Impact of AC and DC Electric Fields on the Microstructure Evolution in Strontium Titanate

Abstract: Herein, the impact of AC and DC electric fields on microstructure evolution in strontium titanate is investigated. The focus is on nonthermal effects by using current‐blocking electrodes. The seeded polycrystal technique allows investigating the impact of a DC electric field on grain growth for different grain‐boundary orientations and the impact of the surrounding atmosphere. As in previous studies, faster grain growth is observed at the negative electrode. This effect is stronger for the (100) orientation an… Show more

“…By modifying the concentration of oxygen vacancies, the electric field indirectly influences grain growth behavior too and grain size gradients are thus observed in specimens submitted to a DC field. [ 16 ] Figure exemplarily explains the change of the cationic diffusion depending on the oxygen vacancy concentration gradient triggered by an electric field.…”

“…By modifying the concentration of oxygen vacancies, the electric field indirectly influences grain growth behavior too and grain size gradients are thus observed in specimens submitted to a DC field. [16]…”

A Perspective on Emerging and Future Sintering Technologies of Ceramic Materials

“…By modifying the concentration of oxygen vacancies, the electric field indirectly influences grain growth behavior too and grain size gradients are thus observed in specimens submitted to a DC field. [ 16 ] Figure exemplarily explains the change of the cationic diffusion depending on the oxygen vacancy concentration gradient triggered by an electric field.…”

“…By modifying the concentration of oxygen vacancies, the electric field indirectly influences grain growth behavior too and grain size gradients are thus observed in specimens submitted to a DC field. [16]…”

A Perspective on Emerging and Future Sintering Technologies of Ceramic Materials

The influence of electric fields on grain boundary mobility in alumina