Quasicrystals are intrinsically quasiperiodic alloys in which local atomic changes prominently influence the gross mechanical behavior. The coupling between macroscopic deformation and events at atomic scale (phason activity) seems to have stochastic nature. We propose an appropriate way to model it and anticipate the existence of clustering and self-organization of gross deformation and substructural changes by using Monte Carlo and finite element techniques.
Stochastic clustering and self-organization of gross deformation and phason activity in quasicrystals: modeling and simulations
GIOFFRE', Massimiliano
2006
Abstract
Quasicrystals are intrinsically quasiperiodic alloys in which local atomic changes prominently influence the gross mechanical behavior. The coupling between macroscopic deformation and events at atomic scale (phason activity) seems to have stochastic nature. We propose an appropriate way to model it and anticipate the existence of clustering and self-organization of gross deformation and substructural changes by using Monte Carlo and finite element techniques.File in questo prodotto:
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