PHASENANOCRACKER

The Metallurgical Nutcracker: Probing at the Nanoscale the Structure and Properties of Hard Second Phases in Alloys and Composites

 Coordinatore ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE 

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 Nazionalità Coordinatore Switzerland [CH]
 Totale costo 2˙496˙000 €
 EC contributo 2˙496˙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) 2012-05-01   -   2017-04-30

 Partecipanti

# participant  country  role  EC contrib. [€] 
1    ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE

 Organization address address: BATIMENT CE 3316 STATION 1
city: LAUSANNE
postcode: 1015

contact info
Titolo: Ms.
Nome: Caroline
Cognome: Vandevyver
Email: send email
Telefono: +41 21 693 4977
Fax: +41 21 693 5585

CH (LAUSANNE) hostInstitution 2˙496˙000.00
2    ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE

 Organization address address: BATIMENT CE 3316 STATION 1
city: LAUSANNE
postcode: 1015

contact info
Titolo: Prof.
Nome: Andreas
Cognome: Mortensen
Email: send email
Telefono: +41 21 693 2912
Fax: +41 21 693 4664

CH (LAUSANNE) hostInstitution 2˙496˙000.00

Mappa


 Word cloud

Esplora la "nuvola delle parole (Word Cloud) per avere un'idea di massima del progetto.

strengthen    brittle    phases    probe    metals    microstructural    composites    characterization    materials    local    mechanical    strength    particles    hard    metal    defects   

 Obiettivo del progetto (Objective)

'Our ambition is to probe the strength of “second” phases in multiphase metal alloys and composites, meaning of hard particles added to strengthen a metal, or alternatively of brittle inclusions that weaken it. Such phases are ubiquitous in structural metals; yet not much is known of the microstructural features that govern their strength. The underlying hypothesis of this project is that defects that limit the strength of such hard second phases can be identified and then altered by processing. Motivations for this enquiry stem from our previous research on metal composites, coupled with the fact that modern methods of nanoscale mechanical characterization now make such a quest feasible. Operationally, we plan to apply and extend nanomechanical testing to probe the strength of micrometric, irregularly shaped, hard particles currently used to strengthen metals. We aim to test such particles whole, and also for their local internal properties. Testing will rely on focused ion beam machining and adapted mechanical nanoprobing. These techniques will be combined to probe, using nanoindentation and original testing procedures, local and global strength values for hard second phase particles. Materials systems to be investigated are: (i) ceramic particles for the reinforcement of metal composites; (ii) silicon in aluminium, (iii) cementite and MC carbides in steel. Defects limiting the strength of these hard brittle phases suggested by nanoscopic mechanical testing will be identified using in-depth microstructural characterization, by electron microscopy notably, of both virgin and tested particles. The data will be supplemented by mechanical testing of macroscopic samples containing the hard particles in question. Processing routes will be explored, towards identification of strategies by which the strength of such second phases can be improved to improve, in turn, the performance of several important engineering materials.'

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