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ICARUS

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Innovative Coarsening resistant Alloys with enhanced Radiation tolerance and Ult...

Innovative Coarsening resistant Alloys with enhanced Radiation tolerance and Ultra fine grained Structure for aerospace application ICARUS proposes a new thermodynamic methodology able to identify the elements and the relative chemical composition allowing a nanocrystalline state to occupy a relative minimum of the Gibbs free energy, which makes the nanostruct... see more

31/08/2019

UBU

3M€

Project Budget: 3M€

Project leader

UNIVERSIDAD DE BURGOS No se ha especificado una descripción o un objeto social para esta compañía.

total researchers 370

PARTICIPATION DEPralty Sin fecha límite de participación.

Ver 13 Participantes

Financing granted El organismo H2020 notifico la concesión del proyecto The day 2019-08-31

FETOPEN-RIA-2014-2015: FET-Open research projects Scope:Specific challenge: Supporting a large set of early stage, high risk visionary science and tec...

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13 Participantes

UBU

454.75K€ | Leader

EASN TIS

87.50K€ | participant

ADMATIS

197.50K€ | participant

AAC

197.50K€ | participant

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Project duration: 39 months Date Start: 2016-05-16
End date: 2019-08-31

Project leader

UNIVERSIDAD DE BURGOS No se ha especificado una descripción o un objeto social para esta compañía.

total researchers 370

Project Budget 3M€

participation deadline Sin fecha límite de participación.

Project description ICARUS proposes a new thermodynamic methodology able to identify the elements and the relative chemical composition allowing a nanocrystalline state to occupy a relative minimum of the Gibbs free energy, which makes the nanostructure reasonably stable against coarsening. This approach will be integrated, in synergy with multiscale and thermodynamic (Nano-Calphad) modeling, in order to implement a High-Throughput Screening (HTS) tool that will open a new horizon of discovery and exploration of multinary thermal stable nanocrystalline alloys, exhibiting superb tailored properties. ICARUS brings a radically new concept by addressing a still unsolved problem in the stabilization of nanocrystalline alloys. The materials discovery approach of ICARUS will be synergistic with the forefront industrial production technologies of nanomaterials and alloys. Results arising from ICARUS exploration will be materialized in specific demo compounds representative of carefully selected new alloys families that will change the present paradigm of EU aerospace industry. The most promising nanocrystallyne material identified will be synthesized by mechanical alloying and physical vapor deposition, and the obtained samples characterized toward the applicability in the aerospace sector. A proof of concept from its approach will be given and tested by experts and specialized industries working in the aerospace sector in close contact with NASA and ESA. In particular, ICARUS will demonstrate its potential by producing innovative coarsening-resistant nanocrystalline alloys with enhanced radiation tolerance (based on refractory metals), and light-weight high strength (based on Al, Mg, Ti) alloys.

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