AI Article Synopsis
- The study investigates the microstructure and phase composition of titania-based coatings created through a catalyst-free solution precursor plasma-spray process using an ethanol-based titanium isopropoxide solution.
- As the molar concentration of the precursor increased from 0.3 M to 0.6 M, the phase transformation temperature also rose, affecting the thermal behavior and resulting in coatings with different structural characteristics.
- Scanning electron microscopy revealed that the surface features nano-sized particles, and the overall coating thickness varied from around 5-8 µm for lower concentrations to 16-20 µm for increased spray passes, with both anatase and rutile phases of TiO present in the coatings.
Article Abstract
The microstructural characteristics and phase composition of solution precursor plasma-sprayed (SPPS) titania-based coatings using a catalyst-free precursor are reported in this work. An ethanol-based solution containing titanium isopropoxide was used to deposit TiO coatings. The thermal behavior of the solution precursor changed as its phase transformation temperature increased when the molar concentration was increased from 0.3 M to 0.6 M. Scanning electron micrographs showed that the surface of the coatings was composed of nano- and submicron-sized spherical particles (<1 μm) with sintered and melted particles. The cross-sections showed a porous structure using lower concentrations and dense coating formation with micropores using higher concentrations, with thicknesses of about 5 µm-8 µm. Moreover, the coatings when the number of spray passes was increased were 16 µm-20 µm thick, giving an average layer thickness of 0.6 µm deposited per spray pass in all cases. Phase analysis revealed the presence of both the anatase and rutile phases of TiO in coatings sprayed with various concentrations at various stand-off distances. More detailed discussion is presented with respect to the effects of the solution concentration, stand-off distance, and number of spray passes on the coating's phase composition and microstructure.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9959857 | PMC |
| http://dx.doi.org/10.3390/ma16041515 | DOI Listing |
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