Abstract
The objective of this work is to describe the physics of super plastic flow in spatially extended polycrystalline systems. In recent contributions, the activation energy for super plastic flow in spatially extended polycrystalline systems has been obtained by applying the quantum mechanics and relativistic mathematical model proposed by Munoz-Andrade. In this framework, in the present contribution the activation energy for super plastic flow in spatially extended polycrystalline systems dependence on strain rate and phase velocity de Broglie are obtained, as well, the nature determination of the wavelength of the cellular dislocations \(\lambda _ \bot \) wave associated with super plastic flow. Additionally, the main results of this work are analyzed in the context of the cosmic micromechanics connection during super plastic flow in spatially extended polycrystalline systems.
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