Investigation of Corrosion Resistance of YSZ Coating with Sacrificial Aluminum Oxide Protective Layer against CMAS and Composite Corrosives

Abstract

An Al film was deposited onto the surface of yttria-stabilized zirconia (YSZ) coating using magnetron sputtering, followed by in situ oxidized to form Al2O3, referred to as Al2O3-YSZ (A-YSZ). The corrosion behavior of the A-YSZ coating against the attacks of calcium–magnesium–aluminum–silicon (CMAS) and a composite corrosive agent containing salt (NaVO3/Na2SO4/NaCl) and CMAS (CMAS + salt). Results demonstrate the excellent resistance of the investigated coating to the corrosion of CMAS and CMAS + salt. The Al2O3 layer plays a crucial role as sacrificial protection in effectively isolating the composite corrosive agents, substantially extending the service life of YSZ coatings. NaVO3, Na2SO4, and NaCl promote the formation of high-melting-point products, reducing their penetration into the YSZ layer. The reaction mechanisms of Al2O3 with CMAS and CMAS + salt were clarified.