At first glance, few materials would seem to have less in common than metals and textiles. And yet, by manufacturing nickel-titanium alloys as a highly deformable, interwoven material, more similar to fabric than a typical metal component, researchers from IMDEA Materials Institute and the Technical University of Madrid (UPM) have unlocked previously unachievable properties.
Woven nickel-titanium structures unlock new flexibility in 3D-printed shape-memory materials
Popular Articles
-
When we think of politicians, our minds typically jump to high-stakes negotiations, televised speeches, and headlines covering national or international affairs. We envision them making decisions that impact millions, shaping policy, and addressing major global [...]
-
Regular maintenance and care are essential to prolong the lifespan of your appliances and ensure optimal performance. Here are some general tips to keep your appliances running smoothly: Cleaning and Maintenance: Follow the manufacturer’s instructions: [...]
-
In a rapidly evolving business landscape, where startups strive to break through the noise and secure their foothold, Headliners Media emerges as the guiding light, offering a transformative roadmap for unparalleled growth. This groundbreaking approach [...]
-
In this article, we will introduce you to 12 incredibly effective foot massage techniques that will leave you feeling rejuvenated and relaxed. Foot massages aren’t just a luxury; they provide numerous health benefits, such as [...]
-
Immigration is largely accepted as one of the best strategic responses to Canada’s declining birth rates, aging population and labour market shortages. In many ways, immigrants are now positioned to be the saviours of Canada’s post-pandemic [...]
