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10.01.2023

Fraunhofer: Optimized production of nonwoven masks

Producing infection control clothing requires a lot of energy and uses lots of material resources. Fraunhofer researchers have now developed a technology which helps to save materials and energy when producing nonwovens. A digital twin controls key manufacturing process parameters on the basis of mathematical modeling. As well as improving mask manufacturing, the ProQuIV solution can also be used to optimize the production parameters for other applications involving these versatile technical textiles, enabling manufacturers to respond flexibly to customer requests and changes in the market.

Producing infection control clothing requires a lot of energy and uses lots of material resources. Fraunhofer researchers have now developed a technology which helps to save materials and energy when producing nonwovens. A digital twin controls key manufacturing process parameters on the basis of mathematical modeling. As well as improving mask manufacturing, the ProQuIV solution can also be used to optimize the production parameters for other applications involving these versatile technical textiles, enabling manufacturers to respond flexibly to customer requests and changes in the market.

Nonwoven infection control masks were being used in their millions even before the COVID-19 pandemic and are regarded as simple mass-produced items. Nevertheless, the manufacturing process used to make them needs to meet strict requirements regarding precision and reliability. According to DIN (the German Institute for Standardization), the nonwoven in the mask must filter out at least 94 percent of the aerosols in the case of the FFP-2 mask and 99 percent in the case of the FFP-3 version. At the same time, the mask must let enough air through to ensure that the wearer can still breathe properly. Many manufacturers are looking for ways to optimize the manufacturing process. Furthermore, production needs to be made more flexible so that companies are able to process and deliver versatile nonwovens for a wide range of different applications and sectors.

ProQuIV, the solution developed by the Fraunhofer Institute for Industrial Mathematics ITWM in Kaiserslautern, fulfills both of these aims. The abbreviation “ProQuIV” stands for “Production and Quality Optimization of Nonwoven Infection Control Clothing” (Produktions- und Qualitätsoptimierung von Infektionsschutzkleidung aus Vliesstoffen). The basic idea is that manufacturing process parameters are characterized with regard to their impact on the uniformity of the nonwoven, and this impact is then linked to properties of the end product; for example, a protective mask. This model chain links all relevant parameters to an image analysis and creates a digital twin of the production process. The digital twin enables real-time monitoring and automatic control of nonwoven manufacturing and thus makes it possible to harness potential for optimization.

Dr. Ralf Kirsch, who works in the Flow and Material Simulation department and heads up the Filtration and Separation team, explains: “With ProQuIV, the manufacturers need less material overall, and they save energy. And the quality of the end product is guaranteed at all times.”

Nonwoven manufacturing with heat and air flow
Nonwovens for filtration applications are manufactured in what is known as the
meltblown process. This involves melting down plastics such as polypropylene and forcing them through nozzles so they come out in the form of threads referred to as filaments. The filaments are picked up on two sides by air flows which carry them forward almost at the speed of sound and swirl them around before depositing them on a collection belt. This makes the filaments even thinner: By the end of the process, their thickness is in the micrometer or even submicrometer range. They are then cooled, and binding agents are added in order to create the nonwoven. The more effectively the temperature, air speed and belt speed are coordinated with each other, the more uniform the distribution of the fibers at the end and therefore the more homogeneous the material will appear when examined under a transmitted light microscope. Lighter and darker areas can thereby be identified — this is referred to by experts as cloudiness. The Fraunhofer team has developed a method to measure a cloudiness index on the basis of image data. The light areas have a low fiber volume ratio, which means that they are less dense and have a lower filtration rate. Darker areas have a higher fiber volume and therefore a higher filtration rate. On the other hand, the higher air flow resistance in these areas means that they filter a smaller proportion of the air that is breathed in. A larger proportion of the air flows through the more open areas which have a less effective filtration effect.

Production process with real-time control
In the case of ProQuIV, the transmitted light images from the microscope are used to calibrate the models prior to use. The experts analyze the current condition of the textile sample and use this information to draw conclusions about how to optimize the system — for example, by increasing the temperature, reducing the belt speed or adjusting the strength of the air flows. “One of the key aims of our research project was to link central parameters such as filtration rate, flow resistance and cloudiness of a material with each other and to use this basis to generate a method which models all of the variables in the production process mathematically,” says Kirsch. The digital twin monitors and controls the ongoing production process in real time. If the system deviates slightly from where it should be — for example, if the temperature is too high — the settings are corrected automatically within seconds.

Fast and efficient manufacturing
“This means that it is not necessary to interrupt production, take material samples and readjust the machines. Once the models have been calibrated, the manufacturer can be confident that the nonwoven coming off the belt complies with the specifications and quality standards,” explains Kirsch. ProQuIV makes production much more efficient — there is less material waste, and the energy consumption is also reduced. Another advantage is that it allows manufacturers to develop new nonwoven-based products quickly — all they have to do is change the target specifications in the modeling and adjust the parameters. This enables production companies to respond flexibly to customer requests or market trends.

This might sound logical but can be quite complex when it comes to development. The way that the values for filtration performance and flow resistance increase, for example, is not linear at all, and they are not proportional to the fiber volume ratio either. This means that doubling the filament density does not result in double the filtration performance and flow resistance — the relationship between the parameters is much more complex than that. “This is precisely why the mathematical modeling is so important. It helps us to understand the complex relationship between the individual process parameters,” says ITWM researcher Kirsch. The researchers are able to draw on their extensive expertise in simulation and modeling for this work.

More applications are possible
The next step for the Fraunhofer team is to reduce the breathing resistance of the nonwovens for the wearer without impairing the protective effect. This is made possible by electrically charging the fibers and employing a principle similar to that of a feather duster. The electric charge causes the textile fabric to attract the tiniest of particles which could otherwise slip through the pores. For this purpose, the strength of the electrostatic charge is integrated into the modeling as a parameter.

The Fraunhofer researchers’ plans for the application of this method extend far beyond masks and air filters. Their technology is generally applicable to the production of nonwovens — for example, it can also be used in materials for the filtration of liquids. Furthermore, ProQuIV methods can be used to optimize the manufacture of nonwovens used in sound-insulating applications.

Source:

Fraunhofer Institute for Industrial Mathematics ITWM

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16.11.2022

Green chemistry transforms facemasks into Ethernet cables

Swansea University academics have pioneered a process which converts the carbon found in discarded facemasks to create high-quality single-walled carbon nanotubes (CNT) which were then used to make Ethernet cable with broadband quality.
 
The study, which has been published in Carbon Letters, outlines how this new green chemistry could be used to upcycle materials which would otherwise be thrown away and transform them into high value materials with real-world applications. The CNTs produced by this technique have the potential not only to be used in Ethernet cables, but also in the production of lightweight batteries used in electric cars and drones.

Swansea University academics have pioneered a process which converts the carbon found in discarded facemasks to create high-quality single-walled carbon nanotubes (CNT) which were then used to make Ethernet cable with broadband quality.
 
The study, which has been published in Carbon Letters, outlines how this new green chemistry could be used to upcycle materials which would otherwise be thrown away and transform them into high value materials with real-world applications. The CNTs produced by this technique have the potential not only to be used in Ethernet cables, but also in the production of lightweight batteries used in electric cars and drones.

Professor Alvin Orbaek White, of Swansea University’s Energy Safety Research Institute (ESRI):
“Single-use facemasks are a real travesty for the recycling system as they create vast amounts of plastic waste - much of it ending up in our oceans. During the study, we established that the carbon inside the facemask can be used as a pretty good feedstock to make high-quality materials like CNTs.

“CNTs are highly sought-after because they have preferential physical properties and tend to be much more costly on an industrial scale. So, through this study, we demonstrated that we could make very high value materials by processing the CNTs from what are, essentially, worthless waste facemasks.”

The team also studied the energy costs involved in using this process and concluded that the technique was green not only in levels of resource consumption but also in the product value generation as opposed to waste creation. Also, the Ethernet cable produced using the CNTs was good quality and adhered to Category 5 transmission speeds while easily exceeding the benchmarks set for broadband internet in most countries, including the UK.

Professor Orbaek White said:
“Using CNT films in batteries instead of metal films has a lower impact on the environment as the use of carbon offsets the need for mining and extraction activities. This is a crucial piece of work as it contributes to not only a circular economy but is also scalable and is viable for industrial processing and has green chemistry at its core.”

Source:

Swansea University

Photo: pixabay
21.09.2021

Virtual Quality Inspection Optimizes Production of Filter Nonwovens

Nonwoven production received more attention than ever before from the general public in Corona times, because the technical textile is crucial for infection protection. The ultra-fine nonwoven products are manufactured in so-called meltblown processes. A cross-departmental team at the Fraunhofer Institute for Industrial Mathematics ITWM in Kaiserslautern is optimizing the entire production chain in the »ProQuIV« project. Simulations help to guarantee the product quality of the filter material despite fluctuations in production.

