@article{oai:kyutech.repo.nii.ac.jp:00005720,
 author = {Mito, Masaki and 美藤, 正樹 and Shibayama, Keisuke and Deguchi, Hiroyuki and 出口, 博之 and Tsuruta, Kazuki and Tajiri, Takayuki and Edalati, Kaveh and Horita, Zenji and 堀田, 善治},
 issue = {12},
 journal = {Journal of Applied Physics},
 month = {Sep},
 note = {We measured the electrical conductivity of bulk nanostructured silver prepared by high-pressure torsion (HPT) in a contactless manner by observing the AC magnetic susceptibility resulting from the eddy current, so that we could quantitatively analyze the dissipation process of the residual strain with sufficient time resolution as a function of temperature T and initial shear strain γ. The HPT process was performed at room temperature under a pressure of 6 GPa for revolutions N = 0–5, and we targeted a wide range of residual shear strains. The contactless measurement without electrode preparation enabled us to investigate both the fast and slow dissipation processes of the residual strain with sufficient time resolution, so that a systematic study of these processes became possible. The changes in the electrical conductivity as a function of N at room temperature were indeed consistent with changes in the Vickers microhardness; furthermore, they were also related to changes in structural parameters such as the preferred orientation, the interplanar distance, and the crystallite size. The dissipation process at N = 1, corresponding to γ ≈ 30, was the largest and the fastest. For N = 5, corresponding to γ ≈ 140, we considered the effects of grain boundaries, as well as those of dislocations. The strain dissipation was quite slow below T = 290 K. According to the analytical results, it became successful to conduct the quantitative evaluation of the strain dissipation at arbitrary temperatures: For instance, the relaxation times at T = 280 and 260 K were estimated to be 3.6 and 37 days, respectively.},
 pages = {125105-1--125105-7},
 title = {Contactless measurement of electrical conductivity for bulk nanostructured silver prepared by high-pressure torsion: A study of the dissipation process of giant strain},
 volume = {122},
 year = {2017},
 yomi = {ミトウ, マサキ and デグチ, ヒロユキ and ホリタ, ゼンジ}
}