From the Sector

Giorgio Calculli has been appointed new managing director of ACIMIT, the Association of Italian Textile Machinery Manufacturers. A law graduate with a Master’s degree in training and employment policies, he has been on staff at ACIMIT since 2006 as head of the Association’s training, internal relations and technical department. Calculli takes over as ACIMIT managing director from Federico Pellegata, who after 25 years managing the Association has been appointed CEO of ACIMIT Servizi srl, the company set up by ACIMIT to provide services in support of associated member companies for the promotion of the Italian textile machinery industry in Italy and abroad.

“It has been a truly enriching experience,” asserts Federico Pellegata, “for which I am grateful to our associated members, ACIMIT’s Board, and the Association’s presidents who have served during my years in ACIMIT. However, my commitment to continue to promote the Italian textile machinery sector by no means ends here. As CEO of ACIMIT Servizi, I will continue to work relentlessly to ensure that ITMA, the world’s primary textile machinery trade fair, remains a representative showcase for the success of Italian manufacturers in the sector, as has been the case for the editions of the exhibition held in Italy in 2015 and 2023.”

ACIMIT managing director Giorgio Calculli comments: “I wish to thank the Board of ACIMIT for the appointment and for the opportunity to lend continuity to the work carried out by Federico Pellegata, for whom the success enjoyed at the latest edition of ITMA is only the most evident expression. I will work to further develop the membership base and ensure member companies receive maximum support from the Association in their business activities.”

In recognition of his extraordinary engineering achievements in the fields of textile mechanical engineering, textile technology as well as textile chemistry and surface modification of textile semi-finished products, Prof. Paul Kiekens was awarded the title of Doctor honoris causa (Dr.-Ing. h.c.) on April 5, 2023.
 
Prof. Kiekens was a university professor at Ghent University, Belgium, for almost 35 years and thus responsible for textile-oriented education and research. Intensive interaction with European business and science was always particularly important to him.
 
Immediately after the fall of the Berlin Wall, he opened the way for international cooperation in teaching and research in the field of textile mechanical engineering, textile technologies, and textile chemistry for the only Eastern European university research institution with a textile orientation, the ITM (formerly ITB) at the Faculty of Mechanical Engineering of TU Dresden, and provided great and uncomplicated support. A close, lasting and intensive relationship developed, which had a trend-setting influence on the scientific career of Professor Paul Kiekens. This was reflected above all in the expert advice given for major projects.
 
These include, for example, the funded junior research group "Holistic approach to the development and modelling of a new generation of multiaxial fabrics for fibre composites to strengthen Saxon, French and Flemish industry in the high-performance sector" (SAXOMAX) and jointly acquiring the EU project "Large scale manufacturing technology for high performance lightweight 3D multifunctional composites" (3D-LightTrans). Especially in these large-scale projects, intensive cooperation with industrial partners was essential for success.
 
As early as the 1990s, Professor Paul Kiekens had the vision of creating a European network for universities in textile teaching and research. In 1994, the Association of Universities for Textiles (AUTEX) was founded with the aim of establishing teaching and research in the field of textile technology at an internationally respected level through joint concepts. Due to the prevailing cooperation at that time between Professor Dr. Paul Kiekens and Professor Dr. Peter Offermann, the TU Dresden, represented by the ITM (formerly ITB), has been a full member and decisively integrated in the network since its foundation on July 1, 1994. Thus Prof. Dr.-Ing. habil. Paul Kiekens has significantly promoted the international cooperation of the TU Dresden, Faculty of Mechanical Engineering with international university textile research institutions.
 
Professor Paul Kiekens was executive coordinator of AUTEX until his retirement. The internationally renowned symposium takes place annually as a part of AUTEX.

Dr. Harald Weber will become the new managing director of the VDMA Textile Machinery Association on 1 January 2023. The 44-year-old industrial engineer succeeds Thomas Waldmann, who has held the position since 1991 and will retire at the end of the year.

After completing his doctorate at the Technical University of Darmstadt and working as a lecturer at the University of Applied Sciences Mittelhessen (THM), Dr. Weber joined the VDMA in 2011. Since then, he has been responsible for the topics of technology and innovation in the Plastics and Rubber Machinery Association.

