be kept to one percent or less, there is potential for the costs of the process to rival those of producing new polypropylene,” explains Illner. “We know this thanks to a preliminary economic analysis that we conducted at Fraunhofer IBP.” The analysis involved the Fraunhofer researchers investigating the quantities of material and energy that would be required for the process and what kind of product would be output, and then calculating the associated costs. The team also considered how the costs would develop over the long term.

Fraunhofer IBP is focusing on the ecological aspects of carpet recycling. It is able to draw conclusions from factors including a lifecycle assessment, which sheds light on the emissions that are produced during the recycling process, for example. If the consortium is able to achieve its aim of keeping solvent loss rates to one percent or less in this case too, primary energy requirements and greenhouse gas emissions will remain on a similar scale to those involved in producing new polypropylene.

Potential for transfer to other polypropylene waste streams
While carpet waste is the focus of this particular project, the process that has been developed has potential applications far beyond it. The experts involved believe that it could be transferred to a whole host of waste flows that contain polypropylene and are unsuitable for conventional recycling methods. “One example is polypropylene products that contain dyes and additives,” says Illner. “Until now, it has been difficult to extract them from plastic, which means that the recycled polypropylene has only been suitable for use in lower-quality products.” The new process separates the polypropylene not only from other materials, but also from dyes and other additives, allowing it to be used in high-quality applications.

This project has received funding from the European Union’s Horizon 2020 research and innovation program under grant agreement no. 820787.

Photo: Pixabay
15.06.2021

Cabinet passes Draft on German Supply Chain Act

Passed on March 3, 2021, it will become effective as of Jan. 1, 2023 - the Supply Chain Act for companies with more than 3,000 employees. The draft law on corporate due diligence in supply chains - The Supply Chain Act - decided by the German Cabinet is expected to be finalized by the German Bundestag before the summer break.

With the fire at a textile factory in Pakistan in 2013, which claimed more than 250 victims, the topic of supply chain management and sustainable procurement received a great deal of publicity and was placed on the political agenda at various levels: companies can relocate their production abroad - but not their responsibility.

Passed on March 3, 2021, it will become effective as of Jan. 1, 2023 - the Supply Chain Act for companies with more than 3,000 employees. The draft law on corporate due diligence in supply chains - The Supply Chain Act - decided by the German Cabinet is expected to be finalized by the German Bundestag before the summer break.

With the fire at a textile factory in Pakistan in 2013, which claimed more than 250 victims, the topic of supply chain management and sustainable procurement received a great deal of publicity and was placed on the political agenda at various levels: companies can relocate their production abroad - but not their responsibility.

In recent years, a number of measures have been taken worldwide to improve the situation in global value chains. In particular, this involves compliance with human rights, social issues and environmental protection. However, the results are sobering: According to the BMZ (Federal Ministry for Economic Cooperation and Development), 25 million people are currently in forced labor, and 75 million boys and girls worldwide are affected by exploitative child labor.

But where does responsibility begin, and where does it end? The recently passed draft law on corporate due diligence in supply chains is a compromise decision by the ministries involved for development, labor and economy.

Experts from the accredited certification organization GUT Certification Company for Management Systems in Berlin have compiled key statements and estimations:

Which human rights do the due diligence obligations relate to?

  • Integrity of life and health
  • Freedom from slavery and forced labor
  • Protection of children and freedom from child labor
  • Freedom of association and the right of collective bargaining
  • Protection against torture
  • Fair working conditions (occupational health and safety, breaks)
  • Environmental obligations to protect human health

Circle of affected companies located in Germany and deadlines:

  • From 2023: Companies with more than 3,000 employees (over 600 companies in Germany)
  • From 2024: Companies with more than 1,000 employees (2,900 companies)

Obligations in the value chain
In addition to the affected companies' own business operations, responsibility initially extends only to their direct suppliers and service providers. Within the framework of risk management, adverse effects on human rights and environmental due diligence obligations are to be identified and documented in corresponding risk reports.

As long as there are no concrete indications of human rights violations, the monitoring of indirect suppliers is not the responsibility of the companies involved.

The documents are to be checked by the Federal Office for Economic Affairs and Export Control (BAFA). In the event of violations of the law, companies will initially face sanctions in the form of fines, however, in the event of serious violations, they may also be excluded from the granting of public contracts.

