Title :
Void growth in metal under irradiation as evolution nonlinear complex dynamic system
Author_Institution :
Phys. Dept., Univ. of Pretoria, Pretoria, South Africa
Abstract :
Any metal under irradiation is the example of the open, nonlinear system that is far away from thermal equilibrium. A theoretical approach to the void size and defect concentration evolution in irradiated metals is developed via formalism of Poincare and as function of irradiation conditions and metal properties. Due to nonlinear feed-back, there are three qualitatively different ways of evolution which take place in the present model. Values of the void radius and defect density can monotonously or not monotonously decrease, tend to a stationary value and perform self-oscillation in accordance with model parameters and initial state. Voids growth restriction is possible by the use of void evolution peculiarities.
Keywords :
crystal defects; radiation effects; voids (solid); defect concentration; irradiation; metal; nonlinear complex dynamic system; nonlinear system; self-oscillation; stationary value; thermal equilibrium; void growth; void size; Limit-cycles; Materials; Mathematical model; Metals; Microstructure; Radiation effects; Stationary state; evolution; irradiation; metal; non-linear feedbacks; point defects; voids;
Conference_Titel :
Complex Systems (ICCS), 2012 International Conference on
Conference_Location :
Agadir
Print_ISBN :
978-1-4673-4764-8
DOI :
10.1109/ICoCS.2012.6458507
