September 6th, 2016 | by April Gocha, PhD
Researchers at North Carolina State University, the National Institute of Standards and Technology, and Oak Ridge National Laboratory have devised a new method for characterizing materials that can more accurately predict crystallographic structures.
August 19th, 2016 | by April Gocha, PhD
The September issue of the ACerS Bulletin—featuring ACerS 2016 awardees, an update to the Materials Genome Initiative, designing unique combination furnaces, and a novel flash spark plasma sintering process—is now available online.
August 15th, 2016 | by Eileen De Guire
In a recent paper, Materials Development Inc. (Arlington Heights, Ill.) approached the problem of topological constraint theory from a different theoretical angle—the team wanted to see whether approaching structure from the theoretical perspective of the thermodynamic model of ideal associated solutions could describe temperature-dependent structure changes.
August 9th, 2016 | by April Gocha, PhD
ACerS member and Fellow Nitin Padture penned one of three commentaries for a new aerospace-centered issue of Nature Materials. Padture’s article, “Advanced structural ceramics in aerospace propulsion,” details the vital role of advanced structural ceramics in ever-advancing vehicle propulsion systems.
August 9th, 2016 | by Stephanie Liverani
Rice University researchers (Houston, Texas) want to know what makes concrete stronger and tougher. And after analyzing more than 600 computer models of concrete’s inner matrix, they determined that both voids and particles are key players in giving the material its remarkable qualities.
July 28th, 2016 | by April Gocha, PhD
A team of scientists at Northwestern University has discovered that some ferroelectric materials are hiding a surprise. Layered perovskites don’t conform to conventional wisdom—instead, these materials completely turn off polarization if enough strain is applied to them.
July 15th, 2016 | by April Gocha, PhD
Scientists at University of Kaiserslautern and Fraunhofer Institute for Physical Measurement Techniques in Kaiserslautern, Germany, have developed a technique that uses time of flight measurements from terahertz pulses to resolve individual layers within multilayered surfaces—now all the way down to 4 micrometers.
July 1st, 2016 | by Eileen De Guire
The HTCMC-GFMAT poster session was outstanding and provided an excellent opportunity for many researchers to present their most recent work with each other
June 27th, 2016 | by April Gocha, PhD
The Materials Project—a public database of materials property data launched in 2011—just released another massive chunk of data, complete with user-friendly tools to explore and analyze that data.
June 23rd, 2016 | by April Gocha, PhD
Scientists at Corning Inc. (Corning, N.Y.) and Aalborg University (Aalborg, Denmark) have turned to computer modeling to help develop a glass-specific genome that will allow exploration and tailoring of specific properties of functional glasses.