Posts from this topic will be added to your daily email digest and your homepage feed. A metal that can move on its own will play a key role in NASA’s next voyage to Mars A metal that can move on its ...

Another Kickstarter, another opportunity for people to get mad at delayed and poorly functioning (if delivered at all) gadgets. This project aims to make airless tires for bikes and scooters using ...

IMDEA Materials combines additive manufacturing, algorithms, and architectural design to create superelastic 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 ...

BOSTON--(BUSINESS WIRE)--Desktop Metal (NYSE: DM) and The University of Toledo Institute of Applied Engineering Research today announced a partnership to support the development of nickel-titanium ...

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 ...

SCOTTSDALE, Ariz.--(BUSINESS WIRE)--Confluent Medical Technologies Inc. (“Confluent”) today announced an expansion of its supply agreement with Allegheny Technologies (ATI) related to the manufacture ...

How a special nitinol compound and 3D printing was used to create the shape-shifting antenna. An overview of materials and heating problems they encountered, and how they overcame them. The test ...

A diagram shows how a thin film of patterned nitinol can be used to hold CAR T cells, with fibrin protein used as a binding agent. (Fred Hutchinson Cancer Research Center Graphic) Researchers at ...

NASA has been developing metal tires at its Glenn Research Center in Cleveland, Ohio, for more than seven years, spending “several million dollars” in the process. Now, the space-age tires made from ...