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Machining of Ni-based aerospace alloys is one of the major challenges of modern manufacturing.
Such high-strength coatings with good high-temperature stability and low-defect density offer strong protection to cutting tools during machining of Ni-based superalloys.
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The formation of Ni-based B Fe Ni Si–Ta bulk metallic glasses is explored in this work.
Surface carbon deposition is a major cause for deactivation of Ni-based catalysts [7, 21, 24].
The low temperature reduction peaks of Ni-based catalysts with Ce promoter and CeO2 were overlapped.
The γ′ precipitate plays a critical role in improving the mechanical properties of Ni-based superalloys.
A new approach to the design of Ni-based single crystal superalloys is proposed.
This perspective provides the understanding of Ni-based catalysts with coke resistance and gives the relationship of Ni structure and carbon formation.
Application of cemented carbide tooling with nano-multilayered AlTiN/Cu PVD coating results in a significant tool life improvement under conditions of turning the hard-to-machine aerospace Ni-based Inconel 718 superalloy.
Application of nano-multilayered AlTiN/MexN PVD coatings (where Mex is a transition metal of V VI groups of periodic table) to cemented carbide tooling results in a significant tool life improvement under conditions of cutting hard to machine alloys such as Ni-based Inconel 718 superalloy and Ti-based TiAl6V4 alloy.
The dopant metals were selected rationally by considering the stability of the Ni-based binary alloys.
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