In a novel class of magnetic materials known as non-collinear antiferromagnets, researchers from Tohoku University and Massachusetts Institute of Technology (MIT) have revealed a representative effect of the anomalous dynamics in action.
A “slight crosslinking” technique that gives ferroelectric materials elastic recovery has been proposed by a research team at the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences (CAS), under the direction of Prof. Runwei Li.
Swedish premium fastener manufacturer BUMAX has been selected to provide fasteners to be used in machines for ultrasonic metal welding.
Relaxor–ferroelectric materials are high-performance ultrasound generation elements exhibiting large dielectric responses owing to their complex structures.
A recent study demonstrated for the first time how electrical creation and regulation of magnetic vortices in an antiferromagnet can be accomplished, a finding that would boost the data storage capacity and speed of next-generation devices.
As of today, April 12th, Sandvik’s metal powder webshop, offering standardized alloys for additive manufacturing (AM) from stock, is officially open for business.
North Carolina State University’s new study throws light on how electric fields can be employed to change the thermal properties of ferroelectric materials, enabling engineers to influence the heat flow via the materials.
Arnold Magnetic Technologies Corporation (“Arnold”), a subsidiary of Compass Diversified and leading global manufacturer of high-performance magnets, magnetic assemblies, precision thin metals and highly loaded composites, announces its range of titanium foils and alloys.
As the world looks for ways to cut greenhouse gas emissions, researchers from Sandia National Laboratories have shown that a new 3D-printed superalloy could help power plants generate more electricity while producing less carbon.
Researchers have created a material that is able to prevent liquids and gases from penetrating the material and protect vital components. While flexible batteries are one potential application for this new wonder material, the team claims that other devices using liquids or showing sensitivity to oxygen exposure will benefit from this using the new technology.