In recent years, additive manufacturing technology has attracted considerable attention from various stakeholders. Among the different techniques, Arc wire-based direct energy deposition (DED) has ...
A research team led by Dr. Se-Jong Kim and Dr. Juwon Na of the Materials Data Management Center in the Materials Digital Platform Division together with a research team led by Professor Seungchul Lee ...
A research team led by Kyung Mun Min and Seonghwan Choi of Materials Processing Research Division (Korea Institute of ...
Materials scientists have been enchanted by the search for new materials that exceed the temperature capability of Ni-based superalloys for many decades. High melting point and solidus temperatures ...
The properties of steel can be improved in terms of fatigue, weldability, hardness, wear and corrosion resistance, ductility, and tensile strength by either alloy addition or heat treatment processes.
A method that can automatically identify and quantify materials’ microstructure from microscopic images has been developed by the research teams led by Professor Seungchul Lee of POSTECH and Dr.
AMES, Iowa – In just the first few months of 2024, the journal Nature has published two scientific papers co-authored by Kun Luo, an Iowa State University postdoctoral research associate in materials ...
Researchers demonstrate a fabrication process of yttrium aluminum garnet doped with cerium 3D micro-objects, producing ...
Researchers have developed a new way to 3D-print glass microstructures that is faster and produces objects with higher optical quality, design flexibility and strength. Researchers at UC Berkeley have ...
The primary issue in arc melting additive manufacturing is the high heat input, which results in stress and deformation, significantly affecting the microstructure. Factors such as temperature ...