Dr. Janpeter Horn, Chairman of the VDMA Textile Machinery Association and Managing Director of August Herzog Maschinenfabrik, commented on the change of personnel: "From his previous work in the plastics industry, Dr. Weber has profound knowledge and experience in topics that are also gaining in importance in textile machinery manufacturing. Examples include recycling and the circular economy, as well as digitalisation and especially the communication standard OPC UA."

Dr. Horn added: "We combine our warm welcome to Dr. Weber with a big thank you to Thomas Waldmann. 30 years as managing director at the Textile Machinery Association also stand for constantly changing framework conditions. Mr. Waldmann has always had his finger on the pulse of the industry and, together with his team, has represented the special interests of the member companies: From technology policy to challenges of market access to the leading trade fair ITMA and the European association CEMATEX. ITMA 2007 in Munich was certainly a highlight. The executive board of the association wishes Mr. Waldmann all the best for the new phase of his life that is now beginning."

Die Verleihung der Förder- und Kreativitätspreise 2021 der Walter Reiners-Stiftung des VDMA, Fachverband Textilmaschinen an Studierende und Nachwuchswissenschaftler:innen deutscher Universitäten für Spitzenleistungen in Studium und Promotion fand am 09. November 2021 im Rahmen der Aachen-Dresden-Denkendorf International Textile Conference 2021 statt. Die bundesweit ausgeschriebenen Förder- und Kreativitätspreise wurden erneut online durch Herrn Peter D. Dornier, Vorstandsvorsitzender der Walter Reiners-Stiftung, verliehen.

Frau Dipl.-Ing. Irina Kuznik vom Institut für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM) der TU Dresden wurde mit dem 3.000 EUR dotierten Kreativitätspreis des Deutschen Textilmaschinenbaues 2021 für ihre exzellente Diplomarbeit „Entwicklung zur umweltfreundlichen Herstellung neuartiger Chitosanfasergarne unter Einsatz von ionischen Flüssigkeiten" ausgezeichnet.

In ihrer Diplomarbeit entwickelte Frau Kuznik einen völlig neuen Ansatz zur ökologischen und ökonomischen Herstellung von Chitosangarnen. Unter Nutzung ionischer Flüssigkeiten als gut geeignetes, neuartiges Lösungsmittel für Chitosan lässt sich Chitosan mit geringen Deacetylierungsgraden sowie reines Chitin erfolgreich auflösen. In einem Nassspinnverfahren können damit erzeugte Spinnlösungen zu neuartigen Chitosan- bzw. Chitinmonofilamenten mit sehr guten morphologischen Eigenschaften hergestellt werden. Des Weiteren lässt sich die ionische Flüssigkeit mittels eines Verdampfungsverfahrens aus dem Abwasser zurückgewinnen und wiederaufbereitet werden.

Klaus Heinrichs began working in marketing for the company in 1992. “From the very beginning until today Klaus used his great flair and networking skills to secure and improve the company’s international presence and public relations, especially at seven successive ITMA textile machinery exhibitions, beginning with the show in Milan in 1995,” said Monforts Marketing Manager Nicole Croonenbroek.  “Later, he also took care of customer service, sales administration and exports in his uniquely calm and quietly-spoken style.”

“He has always been a guarantor of successful product launches for Monforts technical and technological highlights such as the TwinAir principle of independent airflow regulation, the Hercules LTM stenter chain, the Econtrol® dyeing technology or the Montex®Coat device - to mention only a few.”

Klaus has also been active on the VDMA’s Exhibition and Marketing Committee since 1993, which he chaired from 2005 to 2008.  
“Klaus always enriched the industry discussions with practical and future-oriented proposals and thus also advanced ITMA,” said Thomas Waldmann, Managing Director of the VDMA Textile Machinery Association. “We sincerely thank him and wish him all the best for this new chapter of his life.”

“We will miss Klaus as a colleague and as a manager because of his skills, character and his engagement,” added Monforts Managing Director Stefan Flöth. “He truly represents the Monforts commitment to our customers to be helpful, accurate, fast and reliable, and we keep him as a friend. I’m sure the many friends he made throughout the world during his career with the company will join us in wishing him all the best for his next phase of life together with his family.”

* Econtrol is a registered trademark of Dystar Colours Distribution GmbH.

In early December, the chairman of the Walter Reiners Foundation of the VDMA Textile Machinery Association, Peter D. Dornier presented awards to six successful young engineers. Due to the Covid-19 pandemic, the award ceremony took place as a web conference for the first time.