Overall, the "Act on Corporate Due Diligence in Supply Chains" does not provide for a duty to succeed or a guarantee liability, but primarily requires the companies involved to take measures within the framework of an "obligation of efforts".

The law does not provide for civil liability for any human rights violations in the supply chain. However, in the event of violations of human and labor rights, foreign employees are to be given the opportunity to be represented by trade unions and before German courts.

What does a company need to do in its own business unit and with its direct supplier?
Companies must implement the following measures:

  • Pass declaration of principles on respect for human rights
  • Risk analysis: establish and implement procedures to identify adverse human rights impacts
  • Risk management (incl. corrective measures) to prevent potentially negative impacts on human rights
  • Set up complaints mechanism
  • Report transparently and publicly
  • In the event of a violation, corrective measures must be taken immediately in the company's own business area, and it is imperative that these measures lead to the termination of the violation. In addition, further preventive measures must be initiated
  • If the violation with the direct supplier cannot be terminated in the foreseeable future, a concrete plan for minimization and avoidance must be created. Appropriate measures must be taken for this purpose, starting with supplier development within a defined time frame and ending with the discontinuation of the business relationship.

What does a company have to do with the indirect supplier?
Here, the due diligence obligations only apply on an occasion-related basis. If the company becomes aware of a possible violation by an indirect supplier, it must immediately:

  • Carry out a risk analysis
  • Implement a concept for minimization and prevention
  • Establish appropriate preventive measures regarding the causer of the violation

Is that a breakthrough? Barely.
With the aim of improving the human rights situation along the supply chain of German companies and thus implementing the UN Guiding Principles on Business and Human Rights, the German government passed the National Action Plan on Business and Human Rights (NAP) back in 2016. This urged companies to review their business activities and relationships with regard to human rights risks and implement necessary measures - on a voluntary basis.

However, the German government's report was sobering. For example, the monitoring of the implementation status of the NAP's requirements carried out from 2018 to 2020 revealed, that less than 20% of the German companies surveyed have voluntarily fulfilled their human rights due diligence obligations to date.

Now, ethical obligations are becoming part of the compliance, at least for the big companies in Germany. The majority of the "giants" involved are already familiar with the obligation under the EU Conflict Minerals Regulation and/or the EU CSR Directive: Corporate responsibility in the supply chain is a mandatory part of non-financial reporting. However, the materiality view here is defined by size of loss and not the topicality of the problem in the supply chain.

What does the new law change? With the law passed, everything remains the same for now: Digging in deeper and developing one’s own supply chain is still not mandatory.

Status Quo
From experience in validating sustainability reports, GUTcert auditors see that many German companies of various sizes are already addressing sustainability concerns in the supply chain based on their own corporate sustainability and ethical obligations:
 
The introduction of a code of conduct for business partners is already part of everyday life in many companies. When contracts are listed for the first time and renewed, the direct suppliers and service providers must adopt certain obligations and carry them forward into their own value chain.

Documentation of the risk analysis and its results as required by law is also no longer a novelty. At the latest in the context of conventional economic concerns, it is no longer possible to imagine supply chains without risks. The pandemic had brought this topic even more into focus in the light of interrupted supply chains in many places. Many companies have already expanded the purely economic risks to include sustainability-related issues, i.e. environmental and social concerns, human rights clauses and anti-corruption rules.

What is often missing, however, is an effective monitoring of the respective performance of the business partners. Self-reporting is the common tool in demonstrating sustainability in the supply chain. On-site controls are linked with high costs and often with the lack of knowledge about the possible means of a sustainability management. Some risks therefore often remain "blind spots".

What to do?
A matrix of one's own corporate sustainability risks of the value chain related to countries, industries and products is a first step in the right direction. With or without the law: The important thing is to take a serious look at your own supply chain and set the boundaries, so that existing risks of violation can actually be addressed - step by step. This way, any company can work out the key risks and opportunities with manageable effort. Help is provided by some internationally recognized sources that can serve as a basis for risk evaluation.
 
Targets and measures should be derived from the main risks and opportunities. These can range from the company's own controls and association work in its own industry to cooperation with international organizations, platforms and certifications. There are many options if one is looking for them.

Source:

GUT Certification Company for Management Systems