Lightweight structures using textile-reinforced composite materials offer numerous advantages over conventional designs and open up new fields of innovation, especially in vehicle and machinery engineering. Outstanding importance is here to be attached to the functionintegrating character of multi-material textile systems. The relatively new group of textile composite materials with thermoplastic matrix is predestined for efficient high-performance applications in the most varied branches of industry. Alongside the considerable weight reduction, they feature above all high strength and rigidity, positive damping and crash properties, broad diversity of textile technologies, economical manufacturing, and suitability for both small and large-series production.
From the point of view of materials science, constructive design and also technology, the variability of textile composites in combination with different materials has been investigated at best in only individual aspects to date and is yet to be exploited universally.
The goal of the Collaborative Research Centre is to elaborate scientific foundations and methods for the development and use of innovative textile composites for multi-material applications characterised by a high level of functional integration. For this the total process chain "from filament to component" is to be permeated in theory and realised exemplarily.
With its close relations to non-university research institutions, especially the TU Dresden embraces this Collaborative Research Centre. It is an ideal location for treatment of the envisaged research topics not least on account of its unique standing in the field in the German-speaking region. Interaction with the traditional industrial and textile research activities in the local region permits the Collaborative Research Centre to be seen as an innovation motor in the field of technical textiles, inducing sustained growth for the Saxon region, especially in respect of modern motor vehicle engineering.

DFG Programme Collaborative Research Centres

• A01 - Online-spun hybrid yarns for functional interphases in GF/PP composites (Project Heads Brünig, Harald ;  Mäder, Edith )
• A02 - Multiaxially reinforced knitted fabrics with a high number of layers for thermoplastic hybrid composites (Project Heads Cherif, Chokri ;  Krzywinski, Sybille )
• A03 - Flat-knitted and woven hybrid yarn textile spacer fabrics for sandwich structures (Project Head Hoffmann, Gerald )
• A04 - Prerequisites for reproducible textile preform production (Project Heads Cherif, Chokri ;  Großmann, Knut )
• A05 - Entwurf und Fertigung von multifunktionalen und adaptiven Kinematikmechanismen für 2D- und 3D-verstärkte Thermoplastverbunde (Project Head Modler, Karl-Heinz )
• B01 - Sewing-based assembly of textile components, spacer structures, selvedge structures and inserts (Project Heads Heinrich, Gert ;  Rödel, Hartmut )
• B02 - Calculation of stress concentrations in multi-layered knitted fabrics and textile-reinforced sandwich systems with insert elements (Project Head Lepper, Martin )
• B03 - Methodical development of and experimental investigation of into form-locking and combined joining tech-niques for textile-reinforced lightweight structures (Project Head Hufenbach, Werner )
• B04 - Bonding techniques achieving material closure in multi-material designs featuring textile-reinforced composites (Project Heads Beyer, Eckhard ;  Jansen, Irene )
• C01 - Mechanical characterization of textile-reinforced composites under short- and long-term thermomechanical loading (Project Head Gude, Maik )
• C02 - Calculation of complex, curved sandwich structures exhibiting significant variations in substructural stiffness (Project Heads Kästner, Markus ;  Ulbricht, Volker )
• C04 - Theoretical and experimental investigations into the structural-mechanical behaviour of textile-reinforced ther-moplastic composite components under crash and impact loading (Project Heads Gude, Maik ;  Langkamp, Albert ;  Modler, Karl-Heinz )
• D02 - Development of active textile-reinforced compliant structures with adjustable anisotropic characteristics (Project Heads Gude, Maik ;  Modler, Karl-Heinz ;  Modler, Niels )
• D03 - Integrated wireless sensor networks (Project Heads Fischer, Wolf-Joachim ;  Starke, Eric )
• D04 - Textile-specific processing and machining technologies for plane and single-curved demonstrator components (Project Heads Adam, Frank ;  Beyer, Eckhard ;  Großmann, Knut )
• E01 - Development of textile composite-adapted design and integration of functional interfaces (Project Heads Adam, Frank ;  Kostka, Pawel )
• E02 - Database-driven modeling and simulation of process chains with the aim of achieving the targeted adjustment of pre-defined characteristics and ensuring reproducible production of thermoplastic textile composite components (Project Heads Großmann, Knut ;  Grüber, Bernd ;  Hufenbach, Werner )
• MGK - Integrated Research Training Group (Project Head Ulbricht, Volker )
• T01 - NN (Project Heads Hufenbach, Werner ;  Mäder, Edith )
• T01 - Aufbereitung der richtungsabhängigen SFB-Werkstoffdaten und Werkstoffmodelle für die Bauteildimensionierung bei fertigungsgerechter Einstellung der Grenzflächeneigenschaften (Project Heads Hufenbach, Werner ;  Mäder, Edith )
• T02 - NN (Project Heads Cherif, Chokri ;  Ulbricht, Volker )
• T02 - Entwicklung von praxisgerechten Drapiersimulationsverfahren und Fertigung konturgerechter Halbzeuge (Project Heads Cherif, Chokri ;  Ulbricht, Volker )
• T05 - NN (Project Heads Lepper, Martin ;  Täger, Olaf )
• T05 - Vibrationsgerechte textile Tragstrukturen mit hoher Verbunddämpfung und Erprobung von Prototypen (Project Heads Lepper, Martin ;  Täger, Olaf )
• T07 - NN (Project Heads Langkamp, Albert ;  Modler, Karl-Heinz )
• T07 - Entwurf und Fertigung crashkompatibler Rahmentragwerke mit belastungsgerechten Knotenelementen (Project Heads Langkamp, Albert ;  Modler, Karl-Heinz )
• Z - Central Tasks (Project Head Hufenbach, Werner )

Applicant Institution Technische Universität Dresden

Participating Institution Fraunhofer-Institut für Photonische Mikrosysteme (IPMS); Fraunhofer-Institut für Werkstoff- und Strahltechnik (IWS); Leibniz-Institut für Polymerforschung Dresden e.V. (IPF)

Spokesperson Professor Dr.-Ing. Werner Hufenbach