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Original title:
The role of microstructure on wettability of plasma sprayed yttria stabilized zirconia coatings
Authors: Komarov, P. ; Čelko, L. ; Remešová, M. ; Skorokhod, K. ; Jech, D. ; Klakurková, L. ; Slámečka, K. ; Mušálek, Radek
Document type: Papers
Conference/Event: METAL 2017: International Conference on Metallurgy and Materials /26./, Brno (CZ), 20170524
Year: 2017
Language: eng
Abstract: Atmospheric plasma spraying utilizing initial powder materials in micrometric size has been successfully used for various applications in different fields of the industry over the past several decades. Nowadays, the new trend in plasma spraying is to use sub-micron or nano-sized powder feedstocks in the form of colloidal suspension. This relatively new technology enables to obtain specific types of dense vertically cracked, fully dense or columnar microstructure. The aim of this work is to investigate the influence of coatings microstructure and topography on its water wetting properties. Two different microstructures, i.e. lamellar and columnar, were sprayed from chemically the same yttria-stabillized zirconia (YSZ) ceramics powders by the means of conventional atmospheric plasma spray and suspension hybrid water stabilized plasma spray techniques, respectively. Microstructural and phase composition of the initial powders and as-sprayed coatings were investigated using optical microscopy, scanning electron microscopy and X-ray diffraction techniques. Topography of coatings surface was measured by means of non-contact optical profilometry. The YSZ coatings wettability was evaluated based on water droplet contact angle using Sessile droplet method. The coatings microstructure reveals the important role in the change of droplet contact angle, where lamellar microstructure was found close to hydrophilic-hydrophobic transition and columnar microstructure was found superhydrophobic
Keywords: Contact angle; Plasma spraying; Sessile drop method; Water; Yttria stabilized zirconia
Project no.: GA15-12145S (CEP)
Funding provider: GA ČR
Host item entry: METAL 2017 - 26th International Conference on Metallurgy and Materials, Conference Proceedings, ISBN 978-80-87294-79-6
Institution: Institute of Plasma Physics AS ČR (web)
Document availability information: Fulltext is available at the institute of the Academy of Sciences.
Original record: http://hdl.handle.net/11104/0284345
Permalink: http://www.nusl.cz/ntk/nusl-375643
The record appears in these collections:
Research > Institutes ASCR > Institute of Plasma Physics
Conference materials > Papers
Authors: Komarov, P. ; Čelko, L. ; Remešová, M. ; Skorokhod, K. ; Jech, D. ; Klakurková, L. ; Slámečka, K. ; Mušálek, Radek
Document type: Papers
Conference/Event: METAL 2017: International Conference on Metallurgy and Materials /26./, Brno (CZ), 20170524
Year: 2017
Language: eng
Abstract: Atmospheric plasma spraying utilizing initial powder materials in micrometric size has been successfully used for various applications in different fields of the industry over the past several decades. Nowadays, the new trend in plasma spraying is to use sub-micron or nano-sized powder feedstocks in the form of colloidal suspension. This relatively new technology enables to obtain specific types of dense vertically cracked, fully dense or columnar microstructure. The aim of this work is to investigate the influence of coatings microstructure and topography on its water wetting properties. Two different microstructures, i.e. lamellar and columnar, were sprayed from chemically the same yttria-stabillized zirconia (YSZ) ceramics powders by the means of conventional atmospheric plasma spray and suspension hybrid water stabilized plasma spray techniques, respectively. Microstructural and phase composition of the initial powders and as-sprayed coatings were investigated using optical microscopy, scanning electron microscopy and X-ray diffraction techniques. Topography of coatings surface was measured by means of non-contact optical profilometry. The YSZ coatings wettability was evaluated based on water droplet contact angle using Sessile droplet method. The coatings microstructure reveals the important role in the change of droplet contact angle, where lamellar microstructure was found close to hydrophilic-hydrophobic transition and columnar microstructure was found superhydrophobic
Keywords: Contact angle; Plasma spraying; Sessile drop method; Water; Yttria stabilized zirconia
Project no.: GA15-12145S (CEP)
Funding provider: GA ČR
Host item entry: METAL 2017 - 26th International Conference on Metallurgy and Materials, Conference Proceedings, ISBN 978-80-87294-79-6
Institution: Institute of Plasma Physics AS ČR (web)
Document availability information: Fulltext is available at the institute of the Academy of Sciences.
Original record: http://hdl.handle.net/11104/0284345
Permalink: http://www.nusl.cz/ntk/nusl-375643
The record appears in these collections:
Research > Institutes ASCR > Institute of Plasma Physics
Conference materials > Papers
Record created 2018-06-19, last modified 2021-11-24