Surface-roughness induced residual stresses in thermal barrier coatings: computer simulations
Journal
Materials Science Forum
Journal Volume
308-311
Pages
442-449
Date Issued
1999
Author(s)
Abstract
Adherence of plasma-sprayed thermal barrier coatings (TBC's) during deposition is strongly dependent on a rough metallic bond-coat surface topology. However, the resultant interfacial asperities modify the residual stresses that develop in the coating system due to thermal expansion differences, and other misfit strains, and generate stresses that can induce progressive fracture and eventual spallation of the ceramic coating. For a flat interface, the principal residual stress is parallel to the interface, as the stress normal to the interface is zero. However, the residual stress normal to the interface becomes non-zero, when the interface has the required interlocking morphology. In the present study, an actual microstructure of a plasma-sprayed TBC system was numerically simulated and analyzed with a recently developed, object-oriented finite element analysis program, OOF, to give an estimate of the localized residual stresses in a TBC system. Additionally, model TBC microstructures were examined to evaluate the manner in which the topology of interfacial asperities influences residual stresses. Results are present for several scenarios of modifying interfacial roughness.
Type
journal article