Nonwoven production received more attention than ever before from the general public in Corona times, because the technical textile is crucial for infection protection. The ultra-fine nonwoven products are manufactured in so-called meltblown processes. A cross-departmental team at the Fraunhofer Institute for Industrial Mathematics ITWM in Kaiserslautern is optimizing the entire production chain in the »ProQuIV« project. Simulations help to guarantee the product quality of the filter material despite fluctuations in production.

The abbreviation »ProQuIV« stands for »Production and Quality Optimization of Nonwoven Infection Protection Clothing«. This is because bottlenecks in the production of these materials were particularly evident at the beginning of the Covid 19 crisis. For the meltblown nonwovens, this optimization of the product quality is also particularly difficult because the textiles react very sensitively to fluctuations in the manufacturing processes and material impurities.

Digital Twin Keeps an Eye on the Big Picture
»Meltblown« is the name of the industrial manufacturing process whose ultra-fine fiber nonwovens are responsible for providing the crucial filtering function in face masks. In this process, the molten polymer is forced through nozzles into a forward-flowing, high-speed stream. It is stretched and cooled in a highly turbulent air flow.

»The overall process of filter media production – from the polymer melt to the filter medium – presents a major challenge in simulation,« explains Dr. Konrad Steiner, head of the »Flow and Materials Simulation« department. »In the project, we kept the big picture in mind and developed a completely integrated evaluation chain as a digital twin. In doing so, we take several key components into account at once: We simulate the typical production processes of nonwovens, the formation of the fiber structures and then the material properties – here, in particular, the filter efficiency. This allows us to quantitatively evaluate the influences of the manufacturing process on the product properties.« In each of these individual areas, Fraunhofer ITWM and its experts are among the leading research groups internationally.

Homogeneity of the Material – Fewer Clouds in the Simulation Sky
In the meltblown process, a key factor is the behavior of the filaments in the turbulent, hot and fast air flow. The properties of the filaments are strongly influenced by this air flow. The quality of the filaments – and thus the quality of the nonwovens – is influenced by many factors. Dr. Dietmar Hietel, head of the »Transport Processes« department, knows what this means more precisely in practice. His team has been working at Fraunhofer ITWM for years on the simulation of various processes involving filaments, threads, and fibers. »The focus of the project is the so-called cloudiness, i.e. the non-uniformity of the fiber distributions in the nonwoven,« explains Hietel. »We are investigating the question: How homogeneous is the fabric? Because the quality of the products can be greatly improved if we increase the uniformity. Our simulations help figure out how to do that.«

Objective Evaluation of the Homogeneity of Nonwovens
The researchers also use appropriate image analysis techniques to quantify this cloudiness. The power spectrum plays a special role here. »The cloudiness index (CLI) describes homogeneity complementary to local basis weight and its variance,« describes Dr. Katja Schladitz. She brings her expertise in image processing to the project. »Our CLI ensures a robust assessment of the homogeneity and can thus be used for different material classes and imaging techniques to be used as an objective measure.« The frequencies that go into the CLI calculation can be chosen so that the CLI is meaningful for the particular application area.

Filtration: How Efficient Are the Filters?
For the upscaling to industrial processes such as mask production, the ITWM expertise in filters is also included in the project. The »Filtration and Separation« team led by Dr. Ralf Kirsch has been working for years on the mathematical modeling and simulation of various separation processes.

»What's special about this project is that we calculated the efficiency of the filters for fluctuations of varying degrees in the fiber volume fraction,« emphasizes Kirsch. »This allows us to specify up to what level of cloudiness the required filter efficiency can be achieved at all.« As a current example of this, the figure depicts in the graphic the efficiency of a filter material for N95 masks as a function of the inhomogeneity of the nonwoven.

ITMW Methods Support Across the Entire Process Chain
In »ProQuIV«, digital twins and calculations from Fraunhofer ITWM support a holistic view and better understanding of the processes. The production of technical textiles thus not only becomes more efficient, but the nonwovens can be developed virtually without having to realize this in advance in a test facility. In this way, production capacities can be increased while maintaining or even increase the quality. Together with long-term partners from industry, the research can be put into practice quickly and efficiently.

Simulations save textile companies experiments, allow new insights, enable systematic parameter variations and solve upscaling problems that can otherwise lead to bad investments during the transition from laboratory plant to industrial plant. However, virtual implementation of nonwoven production also opens up new opportunities for optimization at other levels. For example, acoustic insulating nonwovens or even hygiene nonwovens can also be optimized in terms of their product quality precisely with regard to the material properties to be achieved – while taking into account the process fluctuations that occur.

The project is part of the Fraunhofer-Gesellschaft's »Fraunhofer versus Corona« program and was completed in April 2021. The results will flow into several follow-up projects with the nonwovens industry.

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.

(c) STF Swiss Textile & Fashion Institute
23.02.2021

Sustainability Management in Textiles - Interview with Sonja Amport, Director of STF

Contact restrictions, mandatory use of face masks, home office: The Coronavirus has turned our daily lives upside down and reduced public life almost to zero. The impact of the pandemic has even further in-creased the existing pressure for action to achieve the Sustainable Development Goals. And that is why, it is not surprising that the issues of sustainability, climate protection and digitization are gaining ground in the industry's and consumers' awareness. New management qualities are required.

Textination talked to Sonja Amport, Director of the STF Swiss Textile & Fashion Institute, about the new training course CAS Sustainability Management in Textiles. After career experiences in the industry and in associations, the business economist with a master's degree in International Management has been contributing her knowledge of textiles, education, business administration, as well as marketing and sales to STF with vigor and passion since 2015.

Contact restrictions, mandatory use of face masks, home office: The Coronavirus has turned our daily lives upside down and reduced public life almost to zero. The impact of the pandemic has even further in-creased the existing pressure for action to achieve the Sustainable Development Goals. And that is why, it is not surprising that the issues of sustainability, climate protection and digitization are gaining ground in the industry's and consumers' awareness. New management qualities are required.

Textination talked to Sonja Amport, Director of the STF Swiss Textile & Fashion Institute, about the new training course CAS Sustainability Management in Textiles. After career experiences in the industry and in associations, the business economist with a master's degree in International Management has been contributing her knowledge of textiles, education, business administration, as well as marketing and sales to STF with vigor and passion since 2015.

The history of the STF Swiss Textile & Fashion Institute began in 1881. In this year Pablo Picasso was born and Billy the Kid was shot. The Tales of Hoffmann by Jacques Offenbach was premiered and Thomas Alva Edison built the world's first electric power station. The Breuninger department store opened at Stuttgart's market square and Rudolph Karstadt's first store in Wismar.
What led to the foundation of STF during this period of time and what values do you still feel committed to today?

In 1881, the textile industry in Switzerland was thriving. Companies in the sector of spinning, weaving, finishing and others burgeoned. However, there was a shortage of trained specialists who could have operated or repaired the machines. This is why the companies teamed up and founded the STF Swiss Textile & Fashion Institute - a place for education and training of specialists for the Swiss textile and clothing industry. For this reason, the STF is still organized as a cooperative today. Therefore, we are still committed to the values of competence, customer orientation, innovation, inspiration and passion to this day.

If you had to introduce your educational institution in 100 words to someone who doesn't know the Schweizerische Textilfachschule: How does the school define itself today and on which fields of activity does it focus?
The STF Swiss Textile & Fashion Institute stands for sustainable educational competence covering the entire life cycle of a textile, fashion or lifestyle product. With the "STF-LAB", the STF positions itself as an educational service provider with three business fields. The core field is "Education", where the STF offers numerous training and further education courses, from basic education to bachelor's and master's degrees. In the "Incubator & Makerspace" (STF Studio), the main focus is on shared infrastructure, mutual inspiration and the thereby together achieved progress. In the third business field, "Think Tank & Consulting", the school acts as a think tank, where experts can be "hired" and part-time management is offered.

Keyword life-long education: What further education programs does the STF offer for the textile and clothing industry, even after a successful degree?
Which industry sectors and which countries are you focusing on?

Firstly, we offer a variety of informal modular courses for the textile and clothing industry as well as retail, in which one can achieve a good overview of a specific topic within 45 lessons. Such as: Welding & Bonding, Smart & Functional Textiles, Start-up in Fashion or the Steiger Stitch Module, where you learn to program your own knitting designs and then knit them on a "Shared Machine" at STF. We also offer two-week intensive summer courses each year, for example in Sustainable Fashion Design. In terms of formal education, I can recommend our master’s program in Product Management Fashion & Textile in German or our two CAS in Sustainability Management in Textiles. Once with face-to-face classes in German and once via e-learning in English. At the moment, we are focusing our programs on Germany, Austria and Switzerland (DACH region). Our internationalization strategy was abruptly stopped due to Covid-19. With our English master's programs, we were focusing particularly on the Indian and Chinese markets We are now strategically repositioning ourselves with English language courses and will start marketing again from 2022 onwards. The goal is to provide flexible, modular master's programs with a high e-learning component, so that costs remain moderate and travelling can be reduced.

