A Comparative Study of YSZ Suspensions and Coatings

Tarasi, Fariba; Alebrahim, Elnaz; Dolatabadi, Ali; Moreau, Christian

doi:10.3390/coatings9030188

Cited by 9 publications

(6 citation statements)

References 21 publications

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“…Relatively small Stokes number (St\ 1) indicates increased probability of droplets approaching the substrate at more oblique angels (Ref 18, 39). Formation of columnar coatings from water based precursor solutions could be related to the small droplet sizes increasing the chance of having small Stokes numbers ( Ref 40,41). This is in accordance with the droplet size distribution measurements of atomized solutions as discussed above (17.4 and 15.9 lm for 0.5 and 0.125 M concentrations of water based solutions, respectively).…”

Section: Coatings Characteristicssupporting

confidence: 79%

Deposition of Columnar-Morphology Lanthanum Zirconate Thermal Barrier Coatings by Solution Precursor Plasma Spraying

Yaghtin

Najafisayar

et al. 2021

J Therm Spray Tech

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Two types of precursor solutions, including lanthanum nitrate and lanthanum chloride, with zirconium acetate, were used to produce lanthanum zirconate coatings by solution precursor plasma spraying (SPPS). Thermal behavior of the precursor solutions, their rheological properties and atomization patterns were investigated by TGA-DSC, viscosity, surface tension and droplet size measurements, respectively. The chloride precursor led to the formation of impure lanthanum zirconate powder including LaOCl and ZrO 2 , while the nitrate precursor combined with zirconium acetate produced pure lanthanum zirconate powder after pyrolysis. Increasing the salt concentration from 0.125 to 0.5 M led to the formation of solutions with * 2.7 times higher viscosity but * 7% lower surface tension. The ethanol based solutions had smaller surface tension compared to the water based (24.3 mN/m vs. 62.7 mN/m), while being more viscous (4.8 cp vs. 3.2 cp). The most significant factor affecting the droplet size in atomized solutions was their viscosity. The 0.5 M water-based solutions with about 28 lm median size droplets injected into the plasma plume produced columnar morphology coatings with * 23 vol.% porosity.

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Section: Coatings Characteristicssupporting

confidence: 79%

Deposition of Columnar-Morphology Lanthanum Zirconate Thermal Barrier Coatings by Solution Precursor Plasma Spraying

Yaghtin

Najafisayar

et al. 2021

J Therm Spray Tech

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“…The injection of the suspension has also been an object of study [17]. Some of those conclusions showed that coating microstructure and performance are related to the suspension characteristics [18]. Ganvir et al [19] studied the evolution of the coating microstructure during spray.…”

Section: Introductionmentioning

confidence: 99%

Influence of Substrate Shape and Roughness on Coating Microstructure in Suspension Plasma Spray

Caio

Moreau

2019

Coatings

Self Cite

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This study investigated the influence of the substrate shape and roughness on the microstructure of suspension plasma spray (SPS) coatings. For this purpose, an yttria-stabilized zirconia (YSZ) suspension was sprayed on flat and curved stainless-steel substrates by SPS. The suspension was composed of 20 wt.% YSZ particles in ethanol. After spraying, the morphology of the coatings was characterized by scanning electron microscopy (SEM). The results showed that the substrate shape influences the amount of coating material deposited and microstructural features of the coating. The amount of coating material deposited was seen to decrease as the radius of curvature decreased. Finally, the roughness was found to influence the formation of columnar structure.

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“…The pseudo-columnar growth of the nano-structured suspension PS YSZ coatings has turned out to be sensitive to a number of deposition parameters like the average particle size, liquid carrier composition, flow rate, the ratio of solid to liquid, and stand-off distance [13,16,[20][21][22]. The formation of this characteristic microstructure is sought in the operation of strong drag force exerted on in-flight solidified drops by a working gas, which is surpassing the adhesion force on the impact on a flat surface [23,24].…”

Section: Discussionmentioning

confidence: 99%

Microstructure, mechanical and thermal properties of YSZ thermal barrier coatings deposited by axial suspension plasma spraying

Poliarus

Morgiel

Żórawski

et al. 2023

Archiv.Civ.Mech.Eng

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Yttrium-stabilized zirconia (YSZ) thermal barrier coatings (TBCs) are indispensable elements of present-day turbine propulsion systems. The ones deposited with atmospheric plasma spraying (APS) are characterized by required low thermal conductivity, but they are unable to survive frequent thermomechanical loading and therefore their application is limited to parts remaining stationary. Expanding capability of TBCs is sought in various areas, but the one realized through modification of most proliferated apparatus used for plasma spraying (PS) (from radial to axial injection) and substituting micrometric powders with the nano-structured suspension needs least changes in the industry established procedures and offers the highest property improvement. The present experiment covered the deposition of ZrO2-8Y2O3 YSZ TBC using both atmospheric and suspension PS processes. They were performed with commercial micrometric and nano-structured YSZ (8% Y2O3) powders. The coatings morphology and microstructure were characterized with 3D profilometry, scanning and transmission electron microscopy (SEM/TEM) methods. Finally, the coating’s hardness and heat conductivity were measured. This complex approach allowed to state that PS of micrometric t’-ZrO2 powder having an admixture of m-ZrO2 phase is capable of only partial improvement in its homogenization. However, the suspension PS process of nano-structured powder eliminated any traces of the monoclinic phase from the coating. The TEM microstructure observations indicated that the suspension PS coating is built by in-flight solidified droplets as well as by the melted ones flattened on arrival. A surface layer of liquefied material on solid droplets increases their adhesion to surface asperities promoting pseudo-columnar growth of the coating. The preservation of monotonic slow increase of thermal conductivity during heating of the suspension PS coating means, that its pseudo-columnar microstructure is better suited to withstand high strains during such treatment.

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A Comparative Study of YSZ Suspensions and Coatings

Cited by 9 publications

References 21 publications

Deposition of Columnar-Morphology Lanthanum Zirconate Thermal Barrier Coatings by Solution Precursor Plasma Spraying

Deposition of Columnar-Morphology Lanthanum Zirconate Thermal Barrier Coatings by Solution Precursor Plasma Spraying

Influence of Substrate Shape and Roughness on Coating Microstructure in Suspension Plasma Spray

Microstructure, mechanical and thermal properties of YSZ thermal barrier coatings deposited by axial suspension plasma spraying

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