Title : ( Modeling of microstructure and mechanical behavior of ultra fine grained aluminum produced by accumulative roll-bonding )
Authors: Abolfazl Rezaee Bazzaz , saeed ahmadian , HAMED REIHANI ,
Full TextAbstract
Mechanical behavior of AA1100 aluminum alloy processed by accumulative roll-bonding was modeled on the basis of a generalized three-dimensional dislocation-density-based two-phase composite model. The simulated yield stress and cell size were compared with the experimental data, obtained by accumulative roll-bonding after several passes. A good agreement between experimental and simulated results was obtained. The results showed that both yield stress and average cell size of the ultra fine grained materials, produced by accumulative roll-bonding, can be simulated using a dislocation-density-based two-phase model. Moreover, dynamic recovery in cell interior was governed by cross slip, while climb processes were responsible for that in cell walls.
Keywords
, Non-ferrous metals and alloys, Forming, Plastic behavior
@article{paperid:1022190,
author = {Rezaee Bazzaz, Abolfazl and Ahmadian, Saeed and REIHANI, HAMED},
title = {Modeling of microstructure and mechanical behavior of ultra fine grained aluminum produced by accumulative roll-bonding},
journal = {Materials and Design},
year = {2011},
volume = {32},
number = {8},
month = {September},
issn = {0261-3069},
pages = {4580--4585},
numpages = {5},
keywords = {Non-ferrous metals and alloys; Forming; Plastic behavior},
}
%0 Journal Article
%T Modeling of microstructure and mechanical behavior of ultra fine grained aluminum produced by accumulative roll-bonding
%A Rezaee Bazzaz, Abolfazl
%A Ahmadian, Saeed
%A REIHANI, HAMED
%J Materials and Design
%@ 0261-3069
%D 2011