Philippa Böhnke, ITM Dresden, and Juan Carlos Arañó Romero, ITA Aachen, were honoured with creativity awards for the cleverest bachelor or project work. The prizes are endowed with 3,000 euros each. Ms. Böhnke’s project dealt with composite implants for the repair and regeneration of bone defects. In his bachelor thesis, Mr. Arañó Romero has developed a spinning machine able to produce yarn with material from the moon. By this, the transport effort in space travel can be minimised, because insulating material for example necessary for a moon base can be produced on the moon directly.

Harry Lucas, TU Chemnitz, and Maximilian Speiser, Reutlingen University, were awarded two promotion prizes in the category master thesis with prize money of 3,500 euros each. The master thesis of Mr. Lucas deals with the development of a new knitting head for jacquard knitted fabrics, enabling a large variety of colours e.g. in the production of fan scarfs. Mr. Speiser showed in his master thesis a solution for increasing energy efficiency in the nonwovens process.

This year, two promotion prizes of the German Textile Machinery Industry in the dissertation category were awarded to Dr. Frederik Cloppenburg, ITA Aachen, and Dr. Annett Schmieder, TU Chemnitz. In his dissertation Mr. Cloppenburg developed a model for the optimisation of roller cards in the nonwovens process. Ms. Schmieder introduced in her dissertation a damage analysis system for fibre ropes. The system detects when a rope must be replaced e.g. in transport applications.

The award ceremony 2021 shall take place with physical presence again. It is scheduled for early May at the fair Techtextil in Frankfurt.

• Maßgeschneiderte integral gefertigte Implantate mittels einer neuartigen Webtechnologie

Das Wissenschaftler-Team Ronny Brünler und Phillip Schegner vom Institut für Textilmaschinen und Textile Hochleistungswerkstofftechnik (ITM) der TU Dresden wurde für ihre Entwicklungen, die maßgeblich in dem IGF-Forschungsvorhaben 19922 BR umgesetzt worden sind, für den diesjährigen Otto von Guericke-Preis der AiF nominiert.

Prof. Chokri Cherif, Institutsdirektor des ITM freut sich mit seinem Team sehr über die kontinuierlichen Forschungserfolge, die am ITM in zahlreichen interdisziplinären und branchenübergreifenden Forschungsvorhaben für insbesondere biomedizinische Anwendungen erzielt werden. „Nachdem wir bereits 2015 mit dem Otto von Guericke-Preis ausgezeichnet worden sind, ist die erneute Nominierung für diesen hochkarätigen Preis eine besondere Würdigung und gleichzeitig auch weiterer Ansporn für die Umsetzung unserer Forschungsergebnisse in die Industrie.“

In dem nominierten IGF-Forschungsvorhaben wurde die Entwicklung neuartiger textiler Herzklappenprothesen, die exakt an die anatomische Form angepasst und minimalinvasiv im Herz platzierbar sind, exzellent umgesetzt.

Für die Behandlung defekter Herzklappen stehen mechanische und biologische Klappen zur Verfügung. Die neuartigen gewebten Herzklappenprothesen sollen die Vorteile der beiden Herzklappentypen vereinen: unbegrenzte Lebensdauer, keine lebenslangen Einnahmen von Antikoagulationsmedikamenten und minimal invasive Operation. Ferner können die textilen Herzklappen zeit- und kostensparend mit hoher Reproduzierbarkeit und Qualität gefertigt werden. Mit Computertomographie-Daten wird ein 3D-Modell generiert, das in mehreren Schritten weiterentwickelt und als maschinenlesbarer Code in eine konventionelle Webmaschine übertragen wird. Somit wird eine reproduzierbare, kostengünstige Herstellung von neuartigen textilen, nahtlosen Schlauchstrukturen mit definierter Ventilfunktion mit gleichzeitig hoher Produktsicherheit realisiert.

Das überzeugte die Jury des Wissenschaftlichen Rates der Arbeitsgemeinschaft industrieller Forschungsvereinigungen (AiF), die das erfolgreiche Projekt in die Finalrunde um das "IGF-Projekt des Jahres 2020" wählte.

Das IGF-Vorhaben 19922 BR der Forschungsvereinigung Forschungskuratorium Textil e.V. wurde über die AiF im Rahmen des Programms zur Förderung der industriellen Gemeinschaftsforschung und -entwicklung (IGF) vom Bundesministerium für Wirtschaft und Energie aufgrund eines Beschlusses des Deutschen Bundestages gefördert.

