论文信息 - Tribological behaviour of alumina-titania nanostructured coatings produced by air plasma spray technique

Tribological behaviour of alumina-titania nanostructured coatings produced by air plasma spray technique

Nanostructured Al2O3-TiO2 wear resistant coatings were produced by air plasma spray from plasma-densified agglomerated nano-powders. Conventional Al2O3-TiO2 coatings were also deposited for direct comparison of tribological performance. Operating parameters were optimized by a DOE (Design of Experiment) procedure, to produce coherent and well adherent ceramic coatings and to minimize dwell times in the torch in order to reduce the risk of excessive grain growth or complete remelting. Optimal tribological behaviour was selected as the main goal function. Microstructural characterization of APS nanostructured coatings confirmed the presence of fully molten areas combined with unmolten particles still retaining their spherical morphology, and with elongated particles whose microstructure showed initial stages of grain growth and recrystallization processes. Coatings produced with the final set of deposition parameters were tested for micro-hardness, elastic modulus and unlubricated wear resistance against alumina. Results clearly indicate that nanostructured coatings produced from plasma densified nanostructured precursors exhibit considerably improved performances, evaluated in terms of worn out volume and mass loss.

[1] R. Cryderman. Microstructure Development I , 2017 .

[2] J. Tirillò,et al. High temperature mechanical characterization of plasma-sprayed zirconia-yttria from conventional and nanostructured powders , 2015 .

[3] W. M. Rainforth. The wear behaviour of oxide ceramics-A Review , 2004 .

[4] S. Guessasma,et al. Effect of APS process parameters on wear behaviour of alumina–titania coatings , 2004 .

[5] Yi Zeng,et al. Characterization of alumina–3 wt.% titania coating prepared by plasma spraying of nanostructured powders , 2004 .

[6] E. Jordan,et al. Microstructure development of Al2O3-13wt.%TiO2 plasma sprayed coatings derived from nanocrystalline powders , 2002 .

[7] Peter R. Strutt,et al. Abrasive wear characteristics of plasma sprayed nanostructured alumina/titania coatings , 2000 .

[8] C. Coddet,et al. Tribological properties of plasma sprayed alumina-titania coatings : Role and control of the microstructure , 2000 .

[9] George M. Pharr,et al. On the generality of the relationship among contact stiffness, contact area, and elastic modulus during indentation , 1992 .

[10] C. Bartuli,et al. Thermal spray coatings for corrosion and wear protection of naval Diesel engines components , 2014 .

[11] J. Tirillò,et al. Microstructure and Wear Behavior of Plasma-Sprayed Nanostructured WC–Co Coatings , 2013 .