Sustainability has changed from a buzzword to a matter of course: The latest OTTO Trend Study even says, that sustainable consumption has entered the mainstream society. What does this mean for the textile and clothing industry? Are the companies positioned in terms of personnel in such a way, that they have professionally incorporated this complex of topics into their service portfolio?
Swiss companies have recognized, that they only have a chance against foreign competitors, if they are capable of innovation, consistently operating in a niche and can stand out through sustainable production. Sustainability is therefore an absolutely central USP. With this in mind, many companies are dealing this and, of course, also send their employees to us for further training.

The STF offers - so far being the only one in the German-speaking area - an internationally recognized further education in the field of Sustainability Management in Textiles as a Certificate of Advanced Studies CAS. Which sub-areas from design, production, process optimization to marketing does the certificate cover?
The STF offers the internationally recognized University of Applied Sciences certificate in collaboration with SUPSI, the Scuola Universitaria Professionale della Svizzera Italiana in Ticino.

In the degree program, we look from a holistic perspective and at the entire value chain of a textile, i.e. from design to production and to marketing, global challenges, where sustainability acts as a multilateral solution. In addition, the normative and strategic management of sustainability, topics related to social responsibility as well as initiatives and standards for the textile industry are highlighted. An important element of the CAS are raw materials and products, i.e. not only sustainable fibers but also fabrics or the use of chemical agents. Last but not least, aspects around biodiversity, animal welfare, marketing, labeling as well as possible future scenarios and best practice examples are highlighted.

Who could be interested in the CAS Sustainability Management in Textiles and why? What impact can the certificate have on a career?
The CAS is attractive for managers who are generally concerned about the strategic orientation of a company, as well as for specialist employees in design, product development, purchasing, sales or quality management who are responsible for operationalizing the sustainability strategy. And of course we always welcome young designers with their own fashion labels willing to break new, sustainable grounds and to stand out from the rest. The push in professional life is strongly related to one's own personality. So far, however, all graduates have found attending the further education program to be extremely beneficial for their own career paths.

What about the formal aspects of the CAS? For example, are there selection criteria, by when do you have to register, what does the curriculum look like, and what are the fees for attendants?
We start the educational courses at the end of August each year. Early registration, preferably by mid-May, is recommended to secure a place. In the face-to-face course, 120 lessons take place in Zurich and Ticino, costs of CHF 5,900. -, including teaching materials and examination fees, can be expected. In the e-learning course, with a few days of on-site attendance, the content is taught synchronously by Microsoft Teams, usually by the same lecturers. Here, the fee is CHF 5,600.

These costs do not include personal expenses as well as travel and accommodation costs.

Those who are interested can find the facts & figures on our homepage (available in German only):
(www.stf.ch/kurse/cas or www.stf.ch/kurse/cas-online)

The COVID-19 pandemic has clearly shown us the limitations of mobility. How have you responded to this as an educational institution?
Physical limitations can easily be overcome with e-learning. One of the reasons why our classes continued regularly throughout the pandemic period. For the period after Covid-19, we are planning, in addition to face-to-face study modules, further online-only seminars, such as our CAS-Online. These will be offered increasingly in English as well. We are also currently testing possible forms of hybrid lessons. Meaning, while some are educated on-site in Zurich, people who have to travel a long way, such as those from Germany, Austria and Switzerland (DACH region), can attend the lessons virtually and live from a distance.

The past year has left its mark on the textile and apparel industry. When you look back on a year of "state of emergency" - what positive experiences do you take with you, where do you see a need for improvement?
It was definitely a year of a state of emergency! One positive aspect is, that we at STF were ready and able to teach online from day one of the lockdown. The learners, students and my team all showed the greatest understanding and flexibility. But as an institute in the textile, fashion and lifestyle sector, teaching also thrives on visual materials. Being able to feel and smell the yarns and fabrics, as well as to discuss the experiences in person, are important learning experiences. It is definitely a challenge to implement such key learning elements online. Overall, Covid-19 has catapulted us forward as an institution in regards to the topic of digitization by what feels like two years. However, I would be grateful if we could return to normality as soon as possible and to an everyday life with "less distance".

Breaking new ground means willingness to make decisions, overcoming fears - and thus courage to fail. Not every project can succeed. In retrospect, which decision that you made for the STF profile are you particularly pleased about?
I'm proud to say that most of the projects we tackle are successful. There is almost always a way. Sometimes, as you move forward, you just have to adjust the direction a bit to get where you want to go. A groundbreaking innovation was certainly the modularization of (almost) all degree programs. Students can therefore benefit from a wide range of choices and create their own curriculum.

A second decision I'm grateful for was that, as a small institute, we invested a lot in expanding our digital capabilities and infrastructure at a very early stage, which we are now benefiting from. With very well-trained lecturers and a learning platform, a VM platform and modern 3D software in various subject areas, we consider ourselves a pioneer in e-learning and digitalization across Europe. Capabilities, which also pay off in terms of sustainability.

The interview was conducted by Ines Chucholowius, Managing Director of Textination GmbH

 

Further information:

Graphic: Pixabay
12.01.2021

East German Textile and Clothing Industry recorded a significant Drop in Sales in 2020

  • vti calls on health textiles purchasers to place more orders with domestic manufacturers
  • East German textile and clothing industry faces the Covid-19 crises with new ideas and products
  • Clothing sector more affected than the textile sector

The Association of the North-East German Textile and Clothing Industry (vti) calls on decision-makers in politics and authorities as well as in clinics and long-term care to order far more health protection textiles from local manufacturers than before. "That would be a logical step towards future-oriented, sustainable business - and furthermore in an exceptionally tough crisis situation. We are happy to arrange appropriate contacts with our companies," emphasized Dr.-Ing. Jenz Otto, Managing Director of the Chemnitz-based industry association, during an online press conference on January 8, 2021.

  • vti calls on health textiles purchasers to place more orders with domestic manufacturers
  • East German textile and clothing industry faces the Covid-19 crises with new ideas and products
  • Clothing sector more affected than the textile sector

The Association of the North-East German Textile and Clothing Industry (vti) calls on decision-makers in politics and authorities as well as in clinics and long-term care to order far more health protection textiles from local manufacturers than before. "That would be a logical step towards future-oriented, sustainable business - and furthermore in an exceptionally tough crisis situation. We are happy to arrange appropriate contacts with our companies," emphasized Dr.-Ing. Jenz Otto, Managing Director of the Chemnitz-based industry association, during an online press conference on January 8, 2021. “We don't understand the buying resistance concerning health textiles, even though the demand is huge. It is just as incomprehensible why there are still no noteworthy orders from authorities. In spring, the German federal government had already announced to provide 1 billion Euro with its economic stimulus package for national epidemic reserves for personal protective equipment. The federal states also had to take action in this regard and stock up. We urgently await the long-announced tenders for equipping the pandemic reserve stock. It is important that the purchase price is not the only measure of all things. Rather, criteria such as standard-compliant quality, traceable supply chains, the possibility of needs-based reorders and the multiple use of textiles are decisive for the safety of the population.”

When supply chains worldwide collapsed at the beginning of 2020, both authorities and many care and health facilities turned to textile companies for help. Many manufacturers launched both everyday masks and protective textiles that could be used in healthcare at short notice.
"These include highly effective bacteria and virus-repellent reusable products that enable effective textile management in the healthcare sector and at the same time prevent the piles of single-use waste from growing there," explained vti chairman Thomas Lindner, managing director of Strumpfwerk Lindner GmbH, Hohenstein-Ernstthal: “When the cheap imports from Asia reinstated, however, the interest decreased significantly. Nevertheless, numerous companies have continued to invest in new technology and aligned their production accordingly. For example, completely new production lines of face masks have been set up at several locations. Do not forget: The very expensive test procedures for medical and health textiles are a major challenge for us, the medium-sized businesses. In addition, there are still too few accredited test and certification bodies in Germany.” The fact that the companies were able to adapt to the new requirements at this rapid pace was primarily possible, because around 30 local companies and research institutes have been part of the health textiles network "health.textil", which is controlled by the vti and supported by the Free State of Saxony, for several years now. This alliance cooperates closely with practice partners such as the University Clinic of Dresden and the Elbland Clinics in Meißen. Nowadays it has expanded their activities to their neighbouring industry, research and application partner in Czech Republic. www.healthtextil.de

