Objetivo
Many intelligent materials systems such as fibre composites with embedded pies-ceramics are derived, characterised and applied in smart structures on a laboratory scale without penetrating the existing design rules for engineered structures or being applied in mass products. Intelligent material systems have still an insufficient performance, require an unacceptable electronic periphery, a lack of data on their reliability and cannot be included in the standard design and manufacturing process. The objective of the proposed Integrated Project "Intelligent Materials for Active Noise Reduction (Inman)" is therefore the realization of intelligent, high performing adaptive material systems with integrated electronics able to be applied for noise mitigation purposes, even in highly loaded structures as construction material in the same manner as common passive or light weight materials are used. Aside from the pure development of the material systems itself this research also includes their characterization, simulation tools for the design process, handling and manufacturing techniques as well as their reliability. The newly designed intelligent material systems are applied to active noise reduction concepts based on Active Structural Acoustic Control (ASAC) or Active Noise Control (ANC) for Sound Quality Design. Out of manifold applications, noise problems in land-based traffic and related infrastructure such as buildings, bridges and tunnels are chosen for demonstration. It is expected that for automotives, trains and in civil engineering reduced noise radiation, emission and emission will become even more a design aspect, which cannot achieve by conventional materials and concepts. According to these objectives, Inman is structured in three technology areas dealing with intelligent materials systems, their integration and simulation and life-cycle aspects and in three applications scenarios for application and integration in automotives, trains and infrastructure.
Ámbito científico
- engineering and technologymechanical engineeringmanufacturing engineering
- engineering and technologymechanical engineeringvehicle engineeringaerospace engineering
- engineering and technologymaterials engineeringcomposites
- engineering and technologycivil engineering
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors
Palabras clave
Convocatoria de propuestas
FP6-2002-NMP-1
Consulte otros proyectos de esta convocatoria
Régimen de financiación
IP - Integrated ProjectCoordinador
MUENCHEN
Alemania
Ver en el mapa
Participantes (41)
GRAZ
Ver en el mapa
BERLIN
Ver en el mapa
BUDAPEST
Ver en el mapa
CAPUA - CASERTA
Ver en el mapa
ORBASSANO (TO)
Ver en el mapa
PARIS
Ver en el mapa
KÖLN
Ver en el mapa
IMMENSTAAD - BODENSEE
Ver en el mapa
HEVERLEE
Ver en el mapa
MÜNCHEN
Ver en el mapa
DUEBENDORF
Ver en el mapa
GOETTINGEN
Ver en el mapa
AACHEN
Ver en el mapa
KOLN
Ver en el mapa
SAN SEBASTIAN
Ver en el mapa
BARLEBEN
Ver en el mapa
PENTELI
Ver en el mapa
LEUVEN
Ver en el mapa
STOCKHOLM
Ver en el mapa
HEVERLEE
Ver en el mapa
BRESCIA
Ver en el mapa
ANGLEUR
Ver en el mapa
DELFT
Ver en el mapa
ESPOO
Ver en el mapa
MILANO
Ver en el mapa
BOULOGNE-BILLANCOURT
Ver en el mapa
WINTERTHUR
Ver en el mapa
PARIS LA DEFENSE
Ver en el mapa
EBIKON
Ver en el mapa
MUENCHEN
Ver en el mapa
DRESDEN
Ver en el mapa
DARMSTADT
Ver en el mapa
DELFT
Ver en el mapa
AUBAGNE
Ver en el mapa
HAMBURG
Ver en el mapa
BRUXELLES
Ver en el mapa
ENSCHEDE
Ver en el mapa
SOUTHAMPTON
Ver en el mapa
WOLFSBURG
Ver en el mapa
GOTHENBURG
Ver en el mapa
ESPOO
Ver en el mapa