Spark plasma sintering microscopic mechanisms of metallic systems: experiments and simulations - Archive ouverte HAL
Article Dans Une Revue Journal of the American Ceramic Society Année : 2018

Spark plasma sintering microscopic mechanisms of metallic systems: experiments and simulations

Résumé

The microscopic densification mechanisms of metallic systems (TiAl, Ag-Zn) by spark plasma sintering (SPS) have been studied by simulations and experiments. Finite element simulations showed that, despite very high current densities at the necks between metallic powder particles (≈ 5×10 4 A/cm 2), only very limited Joule overheating can be expected at these locations (< 1°C), because of very fast heat diffusion. The microscopic plasticity mechanisms under these high electric currents have been studied by transmission electron microscopy. For this purpose, thin foils have been extracted by focused ion beam at the necks between TiAl powder particles. This is the first time, to our knowledge, that microscopic plasticity mechanisms at the necks between powder particles are investigated by TEM during 2 densification of a metallic powder. Dislocation glide and climb mechanisms were identified, followed by recovery and recrystallization. The elementary mechanism kinetically controlling these phenomena is proposed to be bulk diffusion of Al, which activation energy (360 kJ/mol) is close to the activation energy measured for densification (308 ± 20 kJ/mol). Comparisons of densification kinetics by SPS (≈ 60-110 A/cm 2) and by hot pressing (0 A/cm 2) showed no influence of current on these mechanisms. Finally, reaction experiments in the Ag-Zn system did not show any influence of very high currents (> 1000 A/cm 2) on diffusion kinetics. Consequently, densification by SPS occurs by classical mechanisms not affected by the current.
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Dates et versions

hal-01907558 , version 1 (29-10-2018)

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Zofia Trzaska, Christophe Collard, Lise Durand, Alain Couret, Jean-Marc M Chaix, et al.. Spark plasma sintering microscopic mechanisms of metallic systems: experiments and simulations. Journal of the American Ceramic Society, 2018, ⟨10.1111/jace.15999⟩. ⟨hal-01907558⟩
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