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Article Dans Une Revue International Journal of Plasticity Année : 2017

Kocks-Mecking analysis of the size effects on the mechanical behavior of nickel polycrystals

Résumé

In this article, the Kocks-Mecking formalism is employed to analyze the grain size and thickness effects which modify the mechanical behavior of nickel polycrystals. To this aim, a two-internal variable Kocks-Mecking model, based on the evolution of forest and mobile dislocation densities, is numerically optimized using a wide experimental database of tensile curves of nickel polycrystals already published. The original model has been modified to take into account the grain size contribution to strain hardening in addition to the conventional dislocation production and annihilation terms. Using this improved model, the tensile curves of samples with different grain sizes, thicknesses and number of grains across the thickness are well reproduced. By means of an analysis of the model parameters, i.e. dislocation mean free path, cross-slip rate and dislocation densities, the strain mechanisms of nickel polycrystals are investigated as a function of their microstructural characteristics. For specimens with few grains across the thickness, the rate of dislocation annihilation is increased which, in turn, decreases the forest dislocation density and stress level. These results show, first, that the well-known Kocks-Mecking model is able to reproduce size effect and, second, confirm previous assumptions about the mechanical behavior of miniaturized samples. Eventually, the modeling of the mechanical behavior for samples concerned by miniaturization taking into account the surface effect contribution is discussed.
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Dates et versions

hal-01766068 , version 1 (13-04-2018)

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Clément Keller, E. Hug. Kocks-Mecking analysis of the size effects on the mechanical behavior of nickel polycrystals. International Journal of Plasticity, 2017, 98, pp.106 - 122. ⟨10.1016/j.ijplas.2017.07.003⟩. ⟨hal-01766068⟩
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