CO2 taxation puts medium-sized companies at a competitive disadvantage
Concerning the permanently relevant topic energy transition in Germany, vti General Manager Dr.-Ing. Jenz Otto points out that the economic framework conditions for medium-sized producers will continue to worsen with the introduction of the CO2 taxation in the midst of the current crisis. “The financial resources to be used for this will then be lacking for investments in innovative products and environmentally friendly manufacturing processes. Furthermore, our companies suffer significant competitive disadvantages compared to foreign competitors.” Björn-Olaf Dröge, managing director of the textile finishing company pro4tex GmbH, Niederfrohna, with around 100 employees, reported that the tax to be paid by his company for renewable energies adds up to around a quarter of a million euros annually. “Now the CO2 taxation for our natural gas consumption comes on top of that. For 2021 we anticipate an additional burden of almost 70,000 Euros.”

vti about the current situation in the East German industry
The East German textile and clothing industry recorded a significant loss in sales already in 2019. This trend has continued in 2020 being reinforced by the Covid-19 crises. Based on preliminary estimates, the vti assumes that the total turnover of the industry will be more than 11 percent below the previous year at the end of 2020, where the clothing sector is affected far more than the textile sector, with a decline of 35 percent. Exports, which are extremely important for the industry, also decreased in a similar magnitude. The job cuts have so far been relatively moderate, as many companies use the short-time working regulations and try to retain their permanent workforce. For 2021 the vti sees a gleam of hope in technical textiles, which have been in greater demand again in recent weeks - especially from the automotive industry. The employment cuts have so far been relatively moderate, as many companies use short-time working regulations and try to retain their permanent workforce. The vti sees a bright future for technical textiles in 2021, which have been in greater demand – especially in the automobile industry – in the last few weeks.

Of the around 16,000 employees, 12,000 work in Saxony and 2,500 in Thuringia. This makes this region one of the four largest German textile locations, along North Rhine-Westphalia, Baden-Württemberg and Bavaria. It has modern spinning mills, weaving mills, knitting mills, warp knitting mills, nonwovens manufacturers, embroidery mills, finishing companies and clothing manufacturers as well as efficient research and educational institutions. 

Over half of the turnover in the East German textile and clothing industry has so far been attributa-ble to technical textiles, followed by home textiles with around 30 percent and the clothing sector with around 10 percent. The vti acts as a stakeholder at state, federal and EU level, tariff- and so-cial partner, as well as a service provider for its around 160 member companies.

(c) Pixabay
15.12.2020

Protection against Corona: Materials research provides findings at institutes of the Zuse Community

As the year draws to a close, expectations are growing that protection against COVID-19 will soon be available. Until this is the case for large sections of the population, the successes achieved in research and industry to protect against the virus in 2020 offer a good starting point in the fight against corona and beyond. At institutes in the Zuse community, progress have been made not only in medical but also in materials research.

As the year draws to a close, expectations are growing that protection against COVID-19 will soon be available. Until this is the case for large sections of the population, the successes achieved in research and industry to protect against the virus in 2020 offer a good starting point in the fight against corona and beyond. At institutes in the Zuse community, progress have been made not only in medical but also in materials research.

These successes in materials research include innovations in the coating of surfaces. "In the wake of the pandemic, the demand for antiviral and antimicrobial surfaces has risen sharply, and we have successfully intensified our research in this area," explains Dr. Sebastian Spange, Head of Surface Technology at the Jena research institute INNOVENT. He expects to see an increasing number of products with antiviral surfaces in the future. "Our tests with model organisms show that an appropriate coating of surfaces works", emphasizes Spange. The spectrum of techniques used by INNOVENT includes flame treatment, plasma coating and the so-called Sol-Gel process, in which organic and inorganic substances can be combined in one layer at relatively low temperatures. According to Spange, materials for the coatings can be antibacterial metal compounds as well as natural substances with antiviral potential.

Nonwovens produced for mask manufacturers
In 2020, the textile expertise of numerous institutes in the Zuse community ensured that application-oriented research could prove its worth in the practical fight against pandemics. After the shortage of mask supplies in Germany at the beginning of the pandemic, textile research institutes reacted to the shortage by jumping into the breach. The Saxon Textile Research Institute (STFI), for example, converted its research facilities to the production of nonwovens to supply German and European manufacturers of particle filtering protective masks. "From March to November 2020, we supplied nonwovens to various manufacturers in order to provide the best possible support for mask production and thus help contain the pandemic. At a critical time for industry and the population, we were able to help relieve critical production capacity - an unaccustomed role for a research institute, but one we would assume again in similar situations," explains Andreas Berthel, Managing Commercial Director of STFI.

Development of reusable medical face masks
For the improvement of everyday as well as medical face masks the German Institutes for Textile and Fiber Research (DITF) are working on this project. In cooperation with an industrial partner, they are currently developing in Denkendorf, among other things, reusable medical face masks made of high-performance precision fabric using Jacquard weaving technology. The multiple use avoids waste and possible supply bottlenecks.

There are regulations for all types of masks, now also for everyday masks. At Hohenstein, compliance with standards for masks is checked. A new European guideline defines minimum requirements for the design, performance evaluation, labelling and packaging of everyday masks. "As a testing laboratory for medical products, we test the functionality of medical masks from microbiological-hygienic and physical aspects", explains Hohenstein's Managing Director Prof. Dr. Stefan Mecheels. In this way, Hohenstein supports manufacturers, among other things, with technical documentation to prove the effectiveness and safety. Respiratory protection masks (FFP 1, FFP 2 and FFP 3) have been tested at the Plastics Centre (SKZ) in Würzburg since the middle of this year. Among other things, inhalation and exhalation resistance and the passage of particles are tested. In addition, SKZ itself has entered into mask research. In cooperation with a medical technology specialist, SKZ is developing an innovative mask consisting of a cleanable and sterilizable mask carrier and replaceable filter elements.

ILK tests for mouth-nose protection
The fight against Corona is won by the contributions of humans: Of researchers in laboratories, of developers and manufacturers in the Industry as well as from the citizens on the street.
Against this background, the Institute for Air and Refrigeration Technology (ILK) in Dresden has carried out investigations into the permeability of the mouth and nose protection (MNS), namely on possible impairments when breathing through the mask as well as the protective function of everyday masks. Result: Although the materials used for the mouth-nose protection are able to retain about 95 percent of the exhaled droplets, "under practical aspects and consideration of leakages" it can be assumed that about 50 percent to 70 percent of the droplets enter the room, according to the ILK. If the mask is worn below the nose only, it can even be assumed that about 90 percent of the exhaled particles will enter the room due to the large proportion of nasal breathing. This illustrates the importance of tight-fitting and correctly worn mouth and nose protection. "On the other hand, from a physical point of view there are no reasons against wearing a mask", ILK managing director Prof. Dr. Uwe Franzke emphasizes. The researchers examined the CO2 content in the air we breathe as well as the higher effort required for breathing and based this on the criterion of overcoming the pressure loss. "The investigations on pressure loss showed a small, but practically irrelevant increase," explains Franzke.

The complete ILK report "Investigations on the effect of mouth and nose protection (MNS)" is available here.

08.12.2020

Fraunhofer FEP: Boosting Innovations for COVID-19 Diagnostic, Prevention and Surveillance

The recently launched 6.1 million Euro project INNO4COV-19, funded by the European Commission (grant agreement no. 101016203), will support the marketing of new products to combat COVID-19 over the next two years, throughout Europe. The Fraunhofer Institute for Organic Electronics, Electron Beam and Plasma Technology FEP is contributing its know-how in sterilization using accelerated electrons and on near-to-eye visualization.

The €6.1 million project INNO4COV-19 is committed to supporting the commercialization of new products across Europe for combatting COVID-19 over the next two years. Looking for the fast development of products – from medical technologies to surveillance solutions - the project will boost innovation to tackle the new coronavirus, reinforcing Europe's technological leadership, and invigorating an industrial sector capable of protecting citizens' safety and well-being.

The recently launched 6.1 million Euro project INNO4COV-19, funded by the European Commission (grant agreement no. 101016203), will support the marketing of new products to combat COVID-19 over the next two years, throughout Europe. The Fraunhofer Institute for Organic Electronics, Electron Beam and Plasma Technology FEP is contributing its know-how in sterilization using accelerated electrons and on near-to-eye visualization.

The €6.1 million project INNO4COV-19 is committed to supporting the commercialization of new products across Europe for combatting COVID-19 over the next two years. Looking for the fast development of products – from medical technologies to surveillance solutions - the project will boost innovation to tackle the new coronavirus, reinforcing Europe's technological leadership, and invigorating an industrial sector capable of protecting citizens' safety and well-being.

Officially starting on October 1, the virtual kick-off took place on October 6 – 7, counting with the support of two European Commission officers.

The 11-partner consortium led by INL – International Iberian Nanotechnology Laboratory, is looking for efficient and fast solutions that can help in the fight against COVID-19 jointly with the other actively involved industrial and RTO partners.

