Glass and ice are two materials known for being brittle. However, when glass is produced very thin—on the scale of micrometers—it can bend quite a bit without failure. Now researchers in China showed this same principle applies to ice as well.
Read MoreGraphene valleytronics, ferroelectricity in boron nitride, and other materials stories that may be of interest for September 22, 2021.
Read MoreTo date, there are few textbooks that cover the topic of ceramic processing well. A new wiki initiated by ACerS members Olivier Guillon and Wolfgang Rheinheimer provides a platform for practical articles to help anybody working on ceramics to set up their lab.
Read MoreCerium oxide nanoparticles have gained attention in biological fields due to their unique properties, including the ability to act as both an oxidation catalyst and reduction catalyst. In two new papers, researchers at the University of Central Florida explore the potential of these nanoparticles in wound healing and as a surface disinfectant.
Read MoreThe binder used in refractory production requires careful consideration because it can influence the refractory’s final mechanical and chemical properties. Researchers in Germany advanced a selective and systematic method for choosing an inorganic binder.
Read MoreThe October/November 2021 issue of the ACerS Bulletin—featuring an overview of research and markets in Africa—is now available online. Plus—gradient refractive index optics.
Read MoreBatteries are not the only part of electric vehicles that contain critical materials—many electric vehicle motors use rare-earth magnets as well. Nissan and Waseda University developed a five-step pyrometallurgy process to recover rare-earth compounds from electric vehicle motor magnets.
Read MoreWind turbine blades are notoriously difficult to recycle due to the mixed nature of the blade material. Two companies are exploring different ways to improve lifecycle sustainability through glass fiber reclamation and developing a new resin for the blade.
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