Objetivo
The dominant mechanism for producing large irreversible (plastic) strain in atomic crystals is the motion of interacting dislocations, that are line defects in the crystalline lattice. Their collective dynamics plays a dominant role in plastic yield, strain bursts, micron-scale size effects and creep deformation at high temperatures. The project is motivated by the apparent technological need for developing a profound physically-based understanding of these phenomena. We will apply state-of-the-art experiments and well-established dislocation simulations to (i) investigate the stochastic properties of micron-scale plasticity and dislocation avalanches, (ii) explore the nature of the plastic flow transition, (iii) to develop a continuum plasticity model that accounts for boundaries and fluctuations and (iv) to investigate high temperature creep properties of 2D dusty plasma. By applying elements of non-equilibrium statistical mechanics we will develop higher scale models of these dislocation mediated phenomena. Completion of the project is expected not only to lead to top-level scientific results on the stochastic properties of collective dislocation dynamics but also to provide tools being promising candidates for further technological applications.
The EU contribution will help the applicant to establish himself as an individual researcher after his mobility period and contribute significantly to the scientific success of his research career. By improving the chances of his permanent integration, the grant would help to transfer the knowledge he acquired abroad to the host country, and enable him to maintain his scientific international co-operations. The funding will, therefore, contribute for the European Union to maintain a leading role in the field of plasticity and materials science in general.
Convocatoria de propuestas
FP7-PEOPLE-2012-CIG
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Régimen de financiación
MC-CIG - Support for training and career development of researcher (CIG)Coordinador
1053 Budapest
Hungría