Additive manufacturing (AM) is characterised by several unique advantages, such as
(freedom of) design, capability of fusing dissimilar materials, near-net-shape, and achieving …

Additive manufacturing (AM) plays a crucial role in the manufacturing and development of
advanced materials including titanium alloys for engineering applications. During the last …

Abstract Hot Isostatic Pressing (HIP) is a thermomechanical post-processing technique
widely used in Additive Manufacturing parts to reduce internal defects, such as entrapped …

The restricted number of materials available for additive manufacturing (AM) technologies is
a determining impediment to AM growing into sectors and providing supply chain relief. AM …

This work aims to analyze the sensitivity of the very high-cycle fatigue behavior of LPBF-Ti-
6Al-4V to microstructure and porosity variations. To do so ultrasonic fatigue testing is …

Laser additive manufacturing (LAM) of titanium (Ti) alloys has emerged as a transformative
technology with vast potential across multiple industries. To recap the state of the art, Ti …

In the present study, in-situ observation of Hot Isostatic Pressure (HIP) procedure of laser
powder bed fusion manufactured Ti-6Al-4V parts was performed to quantitatively estimate …

This study investigates the impact of post-processing techniques on the fatigue behaviour of
specimens in Ti6Al4V made by laser powder bed fusion (LPBF) for relevant applications …

Super β-transus hot isostatic pressing (HIPing) has been shown to be able to transfer
columnar to equiaxed grains in additively manufactured Ti–6Al–4V. Although pores in the …

Application of additive manufacturing methods is escalating in numerous sectors including
the medical field owing to its enhanced productivity, functionality, patient-specific fabrication …