The mission of INNO4COV-19 is to create a “lab-to-fab” platform and a collaboration resource where companies and reference laboratories will find the tools for developing and implementing innovative technologies – from idea assessment to market exploitation. This work will be carried out as part the European Union Coronavirus initiative and in strong collaboration with all the funded projects where to accelerate the time to market for any promising product.

INNO4COV-19 is set to assist up to 30 test cases and applications from several areas spanning from Medical technologies, Environmental Surveillance systems, Sensors, Protection of Healthcare workers and Artificial Intelligence and Data mining. To achieve this, INNO4COV-19 is awarding half of the budget to support 30 enterprises selected through a set number of open calls during the first year of the project.

The first call will be launched in November 2020 across several platforms. Awardees will receive up to €100,000 each and benefit from the INNO4COV-19 consortium's technical, regulatory, and business expertise.

Roll-to-Roll Equipment and Electron Beam Technology for Large Area Sterilization of textile materials
During pandemic events like COVID-19, MERS, SARS or Ebola a substantial shortage of sterile materials for medical uses was observed due to peak demands. Fraunhofer FEP will contribute their roll-to-roll equipment and electron beam technology for the purpose of large area sterilization of textile materials to the INNO4COV-19 project.

Usually the textile material is produced in non-sterile conditions and therefore must be sterilized before being delivered to the consumers (e. g. hospitals); Sterilization at product level (sterilizing the final manufactured masks) is limited in throughput, due to a high number of individual small pieces, that must be sterilized.

Project manager Dr. Steffen Günther of Fraunhofer FEP explains the role and aims of the institute in more detail: “INNO4COV-19 will establish and verify a process chain for high throughput (4500 m²/h) electron beam sterilization of fabric material in roll-form in a single TRL 7 pilot machine to allow efficient manufacturing of sterile face masks and other fabric based sterile products without the need to sterilize the final product.”

OLED Microdisplays for Detecting Infected People
Another topic of Fraunhofer FEP within INNO4COV-19 deals with the earliest possible detection of infected people. A widely used strategy to early identify individuals with disease symptoms is body temperature screening using thermal cameras.

One possibility to allow continuous body temperature monitoring, is the integration of a thermal camera into a smart wearable device. Therefore, Fraunhofer FEP is using their OLED microdisplay technology. This allows small (< 3 × 2 cm²), ultrathin (< 5 mm including control circuitry) and ultra-low power (< 5 mW) devices to show visual information. In combination with an infrared sensor a thermal imager will be realized to both measure body temperature and directly displays the result via near-to-eye visualization. The system can be embedded within smart glasses, hats, caps or personal face shields.

About INNO4COV-19 project:
Website: www.inno4cov19.eu
Please contact: info@inno4cov19.eu

 

Source:

Fraunhofer Institute for Organic Electronics, Electron Beam and Plasma Technology FEP

Cost-effective Ways to minimize Risks in the Supply Chain Photo: Pixabay
28.07.2020

Fraunhofer ITWM: Cost-effective Ways to minimize Risks in the Supply Chain

  • Algorithms for optimized supply chains

The coronavirus pandemic has hit the economy hard. What lessons can be learned from this experience? And what’s the best way for companies to protect themselves against this kind of crisis in the future? The answer will certainly involve a combination of different approaches – but new mathematical methods developed by the Fraunhofer Institute for Industrial Mathematics ITWM look likely to be a very promising piece of the puzzle. These methods aim to calculate how the risks posed by supply shortages can be reduced significantly at very little extra cost.

  • Algorithms for optimized supply chains

The coronavirus pandemic has hit the economy hard. What lessons can be learned from this experience? And what’s the best way for companies to protect themselves against this kind of crisis in the future? The answer will certainly involve a combination of different approaches – but new mathematical methods developed by the Fraunhofer Institute for Industrial Mathematics ITWM look likely to be a very promising piece of the puzzle. These methods aim to calculate how the risks posed by supply shortages can be reduced significantly at very little extra cost.

 Nobody ever expected hospitals to be struggling to get hold of the face masks and other personal protective equipment they need. The supply chain had always run smoothly in the past, yet the coronavirus crisis has now caused shortages of these products on multiple occasions. Previously, these supply chains had worked well – but the necessary restrictions on the global flow of goods led them to collapse.In many cases, for example, Chinese suppliers were unable to make deliveries even while factories in Germany were still working as normal, a situation that had a knock-on effect on goods production in Germany. And viruses are not the only potential risk: international suppliers can be paralyzed by all kinds of unforeseen factors, from natural disasters such as tsunamis, earthquakes, storms and floods to strikes or other unexpected political developments. If a company chooses to rely on just one supplier for its production needs in order to reduce costs, this can have devastating consequences that may even bring production to a complete standstill. It can take a very long time indeed for other suppliers to ramp up their production and start delivering the required products.
 
Analyzing and safeguarding supply chains
This is where methods developed by Fraunhofer ITWM come into play. “The algorithms analyze how diversified the supply chains are in different areas of the company and thus how great the risk is of running into critical supply problems in an emergency, in other words in the event of regional or global disruption,” says Dr. Heiner Ackermann, deputy head in the Department of Optimization at Fraunhofer ITWM in Kaiserslautern. “The question is how you can minimize the risk of supply shortfalls without incurring significant additional costs.” The dilemma is similar to that of buying a house: Is it best to opt for the lowest possible interest rates, even though there is a risk that follow-up financing will offer much worse rates? Or is it best to play safe and pay slightly higher interest rates from the start if that means having the reassurance of reasonably priced financing for the entire term?
 
Companies also have to get the right balance between risk and costs. If a company chooses to rely solely on the cheapest supplier, they are taking a major risk. But if they procure a raw material from multiple suppliers at the same time, that risk drops significantly. “And in this case the difference in cost is much lower than the difference in risk,” says Ackermann. In other words, the risks fall dramatically even when a company increases its costs by just a few percent – so it is possible to eliminate much of the risk by accepting just a slight rise in costs. Companies can use the algorithm to discover what would work best in their particular situation. “This method lets companies optimize their supply chains based on multiple criteria, helping them to find the optimal balance between costs and risks,” says Ackermann. “The underlying algorithms work equally well whether you are dealing with supply shortages caused by an earthquake or a virus. So, unlike existing software solutions, we don’t try to make assumptions as to the likelihood of any particular scenario.” With this new method, a company starts by entering various parameters – for example areas in which they think disruption could be likely and how long that disruption might last. The algorithms then calculate various cost/risk trade-offs for this exact raw material, including the possible allocations of suppliers that would correspond to each point on the scale. They even take into account options such as storing critical products in order to cushion any temporary supply shortfalls.
 
Substituting raw materials during supply shortages      
Another option the algorithms take into account is whether a raw material could potentially be replaced by different materials in the event of a supply bottleneck. If so, this can be taken into consideration from the start. Essentially, the method calculates the costs and risks of different courses that a company can follow in regard to their suppliers. Procter & Gamble is already using a software-based variant of this methodology which has been specially tailored to its needs.

Source:

Fraunhofer Institute for Industrial Mathematics ITWM

Textildruckerei Heinrich Mayer GmbH, Michael Steidle (c) Textildruckerei Heinrich Mayer GmbH
21.07.2020

„COVID-19 - We could and should have appeared better as noble knights" Michael Steidle, Textildruckerei Heinrich Mayer GmbH

  • Interview with Michael Steidle, Managing Director Textildruckerei Heinrich Mayer GmbH

At least Europe seems to be able to breathe a sigh of relief after weeks of lockdown during the corona pandemic. The textile industry, an industry that has lived globalisation for so many years, is facing the challenge of maintaining its place in the new normal and building on its previous performance as quickly as possible.
Textination talked to three company representatives along the textile chain about personal and operational experiences.

  • Interview with Michael Steidle, Managing Director Textildruckerei Heinrich Mayer GmbH

At least Europe seems to be able to breathe a sigh of relief after weeks of lockdown during the corona pandemic. The textile industry, an industry that has lived globalisation for so many years, is facing the challenge of maintaining its place in the new normal and building on its previous performance as quickly as possible.
Textination talked to three company representatives along the textile chain about personal and operational experiences.

The Interview with Michael Steidle, managing director at the textile printing company Heinrich Mayer GmbH, marks the provisional end of our series that started with Wolfgang Müller, Head of Sales & Services at Mayer & Cie. GmbH & Co. KG and was continued by Andreas Merkel, managing director of Gebr. Otto Baumwollfeinzwirnerei GmbH & Co. KG. The textile printing company Mayer, a family business on the Swabian Alb, is a leader in textile printing, in screen, rouleaux, rotary, sublimation and flock printing and as well as in 3D coating. They are increasingly using these skills in the area of technical textiles.

How have you felt about the corona era to date - as a company and personally?
What would you on no account want to go through again and what might you even consider maintaining on a daily basis?

