A groundbreaking titanium metamaterial with unparalleled strength and versatility could revolutionize manufacturing and high-speed aviation.
![Titanium-based metamaterial unlocks strength beyond nature](https://www.advancedsciencenews.com/wp-content/uploads/2024/02/thumbnail_New_Figure.jpg)
A groundbreaking titanium metamaterial with unparalleled strength and versatility could revolutionize manufacturing and high-speed aviation.
Scientists uncover a surprising link between hyperbolic metamaterials and gravity, revealing that light behaves similarly in both realms.
Mechanical metamaterials are finding application in data storage with benefits such as immunity to degradation and hacker protection.
Researchers from UC Berkeley are utilizing deep learning to bypass iterative finite element calculations. Their deep learning model is trained using finite element simulation data to predict the deformation behavior of favorable designs.
Metamaterials that can locally control their stiffness and shape would enable a host of new technologies.
As the demand for photovoltaics increases, so too does the demand for rare metal resources, which must be addressed.
The computational design, fabrication, and experimental evaluation reported is the first dynamic demonstration of a mechanically tunable negative stiffness metamaterial.
Paving the way to industrial application of mechanical metamaterials in various fields.
Camouflage is taken to the next level using hierarchical metamaterials.
This month’s Advanced Engineering Materials covers and top papers.