MOCOPOLY

"Multi-scale, Multi-physics MOdelling and COmputation of magneto-sensitive POLYmeric materials"

Coordinatore	FRIEDRICH-ALEXANDER-UNIVERSITAT ERLANGEN NURNBERG    more Spiacenti, non ci sono informazioni su questo coordinatore. Contattare Fabio per maggiori infomrazioni, grazie.
Nazionalità Coordinatore	Germany [DE]
Totale costo	2˙498˙000 €
EC contributo	2˙498˙000 €
Programma	FP7-IDEAS-ERC Specific programme: "Ideas" implementing the Seventh Framework Programme of the European Community for research, technological development and demonstration activities (2007 to 2013)
Code Call	ERC-2011-ADG_20110209
Funding Scheme	ERC-AG
Anno di inizio	2012
Periodo (anno-mese-giorno)	2012-04-01   -   2017-03-31

 Partecipanti

#	participant	country	role	EC contrib. [€]
1	FRIEDRICH-ALEXANDER-UNIVERSITAT ERLANGEN NURNBERG  Organization address address: SCHLOSSPLATZ 4 city: ERLANGEN postcode: 91054 contact info Titolo: Ms. Nome: Kathrin Cognome: Linz-Dinchel Email: send email Telefono: +49 9131 8526471 Fax: +49 9131 8526239	DE (ERLANGEN)	hostInstitution	2˙498˙000.00
2	FRIEDRICH-ALEXANDER-UNIVERSITAT ERLANGEN NURNBERG  Organization address address: SCHLOSSPLATZ 4 city: ERLANGEN postcode: 91054 contact info Titolo: Prof. Nome: Paul Alfred Cognome: Steinmann Email: send email Telefono: +49 9131 85 28501 Fax: +49 9131 85 28503	DE (ERLANGEN)	hostInstitution	2˙498˙000.00

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 Obiettivo del progetto (Objective)

'MOCOPOLY is a careful revision of an AdG2010-proposal that was evaluated above the quality threshold in steps1&2. In the meantime the applicant has made further considerable progress related to the topics of MOCOPOLY. Magneto-sensitive polymers (elastomers) are novel smart materials composed of a rubber-like matrix filled with magneto-active particles. The non-linear elastic characteristics of the matrix combined with the magnetic properties of the particles allow these compounds to deform dramatically in response to relatively low external magnetic fields. The rapid response, the high level of deformations achievable, and the possibility to control these deformations by adjusting the external magnetic field, make these materials of special interest for the novel design of actuators for a fascinating variety of technological applications. It is the overall objective of this proposal to uncover the process-microstructure-properties relations of the emerging novel multi-scale, multi-physics material class of magneto-sensitive polymers with the aim to better exploit its promising potential for future, currently unimagined technological applications. This objective will only be achieved by performing integrated multi-disciplinary research in fabrication, characterisation, modelling, simulation, testing and parameter identification. This proposal therefore sets up a work programme consisting of nine strongly interconnected work packages that are devoted to 1) fabrication of magneto-sensitive polymers, 2) microstructure characterisation by modelling and simulation, 3) microstructure characterisation by CT-scanning, 4) continuum physics modelling at the micro-scale, 5) computational multi-physics homogenisation, 6) continuum physics modelling at the macro-scale, 7) testing at the macro-scale, 8) multi-scale parameter identification and 9) macro-scale parameter identification. The work programme is therefore characterised by various feedback loops between the work packages.'