Title: New approach for advanced zirconia thermal barrier coatings by plasma-laser hybrid spraying technique
Abstract:Laser treatment improved the thermal shock resistance of thermal barrier coatings (TBCs). Thermal diffusivity measurement revealed that post-treated coatings are not effective for reducing heat flux. ...Laser treatment improved the thermal shock resistance of thermal barrier coatings (TBCs). Thermal diffusivity measurement revealed that post-treated coatings are not effective for reducing heat flux. However, laser-hybridsprayed TBCs with segmented feather-like microcracks decreased the thermal diffusivity by 60% of the as-sprayed value at specific laser-hybrid conditions. The post-treated TBCs with dense layers showed abrupt collapse of laser-treated layers but hybrid sprayed coatings exhibited improved erosion resistance. And the reliability of TBC with segmented cracks was also confirmed from the cyclic oxidation test. From those investigations, a new approach for manufacturing advanced TBCs by laser-hybrid plasma spraying was suggested.Read More
Publication Year: 2002
Publication Date: 2002-12-01
Language: en
Type: article
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Title: $New approach for advanced zirconia thermal barrier coatings by plasma-laser hybrid spraying technique
Abstract: Laser treatment improved the thermal shock resistance of thermal barrier coatings (TBCs). Thermal diffusivity measurement revealed that post-treated coatings are not effective for reducing heat flux. However, laser-hybridsprayed TBCs with segmented feather-like microcracks decreased the thermal diffusivity by 60% of the as-sprayed value at specific laser-hybrid conditions. The post-treated TBCs with dense layers showed abrupt collapse of laser-treated layers but hybrid sprayed coatings exhibited improved erosion resistance. And the reliability of TBC with segmented cracks was also confirmed from the cyclic oxidation test. From those investigations, a new approach for manufacturing advanced TBCs by laser-hybrid plasma spraying was suggested.