 The corona time hit us hard. At the beginning of April, sometimes it felt like the lights would go out within the next 24 hours. In numbers there is a drop in sales of 30 percent.
And that's not just the way we are, this crisis has incredibly broader implications. Involved in the word of the Chamber of Commerce I am concerned with many companies in the region. Sectors that would not come to mind spontaneously also feel the effects. This also includes recycling companies. After all, there is also less commercial waste when companies are on short-time work.
At a personal level you can deal with the crisis, hand hygiene, sneeze etiquette, you can learn all of this. But we miss people-to-people contacts. We have a teenage daughter; young people in particular lack the ability to be out and about with their peers.

 
What has the pandemic meant for your company so far?
As I said, the Corona period brought us a significant drop in sales. That means we think twice before spending money. At the beginning of the year we moved to our new, spacious company building. There are still a few small investments to be made. So far, we have put it off until the situation has calmed down again. And so do many. The economic network extremely got out of hand due to the lockdown.
We applied for short-time work, which has been running for three months now. However, you have to see how long that makes sense. Our customers also had a drop in sales, which they first of all have to recover.

 
What adjustments or innovations to your product portfolio have you felt obliged by the pandemic to undertake?
The mask production was a very strong topic in April and May, the phone almost rang continuously. This enabled us to compensate for many orders that were lost otherwise.
We reacted quickly, not only printing masks classically, but also developing coatings for medical face masks and protective clothing. The coatings that we offer are antibacterial and have the lotus effect. This results in the formation of droplets in the aerosols. We have had checked and certified these innovations in an urgent procedure.
We converted our machines ad hoc so that we could apply innovative coatings instead of paint. This was even possible for ready-made masks.
In general, I rate this ability to react quickly as one of our great strengths. We are a small company, so the path from idea to implementation is rather short. If we recognize a trend, an opportunity in our industry, we examine ourselves: Do we have resources that could be used or adapted to offer a solid, marketable solution in a very short time? This refers to know-how, ideas, machines and, for larger projects, also partners. Experience has shown that on the one hand we have the necessary imagination, but on the other hand we also have a fairly realistic view of ourselves. If we can answer the question with “yes”, then we get started without delay. We can evaluate a trial in the evening and continue working on it the next day. There is no need for a meeting with five persons beforehand.
 

What are your views on global supply chains in the future, and will you be drawing consequences for your procurement policy?
We cannot avoid global supply chains; and it will remain this way. In the short term, you may reflect on regional procurement, as far as that is still possible. Many things are simply no longer available and the development over the past 30 years cannot be turned back. Let's take pigment paint: it comes from India and China, otherwise it doesn't exist anymore. Nobody in Europe can keep the prices. And yes, that also means that the production of systemically relevant products can no longer be guaranteed.

          
How do you rate the importance of partnerships within the industry in the future? Does Covid-19 have the potential to promote the creation of new cooperation arrangements in the industry? Or have they already taken shape?
Existing partnerships are important. We must keep the ball rolling: Interrupted projects have to be continued with existing partners.
I think it is important to maintain partnerships at eye level. Sure, now everyone has to see how they can make ends meet. It will be shown, however, who works loyally in the long term and with respect to the business.
Personally, it is important for me to be true to my word. Only a few days ago I spoke to a student, whom we promised her internship and a corresponding payment in February. This young woman can start her internship with us; what paying is concerned, I had to tell her honestly that we have to talk about it again. Fortunately, that was not a problem. It is important to the student that she can complete the required internship at all. This is not so easy since most companies do not accept anyone right now. That is understandable too, but we will need the well-trained people again soon, that’s for sure!

 
What initiatives or approaches for your industry would you welcome for the near future?
I would be very interested in a positive and comprehensive description of what value added is still available in Germany. An initiative that illustrates that the textile industry is an important industry, with many companies that have been family-owned for generations, often with a young, dynamic management and high-quality products. Really nobody has that on his radar. Just today, two designers from a company nearby visited us. They were surprised which services we offer in the field of technical textiles - they were not even aware of it.
The textile industry has played itself down for a long time, that has to stop. Of course, we no longer have added value like the machine building industry. But now, in the corona crisis, it would have been the right time to take advantage of the situation and to initiate much-needed lobbying..


What would you like to see as part of the German textile industry? Do you feel that the status of the German textile industry has changed as a result of the pandemic, especially in respect of public procurement?
No, only at very short notice. Everything was taken during the crisis, the main thing was that the requested product, i.e. masks and protective clothing, was even available. Now the old cycle is back: I have a certain budget, where can I get the most for it? This is frustrating because the willingness to face this challenge was high on the part of the companies.
We also have driven the development and had our coatings for masks certified in an urgent process. Others have switched their entire production at a significant cost to meet demand. Nobody became a millionaire this way.
I think the textile industry could have sold better here. We could and should have appeared better as noble knights. Unfortunately, this was lost in the heat of the battle.

Until now the big issues have been globalisation, sustainability / climate change / environmental protection, digitisation, the labour market situation and so on. Where do they stand now and how must we rate them against the backdrop of the Covid-19 pandemic?
We take sustainability into account with our certifications, with GOTS and ISO 9001. Digitisation does not work quickly for us; it will take years before we can digitise processes. Sure, in administration we are now increasingly working with web meetings and video conferences, but personal contact is important to me. I regularly give lectures; my next one will be at the Zurich University of Applied Sciences and I very much hope that it can take place. I am just a guy for direct contact.
The labour market situation depends on the pandemic and how it develops. In any case, it remains difficult to get young people excited about textile professions. When I open a mobile phone store, I don't need a day to have my employees together. When we present ourselves at a training fair, we are happy to have a handful of good conversations.
Training is so valuable. Someone who has one will always have a different status than an unskilled person, even if - at some point - he works in a completely different branch. The dual training system is absolutely untouchable for me, because we live from this economic performance. We have nothing else but our knowledge. And we have to keep developing because only the high level gives the necessary output.
 

What lessons are to be learnt in respect of these targets for the post-corona era?
Innovation, innovation, innovation. You must not stand still. Nobody knows what to do next. But in three years from now I have to live from what I am developing today, just like I live from what I developed three years ago. Now, in times of Corona, it is much harder to remember, but it does not help: I can’t stand still, waiting for what is happening next, being like a deer caught in the headlights.

This interview was conducted by Ines Chucholowius, CEO Textination GmbH

07.07.2020

Mayer & Cie.: “COVID-19 - A Challenge without a Blueprint”

Interview with Wolfgang Müller, Head of Sales & Service at Mayer & Cie. GmbH & Co. KG

At least Europe seems to be able to breathe a sigh of relief after weeks of lockdown during the corona pandemic. The textile industry, an industry that has lived globalisation for so many years, is facing the challenge of maintaining its place in the new normal and building on its previous performance as quickly as possible.

Textination talked to three company representatives along the textile chain about personal and operational experiences.

Wolfgang Müller, Head of Sales & Service at Mayer & Cie. GmbH & Co. KG will start the three-part series. The world market leader for circular knitting machines, founded in 1905 in Albstadt / Baden-Württemberg, employs around 400 people worldwide and today offers an international network of more than 80 sales and service representatives.

Interview with Wolfgang Müller, Head of Sales & Service at Mayer & Cie. GmbH & Co. KG

At least Europe seems to be able to breathe a sigh of relief after weeks of lockdown during the corona pandemic. The textile industry, an industry that has lived globalisation for so many years, is facing the challenge of maintaining its place in the new normal and building on its previous performance as quickly as possible.

Textination talked to three company representatives along the textile chain about personal and operational experiences.

Wolfgang Müller, Head of Sales & Service at Mayer & Cie. GmbH & Co. KG will start the three-part series. The world market leader for circular knitting machines, founded in 1905 in Albstadt / Baden-Württemberg, employs around 400 people worldwide and today offers an international network of more than 80 sales and service representatives.

How have you felt about the corona era to date - as a company and personally?
What would you on no account want to go through again and what might you even consider maintaining on a daily basis?

The corona era is a challenge without a blueprint. Because it is not an economic crisis as previously understood we have no tried and tested solutions with which to react to the situation. Nevertheless, and this is my personal opinion, there is never only a downside even though the pandemic situation has, of course, had the worst conceivable effect on our order intake.
A positive aspect is that we are forced to deal with issues we would otherwise have put off until the future. Web meetings and virtual trade fairs instead of travelling half way round the world. We can use the time gained to optimise our processes.
When the lockdown began I personally had more time for myself and a few hours more sleep than otherwise. But that positive side effect is already history.    
          
What has the pandemic meant for your company so far?
Let me go back a little further. The trade dispute between the United States and China and many other, smaller local conflicts led to the textile machinery market having faced an understandably most reluctant client base since 2018. After this rather lengthy lean period we noted from the beginning of 2020 a growing inclination to invest once more. Of course, corona abruptly interrupted that trend. So the pandemic hit us at a time when the industry was recovering. We now have a steady order intake once more, but at a lower level than we need if we are to fully utilise our production capacity. So after the summer holidays we will switch to short-time working until the situation is back to normal.
 
