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 …

In recent times, smart manufacturing systems and materials are being utilized increasingly
for producing parts with high strength-to-weight ratios. Consolidation of several assembly …

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 …

Lattice structures are vital for biological applications because of its numerous benefits (for
example, faster and stronger binding to bone tissue). Consequently, processing of lattice …

The corrosion behavior of laser powder bed fusion produced (L-PBF-produced) titanium
alloys involving flowing body fluid is still unclear. Therefore, this work investigates in vitro …

Selective laser melting is a promising additive manufacturing technology for manufacturing
porous metallic bone scaffolds. Bone repair requires scaffolds that meet various mechanical …

Cellular structures with controllable mechanical properties and porous architecture are the
most promising candidates for many applications such as bone implants. Selective laser …

The advantages of “printing the right material in the right position” and “printing the unique
structure for unique function” in additive manufacturing make the design of biomimetic …

Graded triple periodic minimal surface (TPMS) structures fabricated by selective laser
melting (SLM) are superior candidates for lightweight and energy-absorbing applications …

Additively manufactured lattice structures are popular due to their desirable properties, such
as high specific stiffness and high surface area, and are being explored for several …