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Cho, K.*; 森岡 亮太*; Harjo, S.; 川崎 卓郎; 安田 弘行*
Scripta Materialia, 177, p.106 - 111, 2020/03
被引用回数:35 パーセンタイル:92.02(Nanoscience & Nanotechnology)Deformation behavior of Ti-12Mo alloy which is primarily deformed by {332}113 deformation twinning was studied by in situ neutron diffraction measurements and deformation structure analyses, focusing on the formation of stress-induced martensite phase. We directly observed for the first time that the phase was formed at the initial stage of the plastic deformation and the volume fraction of the phase increased with increasing plastic deformation. This stress-induced martensite phase acts as a nucleation site for the {332}113 twins. Further increase in stress results in a replacement of the phase by the {332}113 twins.
小柳 禎彦*; 植田 茂紀*; 川崎 卓郎; Harjo, S.; Cho, K.*; 安田 弘行*
Materials Science & Engineering A, 773, p.138822_1 - 138822_11, 2020/01
被引用回数:3 パーセンタイル:19.16(Nanoscience & Nanotechnology)The strengthening mechanism of Ni-38Cr-3.8Al (mass%) alloy with fine lamellar structure composed of the and -Cr layers, which is formed by discontinuous precipitation, was examined by in situ neutron diffraction analysis. The contribution of each constituent phase on the deformation behavior could be separated by the in situ analysis. The plastic deformation occurred preferentially in the and phases, while the -Cr phase deformed more elastically even beyond the yield point of the and phases, which is similar to the cementite in pearlite of a steel. Fine nano-lamellar structure formed by the discontinuous precipitation is found to be mainly responsible for high strength of the alloys, while the influence of the precipitates on strength is likely to be small.