Three-dimensional (3D) printing enables patient-specific anatomical level productions with
high adjustability and resolution in microstructures. With cost-effective manufacturing for …

Microvascular free flap reconstruction has remained the standard of care in reconstruction of
large tissue defects following ablative head and neck oncologic surgery, especially for bony …

Ni-Ti shape memory alloys with triply periodic minimal surface (TPMS) lattice structures have
aroused increasing interests due to their great application potential in bone tissue …

Additive manufacturing of high-entropy alloys combines the mechanical properties of this
novel family of alloys with the geometrical freedom and complexity required by modern …

Biodegradable porous magnesium (Mg) scaffolds are promising for application in the
regeneration of critical-sized bone defects. Although additive manufacturing (AM) carries the …

To explore the possibility of customising the functional behaviour of NiTi shape memory
alloy via controlling texture, binary Ni 55 Ti 45 (wt.%) alloys were manufactured in as cast …

The combination of bioactive Zn‐2Mg alloy and additively manufactured porous scaffold is
expected to achieve customizable biodegradable performance and enhanced bone …

Laser powder bed fusion (L-PBF) provides not only the advantage to make geometrically
complex structures, but also the potential for in-situ alloying. In this work,(NiTi) 100–x Nb x …

Significant attention has been drawn in recent years to develop porous scaffolds for tissue
engineering. In general, porous scaffolds are used for non-load bearing applications …

Over time, the fabrication of lattice, porous structures has always been a controversial field
for researchers and practitioners. Such structures could be fabricated in a stochastic way …