Technology of High-speed Direct Laser Deposition from Ni-based Superalloys

Recently, additive manufacturing is the one of most perspective technologies; it can replace conventional methods of casting and subsequent time-consuming machining. One of the most interesting additive technologies - high-speed direct laser deposition (HSDLD) allows realizing heterophase process du...

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Bibliographic Details
Main Authors: Klimova-Korsmik, Olga, Turichin, Gleb, Zemlyakov, Evgeniy, Babkin, Konstantin, Petrovsky, Pavel, Travyanov, Andrey
Format: Conference Proceeding
Language:English
Subjects:
additive manufacturing
high speed direct laser deposition
mechanical properties
nickel superalloys
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Summary:Recently, additive manufacturing is the one of most perspective technologies; it can replace conventional methods of casting and subsequent time-consuming machining. One of the most interesting additive technologies - high-speed direct laser deposition (HSDLD) allows realizing heterophase process during the manufacturing, which there is process takes place with a partial melting of powder. This is particularly important for materials, which are sensitive to strong fluctuations of temperature treatment regimes, like nickel base alloys with high content of gamma prime phase. This alloys are interested for many industrial areas, mostly there are used in engine systems, aircraft and shipbuilding, aeronautics. Heating and cooling rates during the producing process determine structure and affect on its properties. Using HSDLD process it possible to make a products from Ni superalloys with ultrafine microstructure and satisfactory mechanical characteristics without special subsequent heatreatment.
ISSN:1875-3892
1875-3892
DOI:10.1016/j.phpro.2016.08.073