By diffusion bonding Ni and Zr to a single crystal of yttria-doped zir
conia (ZrO2 electrolyte) two interfaces Ni/ZrO2 and Zr/ZrO2 were produ
ced. Different from the Ni/ZrO2 interface studies for a Ni/ZrO2/Ni com
posite, where no reaction was observed, the intermetallic phases Ni5Zr
and Ni7Zr2 were formed at 1273 K at the Ni/ZrO2 phase boundary within
the Ni/ZrO2/Zr composite. At the phase boundary Zr/ZrO2 the formation
of monoclinic zirconia occurred. The formation of the phases and the
corresponding chemical reactions can only be conclusively explained by
considering both the ionic and electronic transport properties of the
ZrO2 electrolyte in an open circuit electrochemical cell. Scanning el
ectron microscopy (SEM) and transmission electron microscopy (TEM) wer
e employed for the characterization of the microstructure and chemistr
y of the reaction phases.