| People | Locations | Statistics |
|---|---|---|
| Naji, M. |
| |
| Motta, Antonella |
| |
| Aletan, Dirar |
| |
| Mohamed, Tarek |
| |
| Ertürk, Emre |
| |
| Taccardi, Nicola |
| |
| Kononenko, Denys |
| |
| Petrov, R. H. | Madrid |
|
| Alshaaer, Mazen | Brussels |
|
| Bih, L. |
| |
| Casati, R. |
| |
| Muller, Hermance |
| |
| Kočí, Jan | Prague |
|
| Šuljagić, Marija |
| |
| Kalteremidou, Kalliopi-Artemi | Brussels |
|
| Azam, Siraj |
| |
| Ospanova, Alyiya |
| |
| Blanpain, Bart |
| |
| Ali, M. A. |
| |
| Popa, V. |
| |
| Rančić, M. |
| |
| Ollier, Nadège |
| |
| Azevedo, Nuno Monteiro |
| |
| Landes, Michael |
| |
| Rignanese, Gian-Marco |
|
Täger, O.
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (24/24 displayed)
- 2018Development of a series capable production process for fiber-reinforced composites with thermoplastic matrices and material-integrated piezoceramic modulescitations
- 2017Combined semi-analytical and numerical vibro-acoustic design approach for anisotropic fibre-reinforced composite structurescitations
- 2016New manufacturing technology for material-hybrid lightweight solutions: An FRP-metal hybrid floor structure
- 2016New manufacturing technology for material-hybrid lightweight solutions using an FRP-metal hybrid floor structure as example,Neue fertigungstechnologie für werkstoff-hybrid-leichtbau-lösungen am beispiel einer fvk-metall-hybridbodenstruktur
- 2015Analytical study of the structural-dynamics and sound radiation of anisotropic multilayered fibre-reinforced compositescitations
- 2013Experimental study on the vibro- Acoustic properties of fibre-reinforced composites with integrated viscoelastic Ethylene-Propylene-Dien-Monomer (EPDM) rubber
- 2009Hebel-Hilfsmechanismus für Schließvorrichtungen einer Kraftfahrzeugkarosserie
- 2008Development of low noise light construction composite structures with vibro-acoustic optimized property profile,Entwicklung Geräuscharmer Leichtbauverbundstrukturen mit Vibroakustisch Optimiertem Eigenschaftsprofil
- 2007Contribution to active noise control by new production concepts for textile-reinforced thermoplastic composites with material-embedded piezo-ceramic modules
- 2007Actuating multistable textile combinations in kinematic conversion structures,Aktorische Multistabile Textilverbunde in Kinematische Ü bersetzungsstrukturen
- 2007Schädigungs- und Degradationsverhalten neuartiger multiaxial verstärkter Mehrlagengestrickverbunde aus Hybridgarnen
- 2007Innovative lightweight solutions by textile-reinforced thermoplastic composites with embedded material-adapted piezo-ceramic actuator modules
- 2007Dynamic response and sound radiation of textile-reinforced composite shells
- 2006Contribution to the development of active compliant lightweight mechanism structurescitations
- 2006Vibroakustik von mehrschichtigen Verbundkomponenten in Leichtbauweise
- 2006Advanced manufacturing techniques for textile-reinforced thermoplastic composites considering piezo-ceramic actuators
- 2006Design and manufacturing of smart textile compliant hinges
- 2005Development of textile-reinforced active 3-D compliant hinges
- 2005Dynamic behavior of high performance lightweight structures with composite-embedded actuators
- 2004Numerical design of hybrid carbon composites for high comfort applications
- 2004Coupled dynamic and sound radiation characteristics of anisotropic shear-elastic composites
- 2004Vibro-acoustic design of composites,Vibroakustische Verbundauslegung
- 2001Design of dynamically loaded fiber-reinforced structures with account of their vibro-acoustic behaviorcitations
- 2000Structural-dynamic and vibro-acoustic analysis of fibre-reinforced and sandwich structures
Places of action
| Organizations | Location | People |
|---|
article
Development of a series capable production process for fiber-reinforced composites with thermoplastic matrices and material-integrated piezoceramic modules
Abstract
Fiber-reinforced thermoplastic composites are widely used in technical applications, for example, in machine, automotive, and equipment industries. Reasons for this are the excellent and adaptable mechanical properties and the high potential of the associated manufacturing processes for a very efficient and resource-efficient production with larger volumes. However, these lightweight structures often show high vibration amplitudes and high resulting sound radiation due to their reduced weight and moments of inertia, which results in a decreased vibro-acoustic performance especially for dynamically loaded applications. Besides passive damping measures, active vibration control using piezoelectric transducers is a suitable option. The layer-wise built-up of the fiber-reinforced composites enables the integration of additional elements, such as flat sensors and actuators into this layup. This offers the possibility to embed piezoceramic modules to create function-integrative components, which are able to sense or generate vibrations. A main challenge for a successfully transfer of this technology into industrial applications is the development of appropriate series-capable manufacturing processes for integrating piezoceramic modules into composite structures. This contribution is intended to show a possibility to realize such a process. Here, the basic idea is to use thermoplastic polymers as matrix and raw materials in order to enable very efficient and fast production processes. But the major advantages of this new material concept, short cycle times, and relatively simple processing tools can only be facilitated, if some challenges, especially in regard to press processes, are overcome. The processing temperatures of thermoplastic based composites are higher than those for thermoset matric based composites. Integrating the piezoceramic modules, the Curie temperature may be exceeded, which will cause the depolarization of the piezoceramic elements. The presented newly developed manufacturing technology pays special attention to this fact. For the first time, this technology allows to realize a one shot technology for fiber-reinforced composites with thermoplastic matrices and integrated piezoceramic elements. Thereby, the focus is on the conception and analysis of the manufacturing process and experimental investigations to determine suitable material and processing parameters.