Effects of Combustion Gas Species on Y2O3 Film Produced from EDTA·Y·H Complex by Flame-Spraying Technique

Yttria (Y 2 O 3 ) films were deposited on stainless steel substrates from ethylenediaminetetraacetic·yttrium·hydrogen (EDTA·Y·H) complexes by flame spraying. The gas mixtures of acetylene-oxygen (C 2 H 2 -O 2 ) or hydrogen-oxygen (H 2 -O 2 ) were used for the combustion flame and the effects of the...

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Veröffentlicht in:	MRS Advances 2016, Vol.1 (17), p.1209-1214
Hauptverfasser:	Komatsu, Keiji, Sekiya, Tetsuo, Hasebe, Yasuhiro, Toyama, Ayumu, Nakamura, Atsushi, Noguchi, Masahiro, Li, Yu, Ohshio, Shigeo, Akasaka, Hiroki, Saitoh, Hidetoshi
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Schlagworte:	Applied and Technical Physics Biomaterials Characterization and Evaluation of Materials Materials Engineering Materials Science Nanotechnology
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creator	Komatsu, Keiji Sekiya, Tetsuo Hasebe, Yasuhiro Toyama, Ayumu Nakamura, Atsushi Noguchi, Masahiro Li, Yu Ohshio, Shigeo Akasaka, Hiroki Saitoh, Hidetoshi
description	Yttria (Y 2 O 3 ) films were deposited on stainless steel substrates from ethylenediaminetetraacetic·yttrium·hydrogen (EDTA·Y·H) complexes by flame spraying. The gas mixtures of acetylene-oxygen (C 2 H 2 -O 2 ) or hydrogen-oxygen (H 2 -O 2 ) were used for the combustion flame and the effects of the combustion gas species on Y 2 O 3 films were investigated. Experiments revealed that the particles propelled in the H 2 -O 2 flame had lower temperature and higher velocity compared with the particles in the C 2 H 2 -O 2 flame. The existence of Y 2 O 3 crystalline phases and complete decomposition of the EDTA·Y·H were confirmed. The porosity of the film was 25% when the H 2 -O 2 flame was used and 32% when the C 2 H 2 -O 2 flame was used. In addition, the Y 2 O 3 films showed excellent adherability in tape tests. The H 2 -O 2 flame is thus considered suitable for fabricating dense Y 2 O 3 films.
doi_str_mv	10.1557/adv.2016.17
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The gas mixtures of acetylene-oxygen (C 2 H 2 -O 2 ) or hydrogen-oxygen (H 2 -O 2 ) were used for the combustion flame and the effects of the combustion gas species on Y 2 O 3 films were investigated. Experiments revealed that the particles propelled in the H 2 -O 2 flame had lower temperature and higher velocity compared with the particles in the C 2 H 2 -O 2 flame. The existence of Y 2 O 3 crystalline phases and complete decomposition of the EDTA·Y·H were confirmed. The porosity of the film was 25% when the H 2 -O 2 flame was used and 32% when the C 2 H 2 -O 2 flame was used. In addition, the Y 2 O 3 films showed excellent adherability in tape tests. 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The gas mixtures of acetylene-oxygen (C 2 H 2 -O 2 ) or hydrogen-oxygen (H 2 -O 2 ) were used for the combustion flame and the effects of the combustion gas species on Y 2 O 3 films were investigated. Experiments revealed that the particles propelled in the H 2 -O 2 flame had lower temperature and higher velocity compared with the particles in the C 2 H 2 -O 2 flame. The existence of Y 2 O 3 crystalline phases and complete decomposition of the EDTA·Y·H were confirmed. The porosity of the film was 25% when the H 2 -O 2 flame was used and 32% when the C 2 H 2 -O 2 flame was used. In addition, the Y 2 O 3 films showed excellent adherability in tape tests. The H 2 -O 2 flame is thus considered suitable for fabricating dense Y 2 O 3 films.</abstract><cop>Cham</cop><pub>Springer International Publishing</pub><doi>10.1557/adv.2016.17</doi><tpages>6</tpages></addata></record>
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title	Effects of Combustion Gas Species on Y2O3 Film Produced from EDTA·Y·H Complex by Flame-Spraying Technique
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