Lightweight metallic cellular materials (MCMs) have been seen in numerous engineering
applications to date, primarily due to their excellent mechanical characteristics such as low …

Energy-absorbing materials are widely used in transportations, sports, and the military
applications. Particularly, porous materials, including natural and artificial materials, have …

Triply periodic minimal surface (TPMS) has many excellent properties, such as stable
energy absorption, a high specific strength, a large surface area, etc. The functional multi …

The influence of post-build processing on the hydrogen embrittlement behavior of additively
manufactured (AM) 316L stainless steel fabricated using laser powder bed fusion was …

Cellular materials have superior specific properties (eg, specific strength, stiffness, and
energy absorption) as compared to their monolithic material counterparts. With rapid …

Abstract Laser Powder Bed Fusion (L-PBF) allows manufacturing of lattice structures whilst
enabling their integration within a complex shaped solid component to design locally …

Additive manufacturing has enabled the fabrication of lightweight complex metamaterials
that possess high energy absorption and impact resistance properties. Stents, a typical 3D …

Notably, successful clinical outcomes of additively manufactured porous metallic implants
require careful consideration of factors such as porosity, pore size, and pore …

Characterising the structure of cellular metals is a difficult task. The internal structure of
cellular metals can be determined using micro-computed tomography (mCT). However, mCT …

The cuttlebone is known for its ability to possess high specific stiffness, progressive failure
and lightweight from the porous chambered structure. Inspired by the microstructural …