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LIBRIS Formathandbok  (Information om MARC21)
FältnamnIndikatorerMetadata
00003217naa a2200469 4500
001oai:DiVA.org:hv-8468
003SwePub
008151008s1998 | |||||||||||000 ||eng|
024a https://urn.kb.se/resolve?urn=urn:nbn:se:hv:diva-84682 URI
040 a (SwePub)hv
041 a engb eng
042 9 SwePub
072 7a ref2 swepub-contenttype
072 7a art2 swepub-publicationtype
100a Krishna, G. R.4 aut
2451 0a Role of Pt content in the microstructural development and oxidation performance of Pt-aluminide coatings produced using a high-activity aluminizing process
264 1c 1998
338 a print2 rdacarrier
520 a The present study highlights the effect of Pt content on the microstructure of Pt-aluminide coatings produced using a single-step high-activity aluminizing process. The amount of Pt in the coating was varied by changing the thickness of the initial electroplated Pt layer between 1 and 15 μm. The aluminium uptake from the pack was found to be almost the same for all the coatings produced using a Pt layer of thickness 2.5 μm and above, with a somewhat lower uptake for the coating corresponding to a 1 μm thick Pt layer. The coating microstructure, which consisted of an outer two-phase (PtAl2 in a matrix of NiAl) layer, an intermediate NiAl layer and an interdiffusion layer, was also found to be independent of the Pt layer thickness when it was in the range 2.5-10 μm. In the case of the 1 μm Pt layer, however, the whole of the Pt remained in solid solution in the NiAl phase. For a Pt layer thickness exceeding 10 μm, on the other hand, a continuous surface layer of PtAl2 phase was observed. The above mentioned influence of the thickness of the Pt plated layer on the microstructure of the Pt-aluminide coatings observed in the present investigation could be explained in terms of the Pt concentration in the diffusion layer resulting from the interdiffusion between the Pt layer and the superalloy substrate during the pre-aluminizing diffusion treatment. Cyclic oxidation tests on these Pt-aluminide coatings reveal that the presence of Pt in aluminide coatings, in general, enhances oxidation resistance. However, in order to fully realize the beneficial effects of Pt on oxidation behaviour, a certain minimum Pt content in the coating was found to be necessary.
653 a High-activity aluminizing process
653 a Microstructure
653 a Pt-aluminide coatings
653 a Aluminum
653 a Composition effects
653 a Electroplating
653 a Materials testing
653 a Oxidation
653 a Oxidation resistance
653 a Platinum
653 a Solid solutions
653 a Superalloys
653 a Cyclic oxidation test
653 a High activity aluminizing process
653 a Interdiffusion layer
653 a Nickel aluminide layer
653 a Platinum aluminide coatings
653 a Protective coatings
700a Das, D. K.4 aut
700a Singh, V.4 aut
700a Joshi, S. V.4 aut
773t Materials Science and Engineering Ag 251:1-2, s. 40-47q 251:1-2<40-47
8564 8u https://urn.kb.se/resolve?urn=urn:nbn:se:hv:diva-8468

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Krishna, G. R.
Das, D. K.
Singh, V.
Joshi, S. V.
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University West

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