• Herzog: Organic start of Industry 4.0 scenarios with an app
• Mahlo: Better production results with digital help
• Lindauer DORNIER: An addition to personalized services

On the occasion of a VDMA press conference themed “ITMA countdown” in Frankfurt, speakers from member companies Lindauer DORNIER, Herzog and Mahlo showed how Industry 4.0 solutions are going to impact the textile process chain and what technologies visitors can expect to see at ITMA 2019. The products examples of the respective companies made clear that Industry 4.0 is no end in itself but helps to improve production processes and results and supplements the range of services.

Interview 1

Interview 2

The Mechanical Engineering Industry Association (VDMA) has awarded two prizes to graduates of the Institut für Textiltechnik (ITA) of RWTH Aachen University - the dissertation prize and the creativity prize of the Walter Reiners Foundation of German Textile Machinery 2018. ITA alumnus Dr Benjamin Weise was awarded the dissertation prize for the development of novel fibres for textile charge storage devices. For their work on a guide to 4D product design, Jan Merlin Abram and Aalon Tal (both ITA students) were honoured with the creativity prize. The dissertation prize is endowed with €5,000 whilst the creativity prize contains a one-year scholarship of €250 per month. Peter D. Dornier, President of the Walter Reiners Foundation and Chairman of the Management Board of Lindauer DORNIER, presented the awards on the 18 September 2018 at the 18th Textile Machinery Forum in the Digital Capability Center in Aachen, Germany.

Graphene revolutionizes all-in-one - supercaps, reduction of terahertz radiation and antistatics

In his dissertation "Development of graphene-modified multifilament yarns for the production of textile charge storage devices", laureate Dr Benjamin Weise developed novel fibres made of polyamide and graphene and further processed them into textile surfaces. The newly developed polyamide graphene fibres are featuring a multitude of advantages:

• Due to their high performance in the charge storage area, they are predestined for use in double-layer capacitors, so-called super capacitors, or supercaps in short. Compared to lithium-ion batteries, supercaps offer significantly higher power density and a longer lifetime as no chemical reactions are taking place. towing to the graphene platelets in the filaments, it is now possible for the first time to integrate a charge storage device directly into a textile without having to sew in a rechargeable battery. This new fibre is therefore suitable for prospective use in smart textiles, for instance in a textile defibrillator.
• The new graphene-modified polyamide fibres can attenuate inident terahertz radiation up to 25 % of their original intensity. Terahertz radiation, for example, offers transmission rates of 100 Mbit/sec and is therefore of high interest for high-performance wireless communication. However, the radiation could damage sensible electronics as in aircrafts if this technology will be used widespread. Consequently, the shielding of the radiation is of high importance, e.g. in the form of fibre composite components in the aircraft, which protect the on-board electronics.
• As the fibres are showcasing a dissipative electrical conductivity, personal protective equipment is another prospective field of application.  

The development of a pilot process for graphene-modified fibres and the production of textile demonstrators are novel and disruptive attainments of Dr Weise’s PhD thesis and the reason for the award ceremony to him. Due to its outstanding properties, the European Union is funding research on graphene within the frame of the "Graphene Flagship" with an overall budget of one billion Euro (source: http://graphene-flagship.eu/project/Pages/About-Graphene-Flagship.aspx).

Modular product design of 4D products is now possible in simplified form

How can three-dimensional products change their shape over time and thus become "four-dimensional"? The students Jan Merlin Abram and Aalon Tal provide answers to this question in their project work "Leitfaden zur Auslegung hybrider morphender Textilien am Beispiel eines Scharniers" (Guidelines for the Design of Hybrid Morphing Textiles Using the Example of a Hinge), for which they were awarded the creativity prize. In their work, the students offer a guideline for the development of a four-dimensional textile from the idea to the demonstrator. Four-dimensional textiles, for example, consist of a hybrid material of elastic textile on which three-dimensional structures are printed. The fourth dimension describes the change in shape and/or a property over a defined period of time (= morphing).  This change is caused by external influences such as light and heat.

Every year, the Foundation of the German Textile Machinery awards prizes for the best dissertation, diploma or master's thesis and the creativity prize for the smartest student research project. Further prizes were awarded to Eric Otto, ITM Dresden, and Susanne Fischer, Reutlingen University.