Additive manufacturing of a single crystal nickel-based superalloy using selective electron beam melting
Single crystal (SX) nickel-based superalloy blade forms a key element of hightemperature gas turbines that are vital to aviation and power industries, owing to its excellent creep properties at elevated temperatures. Conventional manufacturing of SX Ni-based superalloy components is a tedious and...
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Main Authors: | , , , , , |
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Other Authors: | |
Format: | Conference or Workshop Item |
Language: | English |
Published: |
2018
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Subjects: | |
Online Access: | https://hdl.handle.net/10356/88727 http://hdl.handle.net/10220/45882 |
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Institution: | Nanyang Technological University |
Language: | English |
Summary: | Single crystal (SX) nickel-based superalloy blade forms a key element of hightemperature
gas turbines that are vital to aviation and power industries, owing to its excellent creep
properties at elevated temperatures. Conventional manufacturing of SX Ni-based superalloy
components is a tedious and expensive process due to stringent tolerance on part geometry and SX
quality. Additive manufacturing (AM) provides unique features such as economic sustainability,
automated manufacturing process and capability of printing identical parts. Moreover, the future of
AM technologies shows significant promise towards achieving complete layer-wise control, in terms
of varying process parameters. This study employs selective electron beam melting (SEBM), a
powder-bed metal AM technique, to additively manufacture a first-generation Nickel-based SX
superalloy. High vacuum environment and nearly unidirectional thermal gradient, inherent with
SEBM, make it the most promising AM technique for SX superalloy manufacturing. Detailed
microstructural characterization using optical microscopy, scanning electron microscopy and X-ray
diffraction reveal that dominant columnar grains aligned with the build direction were formed into
a strongly textured superalloy sample. However, there are still some cracks occurred along the
columnar grain boundaries. The correlation between SEBM processing and microstructure is
discussed. |
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