The unique properties of shape-memory alloys such as nitinol have lent themselves to a variety of applications across numerous industries, including medical devices. These common shape-memory alloys, ...

This Collection welcomes original research on shape memory alloys, with a focus on their synthesis, structural and functional characterisation, and emerging applications. Shape memory alloys (SMAs) ...

Shape memory alloys are exotic materials that can be deformed at room temperature and return to their "remembered," pre-deformed shape when heated. They are used in a broad range of applications, such ...

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 ...

A study led by Tohoku University, Iwate University, The Japan Aerospace Exploration Agency (JAXA), National Astronomical Observation of Japan, Tokyo City University, and Kyoto University developed a ...

Researcher Ken Gall uses this thermomechanical test frame to determine the maximum possible shape change of his team's shape-memory polymer. Shape-memory alloys and polymers are the contortionists of ...

Fort Wayne Metals on Thursday announced it is working with NASA’s Glenn Research Center in Cleveland to advance shape memory alloy material technology for innovative rover tires that could support the ...

Endowed with the power of memory, certain alloys can magically return to their original shape when heated or deformed. However, the repeated back-and-forth between the original and new configuration ...

Can the Thermal Properties of Shape Memory Alloys be adjusted for Heating and Cooling Applications? Thermal parameters, especially thermal expansion, play a key role in the performance of shape memory ...