Design News

Researchers Create Innovative Metal-Textile Hybrid Using 3D Printing

IMDEA and UPM have developed deformable woven nitinol metamaterials that combine metal strength with textile flexibility.
VoxelMatters

IMDEA researchers develop woven nitinol to overcome 3D printing limitations

Researchers have developed a design-driven methodology that significantly increases the deformability of 3D printed nitinol.
AZoNano

How Has Nanotechnology Helped the Development of Nitinol?

Nitinol's name is derived from its alloy composition and place of discovery; Nickel Titanium and the Naval Ordinance Laboratory in America. In 1959, William J Buehler attempted to design better ...
MD&M East

Addressing the Rising Price & Demand of Nitinol

As an extremely versatile product, nickel-titanium (nitinol) has been in high demand for the production of various medical devices since well before the start of the coronavirus pandemic. Today, a ...
EurekAlert!

Study of nitinol deformations to enrich understanding of materials with targeted properties

The work was sponsored by Russian Science Foundation; the project, headed by Professor Anatolii Mokshin, is titled "Theoretical, simulating and experimental research of physico-mechanical traits of ...
AZOM

Tailoring the Properties of Nitinol Alloys via Laser Powder Bed Fusion

A recent study in Scientific Reports explored how volume energy density (VED) during laser powder bed fusion (L-PBF) affects the microstructure and corrosion resistance of NiTi alloys (Nitinol). The ...