The machining of nickel and titanium-based superalloy components is very expensive and
involves unusually high lead times compared with other engineering metals such as steels …

Additive Manufacturing (AM) has the potential to completely reshape the manufacturing
space by removing the geometrical constraints of commercial manufacturing and reducing …

This research illustrates the rationale of adopting a preferred printing sequence by
examining crack generation predominated by resultant interfaces and microstructural …

Additive manufacturing (AM) technology has opened up new opportunities to efficiently
synthesize alloys and produce near-net shape components. In this study, Ti-doped Inconel …

The subgrain segregation of Inconel 625 components fabricated using high-efficiency wire
laser additive manufacturing and its effect on the intergranular corrosion characteristics were …

Elemental microsegregation and precipitate formation are inevitable during solidification of
Additive Manufacturing (AM) parts. In this study, single-track Laser Powder Bed Fusion …

In the present work, an attempt is made to understand and explore the repair capabilities of
the Laser Directed Energy Deposition (LDED) process on Nickel based superalloy Inconel …

The microstructure evolution of Inconel 625 additively manufactured by laser powder bed
fusion during creep tests at the temperature range 600–800° C and under a constant stress …

The intergranular corrosion (IGC) behavior of Inconel 625 cladding layer deposited by cold
metal transfer (CMT) at different positions from the substrate has been studied. Compared …

The relationship between solidification structure and cooling rate is critical for optimizing
processing parameters to achieve desired mechanical property of additive manufactured …