In this paper, small blocks of 17-4 PH stainless steel were manufactured via extrusion-based
bound powder extrusion (BPE)/atomic diffusion additive manufacturing (ADAM) technology …

Additive manufacturing (AM) technology has been broadly applied to the fabrication of
metallic materials. However, current approaches consume either high energy or large …

The high potential of additive manufacturing (AM) techniques offers novel opportunities and
unexplored design freedom. However, typical internal defects and poor surface quality …

The effects of layer orientation and surface roughness on the mechanical properties and
fatigue life of 316L stainless steel (SS) fabricated via a laser beam powder bed fusion (LB …

As additive manufacturing advances towards use in structural applications which can also
include fatigue-critical parts, the process–structure–property relationships must be fully …

In this study, the effects of part size on thermal history and mechanical properties of
additively manufactured 17-4 PH stainless steel were investigated under monotonic tensile …

To ensure the robust design freedom of metallic additive manufacturing, the fatigue
properties and the dimensional limitation of as-built components by laser powder bed fusion …

To exploit the whole potential of Additive Manufacturing, it is essential to investigate the
complex relationships between Additive Manufacturing processes, the resulting …

Additive manufacturing (AM) brings more freedom to design and fabricate parts with
complex geometries. However, structural integrity of additively manufactured parts must be …

On the one hand, many mechanical components manufactured through additive
technologies are optimized in terms of stiffness/weight or strength/weight thanks to lattice …