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Contenuto archiviato il 2024-06-18

Lightweight, Energy-Efficient Tooling for the Manufacturing of Rotor Blades

Obiettivo

This proposal argues that the main objectives of the undertaking, light-weight and energy-efficient tools, can be achieved by the creation of self-heating composite tools which are appli-cable in an RTM process. The aim is to establish a set of full-sized rotor blade tools for a low-cost and energy efficient RTM cycle. This contains two tools (upper and lower mold) for preforming, consecutively referred to as “preforming tool” and two molds that form the impregnation and curing cavity, consecutively referred to as “RTM tool”.

Considering the RTM tool, the self-heating property is to be achieved with heating elements that are integrated into the composite structure near the cavity surface. The carbon textile heat-ing elements are flexibly distributed in reference to the mould surface in such a manner, that temperature gradients over the entire tool can be created.
During the project alternative systems which offer the equivalent potentials for heating like electrically heat able coatings will be considered and evaluated. Enhanced local heating device capable of high and homogeneous temperature for tool manufacturing will be investigated.
Integration and enhancement of process simulation tools in the design process for the RTM tool will provide feedback on setup variants in terms of temperature and material property distri-bution like glass transition temperature and degree of cure, as well as the resulting part’s shape “as built”, and thereby will help to establish a RTM tool design including the advanced heating concept “first right”. Curing simulation is the tool of choice to analyse the thermal response of the tool part setup including the energy release due to the crosslinking reaction of the resin and is vital for virtual process and tool optimization.

To verify the achievements concerning environmental impact a gate to gate life cycle assessment will be performed.

Campo scientifico

CORDIS classifica i progetti con EuroSciVoc, una tassonomia multilingue dei campi scientifici, attraverso un processo semi-automatico basato su tecniche NLP.

Invito a presentare proposte

SP1-JTI-CS-2012-02
Vedi altri progetti per questo bando

Coordinatore

TECHNISCHE UNIVERSITAET MUENCHEN
Contributo UE
€ 276 750,00
Indirizzo
Arcisstrasse 21
80333 Muenchen
Germania

Mostra sulla mappa

Regione
Bayern Oberbayern München, Kreisfreie Stadt
Tipo di attività
Higher or Secondary Education Establishments
Contatto amministrativo
Elisabeth Ladstätter (Dr.)
Collegamenti
Costo totale
Nessun dato

Partecipanti (2)