On Cyclical Phase Transformations in Driven Alloy SystemsReportar como inadecuado

On Cyclical Phase Transformations in Driven Alloy Systems - Descarga este documento en PDF. Documentación en PDF para descargar gratis. Disponible también para leer online.

Metallurgical and Materials Transactions A

, Volume 39, Issue 5, pp 964–975

First Online: 08 December 2007


Cyclical phase transformations occurring in driven materials syntheses such as ball milling are described in terms of a free energy minimization process of participant phases. The oscillatory flow behavior of metals with low stacking fault energies during hot working is taken as a prototype in which a ductile crystalline phase sustains undulation in its free energy, due to the alternate succession of work-hardening and work-softening mechanisms. A time-dependent, oscillatory free energy function is then obtained by solving a delay differential equation DDE, which accounts for a time lag due to diffusion. To understand cyclical transitions on an atomistic scale, work is extended to molecular dynamics simulations. Under shear deformation, a two-dimensional nanocrystal shows cyclical transitions between an equilibrium rhombus and a nonequilibrium square phase. Three-dimensional simulations show crystalline-to-glass transitions at high strain rates, but very high shear strain rates are found to lead to a latticelike network structure in the plane perpendicular to the shear direction, with strings of atoms parallel to the shear direction.

This article is based on a presentation given in the symposium entitled -Solid-State Nucleation and Critical Nuclei during First Order Diffusional Phase Transformations,- which occurred October 15–19, 2006 during the MSandT meeting in Cincinnati, Ohio under the auspices of the TMS-ASMI Phase Transformations Committee.

Download fulltext PDF

Autor: Jong K. Lee

Fuente: https://link.springer.com/

Documentos relacionados