NANOLAYERS FORMATION AT HYDRODYNAMIC INSTABILITY DEVELOPMENT UNDER THE EXTERNAL ENERGY EFFECTS

The attempt to interpret the experimentally established regularities of strengthening surface nanostructures formation under different energy effects (electro-explosive alloying, electron-beam treatment, rolling products thermomechanical strengthening due to accelerated cooling, severe mechanical action at long term operation) was made on unified position. The mathematical modeling of nanostructured states formation in consideration of equilibrium states instabilities development in surface layers (Kelvin–Helmholtz and Marangoni instabilities) was carried out, the corresponding dispersion equations were analyzed and the analytical dependences of instability decrement α on perturbation wave length λ in micro and nanoranges were established. The correspondence of numerical values of maximum observed on the α(λ) dependences to experimental nanostructure parameters was noted and its physical interpretation was made.

nanolayer, instability, surface, dispersion equation, decrement, wave length

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