Multi-material components featuring high performance and design flexibility have attracted
considerable attention, providing solutions to meet the performance demands of high-end …

Additive manufacturing offers great potential and versatility for manufacturing high-quality
and geometrically complex components. Multi-material laser-powder bed fusion is an …

Experiments on Laser powder bed fusion (LPBF) of powdered Ti on Al2O3 substrate were
conducted and the interface formation was studied using a multi-material fluid dynamics …

Conventional additive manufacturing produces coarse columnar grains, which affect the
mechanical properties of additively manufactured titanium alloys. This study developed a …

Laser powder bed fusion (LPBF) technology has the potential to revolutionize the fabrication
of complex metal components in the aerospace, medical, and automotive industries …

Laser powder bed fusion (LPBF) additive manufacturing provides the freedom to
manufacture the novel bionic structures and materials with excellent mechanical properties …

Blown-powder directed energy deposition (DED) additive manufacturing is impeded for
novel alloys processing by perceivable and detrimental porosity. During multi-layer …

Despite the limitations imposed by their composition, natural materials overcome the trade-
off between strength and ductility through their unique structural features. Inspired by the …

The performance improvement of wire arc additive manufacturing component relies on
structural innovation and tailored printing, and the naturally optimized structure can provide …

Biomimetic structures involve design and fabrication to mimic the natural world, taking
inspiration from the unique shapes, patterns, and functions of biological organisms. This …