What adjustments or innovations to your product portfolio have you felt obliged by the pandemic to undertake?
Contact and travel bans have not only shown us how useful video conferences are; they have also demonstrated most vividly how important digital solutions are – and that we need to work on them intensively. Prior to the corona outbreak, we invested a great deal of time and knowledge in this area so that we were able to unveil knitlink at the 2019 ITMA 2019.
A Web shop for spare parts and our new service approach are both based on knitlink. Using a ticket system that we are developing from our CRM system along with digital measures in service support we can assist our customers faster and at less expense than previously. In addition, our customers will in future be able to record and analyse the production data of their Mayer circular knitting machines.

What are your views on global supply chains in the future, and will you be drawing consequences for your procurement policy?
We as suppliers noticed at the outset of the corona crisis in March that the desire for short supply chains on the part of clothing manufacturers was leading to more orders from countries closer to Europe. Now that the situation is hopefully starting to ease off, this trend is still apparent.
As for our own supply chain, throughout the entire lockdown phase we have had gratifyingly few problems and no downtimes whatever.
 
How do you rate the importance of partnerships within the industry in the future?
Does Covid-19 have the potential to promote the creation of new cooperation arrangements in the industry? Or have they already taken shape?

Cooperation arrangements can be a great enrichment. For over a year and a half we have been collaborating with a design studio in Amsterdam. Our partner Byborre not only develops designs of its own; it also supports sportswear and clothing manufacturers step by step in developing their textiles.
The customer uses his own partners and suppliers while Byborre supplies the machinery and parameters needed to manufacture the desired fabrics.
Byborre could be described as a kind of “translator,” interpreting between us, the machine manufacturers, and those who use the fabrics that are made on our machines.
We as engineers know of course what our machines are capable of accomplishing. Jointly with Byborre we coax new designs and uses out of these capabilities.
Apart from that we cooperate in various bodies such as the VDMA’s Marketing and Trade Fair Committee.
These, however, are not cooperation arrangements arising from or as a consequence of Covid-19. We have no such cooperation to report.

What initiatives or approaches for your industry would you welcome for the near future?
A positive mention must be made of offers by the state government to assist with digitisation projects that we must all take forward.
A strengthening of regional production would also be desirable. That said, even I cannot imagine how that could be achieved other than for high-quality or niche products.

What would you like to see as part of the German textile industry?
Do you feel that the status of the German textile industry has changed as a result of the pandemic, especially in respect of public procurement?

Although “textile” is part of our description as textile machinery manufacturers, our actual home is in the second part of the name – in mechanical engineering. Its status in Germany is, as is known, very high.
That of the textile industry is, from my external vantage point, unchanged. At the beginning of April, when face masks were desperately sought, there were many good intentions, but German firms that offered to manufacture them were refused long-term assurances by the government.
So naturally nobody invested in the idea and everything will probably remain as it is, with the price reigning supreme and competition continuing unabated.

Until now the big issues have been globalisation, sustainability / climate change / environmental protection, digitisation, the labour market situation and so on.
Where do they stand now and how must we rate them against the backdrop of the Covid-19 pandemic?

The overriding issue right now is Covid-19, and everything else is subordinated to it. At the same time it functions like a magnifying glass. Take precarious jobs, for example. The high rates of infection in abattoirs have meant that they can no longer be ignored. Covid-19 has also created facts in respect of environmental protection. Next to nobody is flying, people are working from home and doing less shopping. That leads to lower emissions. The ailing global economy is a blessing for the planet. Germany too is likely to be on climate target for 2020; without corona we would have failed to do so. As for globalisation, it is at least marking time as regional production fills part of the bill.
How long that will continue to be the case remains to be seen, of course, but it is clear that we can be extremely flexible if we need to be.
 
What lessons are to be learnt in respect of these targets for the post-corona era?
There is unlikely to be a “post-corona era” inasmuch as we will no longer get rid of the virus. We must learn to cope with it.
The virus or rather the restrictions it has imposed on us have forced us to be creative. We must deal with existing processes differently – both in private life and professionally. By that I mean such everyday activities as shopping as well as Web meetings and working at home, which was not previously a widespread option at our company. They have certainly made us more efficient.
Another realisation applies to us as an SME just as it does to politics. We have an opportunity to master the crisis and maybe even gain in strength and size from it. But only because we have invested sensibly when times were good and above all managed our business soundly and solidly.

This interview was conducted by Ines Chucholowius, CEO Textination GmbH

Source:

Textination GmbH

Photo: Pixabay
28.04.2020

Meltblown Productive: Fraunhofer ITWM vs. Corona - With Mathematics Against the Crisis

  • Meltblown Productive – ITWM Software Supports Nonwoven Production for Infection Protection

Simulations by the Fraunhofer Institute for Industrial Mathematics ITWM make processes in the manufacturing of nonwovens more efficient. Within the anti-corona program of Fraunhofer the production of infection protection is optimized.
 
Nonwovens production is currently attracting more attention than ever before from the general public, because in times of the corona pandemic, nonwovens are vital for infection protection in the medical sector and also for the protection of the entire population. Disposable bed linen in hospitals, surgical gowns, mouthguards, wound protection pads and compresses are some examples of nonwoven products.

  • Meltblown Productive – ITWM Software Supports Nonwoven Production for Infection Protection

Simulations by the Fraunhofer Institute for Industrial Mathematics ITWM make processes in the manufacturing of nonwovens more efficient. Within the anti-corona program of Fraunhofer the production of infection protection is optimized.
 
Nonwovens production is currently attracting more attention than ever before from the general public, because in times of the corona pandemic, nonwovens are vital for infection protection in the medical sector and also for the protection of the entire population. Disposable bed linen in hospitals, surgical gowns, mouthguards, wound protection pads and compresses are some examples of nonwoven products.

IEspecially in intensive care and geriatric care, disposable products made of nonwovens are used due to the special hygiene requirements. At the moment there are clear bottlenecks in the production of these materials. For the meltblown nonwovens class, however, it is difficult to increase production efficiency because meltblown processes are highly sensitive to process fluctuations and material impurities.
 
Although nonwovens are not all the same, the rough principle of their production is relatively similar to all industrially manufactured nonwovens: molten polymer is pressed through many fine nozzles, stretched and cooled down in an air stream and thus deposited into the typical white webs. "Meltblown" stands for the submicron fiber process whose nonwovens are responsible for the decisive filter function in face masks.
 
With meltblown technology, nonwoven fabrics are produced directly from granules. A special spinning process in combination with high-speed hot air is used to produce fine-fibered nonwovens with different structures. The fibers are highly stretched by the turbulent air flow. During this process they swirl in the air, become entangled and fall more or less randomly onto a conveyor belt where they are further consolidated - a very complex process. Nonwovens manufacturers around the world are striving to massively increase their production capacities.
 
Digital Twin Optimizes Meltblown Process    
This is where the software of the ITWM comes into play. "Our Fiber Dynamics Simulation Tool FIDYST is used to predict the movement of the fibers, their falling and the orientation with which they are laid down on the conveyor belt. Depending on the process settings, turbulence characteristics are generated and thus nonwoven qualities are created that differ in structure, fiber density and strength," explains Dr. Walter Arne from the Fraunhofer ITWM. He has been working at the institute for years on the simulation of various processes involving fibers and filaments.

The methodology is well transferable to meltblown processes. In these processes, one of the specific features is the simulation of filament stretching in a turbulent air flow - how the stretching takes place, the dynamics of the filaments and the diameter distribution. These are all complex aspects that have to be taken into account, but also the flow field or the temperature distribution. The simulations of the scientists at the Fraunhofer ITWM then provide a qualitative and quantitative insight into the fiber formation in such meltblown processes - unique in the world in this form when it comes to simulate a turbulent spinning process (meltblown).

Nonwoven Manufacturers benefit from Simulation
What does this mean for the industry? The production of technical textiles becomes more efficient, but the nonwovens can also be developed without having intensive productions tests in a real facility. This is because the simulations help to forecast and then optimize the processes using a digital twin. In this way, production capacities can be increased while maintaining the same product quality. Simulations save experiments, allow new insights, enable systematic parameter variations and solve up-scaling problems that can lead to misinvestments during the transition from laboratory to industrial plant.

Making a Contribution to Overcome the Crisis With Many Years of Expertise
"We want to demonstrate this in the project using a typical meltblown line as an example - for this we are in contact with partner companies," says Dr. Dietmar Hietel, head of the department "Transport Processes" at the Fraunhofer ITWM. "Within the framework of Fraunhofer's anti-corona program, we want to use our developed expertise and our network to contribute to overcome the crisis", reports Hietel. His department at the Fraunhofer ITWM has been pursuing research in the field of technical textiles for around 20 years. Due to its current relevance, the project not only got off to a quick start, but the implementation and results should now also be implemented quickly: The project is scheduled to run from April 15th 2020 to August 14th 2020. The kick-off meeting took place on April 17th 2020 via video conference.
 
