Shape memory alloys (SMAs) provide new insights in biomedical engineering with the unique properties they exhibit, in applications such as cardiovascular stents, guide wires and organ frame retractors ...

The use of shape memory alloys to manufacture implantable medical devices represents a high-growth portion of the medical materials market today. The ability of these specialized alloys to expand or ...

Alloys that can return to their original structure after being deformed have a so-called shape memory. This phenomenon and the resulting forces are used in many mechanical actuating systems, for ...

A collaborative effort by leading Japanese institutions has led to the development of copper-based alloy (Cu-Al-Mn) with a unique “shape memory effect” at a low temperature of -200°C (−328 °F). This ...

Even after the hundredth time the material returns to its original shape when heated. Using computer simulation, Alberto Ferrari calculated a design proposal for a shape memory alloy that retains its ...

Shape-memory alloys, as their name implies, possess the ability to return to their original shape after being stretched or squished. Nickel-titanium shape-memory alloys, for example, are used as ...

Small pieces of the alloy were put through 10 million "shape memory" cycles Engineers have produced an alloy that springs back into shape even after it is bent more than 10 million times. "Memory ...

An advanced tire technology developed by NASA for use on planetary rovers could be coming to a bike lane near you, with startup the Smart Tire Company leveraging the technology to introduce an airless ...

Using computer simulation, Alberto Ferrari calculated a design proposal for a shape memory alloy that retains its efficiency for a long time even at high temperatures. Alexander Paulsen manufactured ...

Engineers have produced an alloy that springs back into shape even after it is bent more than 10 million times. "Memory shape alloys" like this have many potential uses, but present incarnations are ...