2006
DOI: 10.1007/s10820-006-9021-1
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Computer simulation of the effect of post annealing parameters on the microstructure inhomogeneity of the non-uniformly deformed copper

Abstract: A computer simulation on the basis of the Finite Element Method and Monte Carlo Model is developed to simulate the microstructure of the non-uniformly deformed copper workpiece after annealing. Using the computer simulation, the effects of annealing time and temperature on the microstructure inhomogeneity of the workpiece are simulated and investigated quantitatively, by defining an Inhomogeneity Factor, to design an annealing program for reducing the microstructure inhomogeneity. The results show that with in… Show more

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Cited by 5 publications
(5 citation statements)
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“…forty rows of 200 sites. Since, in recrystallization of copper the nucleation phenomenon is site saturated [4], thus in this research for nucleation modeling, the site saturated model developed by the present author et al [33,34] is utilized:…”
Section: Computer Modeling Of Microstructure Inhomogeneitymentioning
confidence: 99%
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“…forty rows of 200 sites. Since, in recrystallization of copper the nucleation phenomenon is site saturated [4], thus in this research for nucleation modeling, the site saturated model developed by the present author et al [33,34] is utilized:…”
Section: Computer Modeling Of Microstructure Inhomogeneitymentioning
confidence: 99%
“…It should be mentioned that in the lattice the nuclei are given orientation ranging from 49 to Q s = 64 [30,33,34].…”
Section: Computer Modeling Of Microstructure Inhomogeneitymentioning
confidence: 99%
See 1 more Smart Citation
“…Holm et al . and Kazeminezhad et al . also used coupled FEM–MC schemes to investigate the recrystallization behavior of copper, whereas the static recrystallization of low–carbon ferritic steels were studied by Volovitch et al .…”
Section: Introductionmentioning
confidence: 99%
“…Radhakrishnan et al [31] and other researchers applied this approach to model the cold [32][33][34] or hot [35] deformation and further annealing of aluminum connecting finite element and Monte Carlo methods. Holm et al [36] and Kazeminezhad et al [37] also used coupled FEM-MC schemes to investigate the recrystallization behavior of copper, whereas the static recrystallization of low-carbon ferritic steels were studied by Volovitch et al [38] and the dynamic recrystallization (DRX) of a tin-rich lead-free solder was investigated by Li et al [39] FEM-CA coupling was a point of interest as well. Raabe and Becker [40] modeled the static recrystallization of aluminum, Zambaldi et al [41] calculated the deformation, recrystallization and texture evolution of a single crystal nickel-based superalloy, Zheng et al [42] simulated the SRX kinetics of a low carbon steel by the linked FEM-CA methodology.…”
Section: Introductionmentioning
confidence: 99%