Historically, the approach in material selection was to find the proper material that serves a
specific application. Recently, a new approach is implemented such that materials are being …

Recent advances in additive manufacturing facilitated the fabrication of parts with great
geometrical complexity and relatively small size, and allowed for the fabrication of …

In the last decade, topology optimization methods have been investigated by a plethora of
studies, utilizing architected materials. Furthermore, combining the ability of additive …

One of the main advantages of Additive Manufacturing (AM) is the ability to produce
topologically optimized parts with high geometric complexity. In this context, a plethora of …

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

Lightweight materials with complex structures such as cellular solids (or foams) have proven
to possess desirable properties, specifically in terms of its stiffness, strength, and thermal …

Lattices based on triply periodic minimal surfaces (TPMS) are attracting increasing interest
in seminal industries such as bone tissue engineering due to their excellent structure …

The compression behavior of different 316L steel cellular dodecahedron structures with
different density values were studied. The 316L steel structures produced using the selective …

Isotropy is a desired characteristic in cellular structures for load bearing and energy
absorption applications that must respond uniformly under external loads in all orientations …

The rapid evolution in additive manufacturing (AM) technology advocates a periodic
assessment of the recent progress in the process and product developments. One such area …