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W2564506711 endingPage "1730004" @default.
W2564506711 startingPage "1730004" @default.
W2564506711 abstract "Thermal barrier coatings (TBCs) is one of the main key technology for the high-pressure turbine blades which are the main components of the high-performance aerospace engines. It offers protection for underline metallic components from corrosion, oxidation and localized melting by insulating the metal from hot gases in the engine core. The properties and lifetime of TBCs are greatly influenced by the preparation technology, which includes plasma spraying (PS), physical vapor deposition (PVD) and laser re-melting (LM). In this paper, three technologies used to prepare the TBCs are reviewed. Resulting features of coating fabricated by each technology are also discussed such as: the porosity, the thermally grown oxide (TGO), the erosion resistance, the thermal shock and so on. Especially, it is pointed out that the performances of gradient coating and nano-coating are better than the traditional coatings. In addition, it is widely accepted that laser can be applied to re-melt the PS coating and even directly clad the gradient coating. In the future, the traditional preparation technology should be improved continually in order to enhance the coating lifetime, enhance the properties of coating and lower the cost of process. Moreover, the researches on gradient-nano-structured coatings preparation are absent and should be done with emphasis since the nano-structure and gradient structure can both benefit the lifetime and properties of coatings." @default.
W2564506711 created "2017-01-06" @default.
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W2564506711 date "2016-12-16" @default.
W2564506711 modified "2023-10-12" @default.
W2564506711 title "STUDY ON PREPARATION TECHNOLOGIES OF THERMAL BARRIER COATINGS" @default.
W2564506711 cites W1498940631 @default.
W2564506711 cites W1964544996 @default.
W2564506711 cites W1968742071 @default.
W2564506711 cites W1968791920 @default.
W2564506711 cites W1970915477 @default.
W2564506711 cites W1972877920 @default.
W2564506711 cites W1973185996 @default.
W2564506711 cites W1975396246 @default.
W2564506711 cites W1976314737 @default.
W2564506711 cites W1976968081 @default.
W2564506711 cites W1977649051 @default.
W2564506711 cites W1979222695 @default.
W2564506711 cites W1979393209 @default.
W2564506711 cites W1980754319 @default.
W2564506711 cites W1987351555 @default.
W2564506711 cites W1990291872 @default.
W2564506711 cites W1991880673 @default.
W2564506711 cites W2002580863 @default.
W2564506711 cites W2003016361 @default.
W2564506711 cites W2006907307 @default.
W2564506711 cites W2010120375 @default.
W2564506711 cites W2014089832 @default.
W2564506711 cites W2014374141 @default.
W2564506711 cites W2016619841 @default.
W2564506711 cites W2019531594 @default.
W2564506711 cites W2021370737 @default.
W2564506711 cites W2022355936 @default.
W2564506711 cites W2023801842 @default.
W2564506711 cites W2024627148 @default.
W2564506711 cites W2028304571 @default.
W2564506711 cites W2029058523 @default.
W2564506711 cites W2031200747 @default.
W2564506711 cites W2039420259 @default.
W2564506711 cites W2044987542 @default.
W2564506711 cites W2050453467 @default.
W2564506711 cites W2052194193 @default.
W2564506711 cites W2053040784 @default.
W2564506711 cites W2055896792 @default.
W2564506711 cites W2057417952 @default.
W2564506711 cites W2058646152 @default.
W2564506711 cites W2060474516 @default.
W2564506711 cites W2064794345 @default.
W2564506711 cites W2065555584 @default.
W2564506711 cites W2068640301 @default.
W2564506711 cites W2071784479 @default.
W2564506711 cites W2073429838 @default.
W2564506711 cites W2076009653 @default.
W2564506711 cites W2076489270 @default.
W2564506711 cites W2078451510 @default.
W2564506711 cites W2091566284 @default.
W2564506711 cites W2120468989 @default.
W2564506711 cites W2138381203 @default.
W2564506711 cites W2157206432 @default.
W2564506711 cites W2168660954 @default.
W2564506711 cites W2169462020 @default.
W2564506711 cites W2239694600 @default.
W2564506711 cites W2338352553 @default.
W2564506711 cites W346932902 @default.
W2564506711 cites W577315047 @default.
W2564506711 cites W642538808 @default.
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W2564506711 doi "https://doi.org/10.1142/s0218625x17300040" @default.
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