Electro‐Sintering of Yttria‐Stabilized Cubic Zirconia

Abstract

Electro‐sintering, i.e., electrically enhanced densification without the assistance of Joule heating, has been observed in 70% dense 8 mol% Y 2 O 3 ‐stabilized ZrO 2 ceramics at temperatures well below those for conventional sintering. Remarkably, full density can be obtained without grain growth under a wide range of conditions, including those standard for solid oxide fuel cell ( SOFS ) and solid oxide electrolysis cell ( SOEC ), such as 840°C with 0.15 A/cm 2 . Microstructure evidence and scaling analysis suggest that electro‐sintering is aided by electro‐migration of pores, made possible by surface flow of cations across the pore meeting lattice/grain‐boundary counter flow of O 2− . This allows pore removal from the anode/air interface and densification at unprecedentedly low temperatures. Shrinkage cracking caused by electro‐sintering of residual pores is envisioned as a potential damage mechanism in SOFC / SOEC 8 YSZ membranes.