@article{oai:nifs-repository.repo.nii.ac.jp:00011080,
 author = {Aghamiri, S.M.S. and Oono, N. and UKAI, S. and Kasada, R. and NOTO, Hiroyuki and Hishinuma,  Yoshimitsu and MUROGA,  Takeo},
 journal = {Journal of Alloys and Compound},
 month = {Apr},
 note = {This study describes the effect of microstructural development on high tensile properties of a newly developed He/H2 milled oxide dispersion strengthened copper in a large centimeter sized spherical morphology. Electron back scattered diffraction showed development of a strong texture of (110) plane in micron sized (1.2 μm) grains on the surface of milled spheres. A combination of microstructural features of inhomogeneous grain size, nanoscale lenticular/rectangular deformation twins, high dislocation density and fine oxide particles distribution induced a very high ultimate tensile strength (688 MPa)-ductility (8.6% elongation).},
 pages = {674--679},
 title = {Microstructure development and high tensile properties of He/H2 milled oxide dispersion strengthened copper},
 volume = {783},
 year = {2019}
}