The project "Meltblown productive" and the results are certainly interesting for nonwoven producers. The production of many mass products has often been outsourced to Asia in the past decades; the nonwovens manufacturers remaining in Germany and Europe tend to focus more on high-quality technical textiles. In the medium and longer term, this will also be a scientific preliminary work when production capacities in Germany and Europe are expanded by new plants. One lesson to be learned from the crisis will also be to reduce the dependence on producers in Asia, especially as a precautionary measure for crisis scenarios.

Source:

Fraunhofer Institute for Industrial Mathematics, ITWM

Protective masks for Augsburg University Hospital (c) Fraunhofer IGCV
14.04.2020

Protective equipment from 3d printers

  • Fraunhofer IGCV supplies protective equipment made via 3d printers to university hospital Augsburg

For more than a week, the Institute for Materials Resource Management at the University of Augsburg has been supplying the University Hospital Augsburg with protective masks from 3D printers. In order to meet the enormous demand for absolutely necessary protective equipment for the the needs of hospital staff, a call for support was sent to cooperation partners - Augsburg University of Applied Sciences and Fraunhofer IGCV are stepping in.
 

  • Fraunhofer IGCV supplies protective equipment made via 3d printers to university hospital Augsburg

For more than a week, the Institute for Materials Resource Management at the University of Augsburg has been supplying the University Hospital Augsburg with protective masks from 3D printers. In order to meet the enormous demand for absolutely necessary protective equipment for the the needs of hospital staff, a call for support was sent to cooperation partners - Augsburg University of Applied Sciences and Fraunhofer IGCV are stepping in.
 

Fast communication in the research network:
Production of 3D-printed parts accelerates in the shortest possible time
Without further ado, an internal university group searched for possibilities of manufacturing via 3D printing. Prof. Dr. Markus Sause and Prof. Dr. Kay Weidenmann of the Institute for Materials Resource Management at the University of Augsburg immediately agreed and pulled out all the stops to start production as quickly as possible. In order to provide as many protective masks as possible in the shortest possible time, an appeal was also made to existing cooperation partners. They found what they were looking for in their direct colleague Prof. Dr. Johannes Schilp, Professor of Production Informatics at the University of Augsburg and Head of the Processing Technology Department at the Augsburg Fraunhofer IGCV: Max Horn, research associate at the Fraunhofer Institute, and Paul Dolezal from the FabLab (production laboratory) at Augsburg University of Applied Sciences immediately promised their help. "Thanks to the excellent cooperation of our team, the first parts were produced in our laboratory for additive manufacturing just a few hours after the first telephone call," Max Horn recalls. "With the support of the Augsburg University of Applied Sciences and the Fraunhofer IGCV, the production capacity of 50 masks per day could be significantly increased," Markus Sause is pleased to report.
          

Printing masks with Fused Deposition Modeling (FDM)
Fused Deposition Modeling (FDM) was selected as the manufacturing process for the face protection. This means that the mask is created by forcing fusible plastic through a nozzle and applying it in layers in individual lanes. In addition to an extensive laboratory for metal-based additive manufacturing, the Fraunhofer IGCV operates a new laboratory unit with various FDM printers. Due to the simplicity of the process and its great flexibility, it is particularly suitable for prototypes and sample components. "However, the masks produced are by no means only illustrative objects", adds Georg Schlick, Head of the Components and Processes Department at the Fraunhofer IGCV. The team processed durable polymers for the parts, which have good resistance to the disinfectants used in the hospital. This results in high-quality components that are ideally suited for multiple use.
 
Additive manufacturing for flexible production
In the meantime, some bottlenecks have been overcome: The Institute for Materials Resource Management at the University of Augsburg is switching back to production processes for the manufacture of face masks that are better suited for the production of large quantities. "The great strength of additive manufacturing lies rather in the production of very complex components with smaller quantities," explains Matthias Schmitt, group leader for additive manufacturing at the Fraunhofer IGCV. "But 3D printing also enables us to act at very short notice and to compensate for lack of capacity for almost any component as required," Schmitt continues. Thanks to the flexibility, motivation and expertise of all cooperation partners, a complete production and supply chain for the face masks was implemented within a few days. Georg Schlick therefore emphasizes the need for good networking and rapid exchange between the research institutions. "The close networking within the 3D printing community enables short communication channels and fast action. This can save lives in this case."

Source:

Fraunhofer Institute for Casting, Composite and Processing Technology IGCV

Foto: Pixabay
07.04.2020

Natural textile sector responds to Corona with creativity and cooperation

While you can read everywhere that the fashion industry is on the verge of collapse and is demanding funding from the government, many textile and leather companies with an ethical background are actively and jointly working on creative solutions so to avoid closing.
It is now becoming clear that smaller sustainability pioneers have some advantages over the retail giants and big brands. Flexibility, a strong connection between suppliers and customers and credibility are now paying off.

While you can read everywhere that the fashion industry is on the verge of collapse and is demanding funding from the government, many textile and leather companies with an ethical background are actively and jointly working on creative solutions so to avoid closing.
It is now becoming clear that smaller sustainability pioneers have some advantages over the retail giants and big brands. Flexibility, a strong connection between suppliers and customers and credibility are now paying off.

Mobility is trump card
The precarious economic situation in the stationary retail sector forces companies to take new and creative paths. Close and emphatic customer loyalty and the flexibility of smaller shopkeepers pave the way. And the ideas and measures are manifold. Some redirect their goods to online trading, offer a delivery service.  Life videos from the shops, which present and explain the goods, or participation campaigns for consumers are further examples. Manufacturers and brands are also rethinking. For example, some companies are producing face masks to cushion the decline in sales somewhat, while others are shifting the short-term production focus to basic products that are easy to market online.
 
Supply chain safety
The leather and textile industry are currently not only facing the problem of falling sales. The fragile global markets, which supply raw materials and services for large corporations, are currently becoming a threat. If the economies in China and Bangladesh come to a standstill, the German fashion market will no longer be able to obtain sufficient goods in the short term. Companies that produce in Germany or in other economically stable countries are now at an advantage.  Some of the companies that purchase raw materials from abroad are already ordering them for the next production cycle, on the one hand to give the supplier a certain amount of security, and on the other hand to be prepared for the post Corona era.

Community spirit
An ethical business practice does not only mean acting in an environmentally and socially responsible manner with regard to supply chains. Credibility, trust and empathy are just as important now if the fashion industry does not want to lose itself in price dumping and fierce competition. The press talks about billion-dollar cancellations, corona bargains and bankruptcies. Many IVN members show that there is another way. Suppliers tell us that they are holding back orders until the end of April in order to give the trade some financial leeway. Retailers usually at least consult with their suppliers if they are unable to call up a complete order. Retailers with online shops spontaneously take in goods from friendly brands, even if the products do not fit into the company's own portfolio. Brands advertise their customers' sales channels in social media, orders are bundled. People talk to each other - the customer with the supplier, but also competitors with competitors.

Slow fashion
Conventional fashion is subject to extremely fast cycles - "fast fashion" is the keyword. To a lesser extent, the fashion industry at least follows the seasonal seasons. Currently, the spring collection is hanging in the shops and cannot be sold in June. This is no different for sustainable fashion. However, the fashion trends are less pronounced, so that the current merchandise can still be worn next spring. The sustainable consumer attaches somewhat less importance to the fashion aspect and green fashion is fashionable but also tends to be more timeless than conventional fashion.

The mood
Naturally, companies from the natural fashion scene are now also forced to reduce their operating costs if they want to survive. This means short-time work, and if the situation continues for a longer period of time, this will certainly include layoffs. And of course, all niche market players are also deeply concerned. But whoever we have spoken to so far, we hear stories of opportunity, gratitude and activity.
Some see an opportunity in involuntary pauses - for example, this forced pause is certainly beneficial to climate protection. There is a very real chance also, that the fashion cycle can now be shifted back a month and thus be brought back into line with the real situation.

Many IVN members are grateful, for example, that they are based in Germany. The health care system is at least still stable at present and the black zero enables our government to set up a rescue fund. Many are also grateful for the solidarity and trust that is shown to them. From the end consumer to the business partner to the landlord, who would rather reduce or suspend a rent claim than lose a long-term tenant.
The mood is battered, but not yet in the basement. It is to be hoped that everyone will soon be able to resume their economic activities in the normal framework and that the privileges and advantages enjoyed by the sustainable fashion industry will be sufficient to ensure that everyone comes through this crisis as unscathed as possible.

 

Source:

Internationaler Verband der Naturtextilwirtschaft e.V.