Since we are able to use 3D printers, producing porous metal scaffolds become very easy.
Contrary to usual methods, 3D printing of porous scaffolds is determined by a controllable …

Nickel–titanium (NiTi) is a shape-memory alloy, a type of material whose name is derived
from its ability to recover its original shape upon heating to a certain temperature. NiTi falls …

Micro laser powder bed fusion (µ-LPBF) additive manufacturing presents enormous
potential in fabricating complex metallic micro-components (ie the component with a feature …

Laser powder bed fusion (PBF-LB) can be potentially used for producing patient-specific
biomedical devices based on micro struts such as cardiovascular stents. NiTi alloys are an …

Nitinol shape memory alloy is a biocompatible material that is suitable for biomedical
applications due to its superelasticity, shape memory effect, good corrosion and fatigue …

To develop self-recovery intelligent components based on resistance heating and obtain
satisfactory performance in practical applications, this study optimized the forming quality …

Despite increasing interest in Nickel Titanium-based high-temperature shape memory alloys
(HTSMAs), machining challenges and limited functionality at elevated temperatures hinder …

Laser powder bed fusion (LPBF) has proved to be a promising process for tuning the
microstructure and mechanical response in NiTi-shaped memory alloys using a varied …

At present, research on 3D printing technology for meat protein food is still in its early stages,
and improving the molding stability and accuracy of products has always been a key …

Concerning the high demand for lightweight and multifunctional properties of engineering
structures, the coral skeleton-inspired sheet-based (CSS) structure, which was a novel bio …