Title :
Hall-Petch Type Behavior of Milled Nano-Powders
Author :
Danil, M. ; Radoi, R. ; Licea, I.
Author_Institution :
National Inst. for Res. & Dev. in Microtechnologies, Bucharest
Abstract :
A simple theoretical model was developed to explain the experimental Hall-Petch relationship obtained in the case of milled nano-powders. The decrease of the mean crystallite size and the increase of the relative lattice micro-strain r as function of the milling tune are well known experimental facts. The relative micro-strain versus reciprocal grain size epsiv=f(1/D) presents at the beginning a rapid increase and for large milling time tends to a constant value. The dependence epsiv=f(1/Dfrac12) is linear and in a good agreement with the experimental Hall-Petch relationship. This behavior is explained in the frame of the plastic deformation of a polycrystalline material due to the pile-up and movement of dislocations. The mechanism of grain size reduction is discussed in terms of the mechanical energy converted into heat and to the stored internal energy related to the melting point of the material
Keywords :
dislocation pile-ups; grain size; materials preparation; milling; nanoparticles; plastic deformation; yield stress; Hall-Petch type behavior; dislocation movement; grain size reduction; lattice microstrain; mean crystallite size; mechanical energy conversion; milled nanopowders; milling tune; plastic deformation frame; polycrystalline material; reciprocal grain size; Capacitive sensors; Crystalline materials; Crystallization; Grain size; Lattices; Milling; Nanoparticles; Plastics; X-ray diffraction; X-ray scattering;
Conference_Titel :
International Semiconductor Conference, 2006
Conference_Location :
Sinaia
Print_ISBN :
1-4244-0109-7
DOI :
10.1109/SMICND.2006.283933
