Oxide dispersion strengthened (ODS) alloys are characterized by nanoscale oxide particles
homogeneously dispersed in a metallic matrix. They have been developed driven by …

Materials subjected to high dose irradiation by energetic particles often experience severe
damage in the form of drastic increase of defect density, and significant degradation of their …

Reduced activation ferritic/martensitic steels are currently the most technologically mature
option for the structural material of proposed fusion energy reactors. Advanced next …

We report on the alloy design strategies, precipitation mechanism and mechanical
properties of an ultra-high strength steel hardened by co-precipitation of nanoscale NiAl and …

Oxide-dispersion-strengthened steels are the most promising structural materials for next-
generation nuclear energy systems because of their excellent resistance to both irradiation …

Fe–Cr–Ti–Y2O3 oxide dispersion strengthened materials have a high density of nano-
oxides (Y, Ti, O) that are stable at high temperature. In this work based on transmission …

This article summarizes the recent progress on develo** a class of potentially
transformational structural materials called nanostructured ferritic alloys, which are leading …

Structures of nanoparticles in Fe-16 Cr-4.5 Al-0.3 Ti-2 W-0.37 Y 2 O 3 (K3) and Fe-20 Cr-4.5
Al-0.34 Ti-0.5 Y 2 O 3 (MA956) oxide dispersion strengthened (ODS) ferritic steels produced …

Oxide dispersion strengthened (ODS) alloys exhibit superior mechanical properties due to
the presence of nano-sized thermally stable oxide particles. However, manufacturing of ODS …

Nanostructuredferritic alloys (NFAs) have the potential to make transformational
contributions to develo** advanced sources of fission and fusion energy. NFAs are Fe-Cr …