The adaptation of additive manufacturing (AM) for Ni-based superalloys has gained
significance in aerospace and power-generation industries due to the ability to fabricate …

Metal additive manufacturing (AM) has now become the perhaps most desirable technique
for producing complex shaped engineering parts. However, to truly take advantage of its …

Laser powder-bed fusion (LPBF) possesses unique advantages in manufacturing complex
structures. The mechanical properties of thin-wall structures are crucial for the application …

The CAMECA Invizo 6000 atom probe microscope uses ion optics that differ significantly
from the local electrode atom probe (LEAP). It uses dual antiparallel deep ultraviolet lasers …

Process parameters optimization in additive manufacturing (AM) is usually required to
unlock superior properties, and this is often facilitated by modeling. In electron beam powder …

This study investigated the fully reversed (R=-1), strain-controlled low cycle fatigue behavior
of laser powder bed fused Haynes 282 at temperatures ranging from− 195 to 871° C and at …

The aim of this study was to explore the mechanical properties of thin-walled maraging steel
(MS1) elements fabricated using direct metal laser sintering (DMLS). This article first …

Poles and zone lines observed within atom probe field evaporation images are useful for a
range of atom probe crystallography studies, including calibration of the reconstruction and …

Direct energy deposition with arc and wire (DED-AW) is a versatile, low-cost, and energy-
efficient technology for additive manufacturing of medium-and large-sized metallic …

Complex geometries and topology optimisations for weight and materials savings are
leading drivers for the additive manufacturing of Ni-based superalloys through electron …