Metal additive manufacturing (AM) refers to any process of making 3D metal parts layer-
upon-layer via the interaction between a heating source and feeding material from a digital …

Laser powder bed fusion (LPBF) has made significant progress in producing solid and
porous metal parts with complex shapes and geometries. However, LPBF produced parts …

Metal additive manufacturing is a disruptive technology that is revolutionizing the
manufacturing industry. Despite its unrivaled capability for directly fabricating metal parts …

This work investigated the metastable pitting corrosion mechanism of laser powder bed
fusion (LPBF) produced Ti–6Al–4V. The passive films of samples were produced by …

Lattice structures, which are also known as architected cellular structures, have been
applied in various industrial sectors, owing to their fascinated performances, such as low …

The metastable pitting corrosion behavior of laser powder bed fusion (LPBF) produced Ti-
6Al-4V is still unclear. Therefore, this work investigated the metastable pitting corrosion of …

Thanks to a considerable number of fascinating properties, titanium (Ti) and Ti alloys play
important roles in a variety of industrial sectors. However, Ti and Ti alloys could not satisfy all …

Compared with stainless steel and Co–Cr‐based alloys, Ti and its alloys are widely used as
biomedical implants due to many fascinating properties, such as superior mechanical …

Laser powder bed fusion (LPBF) is a timely important additive manufacturing technique that
offers many opportunities for fabricating three-dimensional complex shaped components at …

The use of biomedical metallic materials in research and clinical applications has been an
important focus and a significant area of interest, primarily owing to their role in enhancing …