Effect of substrate and bond coat on contact damage in zirconia-based plasma-sprayed coatings

Autor: Antonia Pajares, Brian R. Lawn, Sataporn Wuttiphan, Christopher C. Berndt
Rok vydání: 1997
Předmět:
Zdroj: Thin Solid Films. 293:251-260
ISSN: 0040-6090
DOI: 10.1016/s0040-6090(96)08992-4
Popis: This paper reports a Hertzian indentation study of damage modes in zirconia-based plasma-sprayed coatings on metal substrates, with and without bond coats. The structure of the study is as follows: (i) measurement of Hertzian indentation stress-strain curves, first on individual bulk material components (controls) and then on the composite layer structures, to quantify the degree of plasticity, (ii) micrographic analysis of the corresponding subsurface damage modes, particularly of the yield zones, in both coatings and underlayers; (iii) finite clement modelling of the clastic-plastic stress fields in the adjacent layers, again with a focus on the yield zones, It is demonstrated that the substrate can have a profound influence on the damage distribution, depending on the degree of clastic-plastic mismatch relative to the coating. The bond coal, by virtue of its relative thinness, plays a lesser role in the damage intensity, notwithstanding an apparent improvement in substrate adhesion. Indentation variables followed are applied load, to examine the evolution of damage, and number of cycles, to examine fatigue. The results indicate the power and simplicity of the Hertzian technique as a route to mechanical characterization of coating structures: for identifying damage modes, especially yield (but also fracture, in the present case delamination fracture); for evaluating damage parameters, such as Young's modulus and the yield stress, from FEM analysis or stress-strain curves and yield zone microscopy; and for quantifying design concepts, e.g. maximum sustainable bearing stress and damage tolerance.
Databáze: OpenAIRE