Session Details
[S9]S9.Materials Science of Mille-feuille Structure V(2)
Thu. Sep 22, 2022 1:00 PM - 4:35 PM JST
Thu. Sep 22, 2022 4:00 AM - 7:35 AM UTC
Thu. Sep 22, 2022 4:00 AM - 7:35 AM UTC
Rm. F D25,2Flr. Build.D
座長:宮澤 知孝(東京工業大学)、安藤 大輔(東北大学)
※表示の講演時間には質疑応答時間も含みます。
(質疑応答時間5分、基調講演と招待講演は5~10分)
(質疑応答時間5分、基調講演と招待講演は5~10分)
[S9.25]Kink-band formation in various microstructural mille-feuille materials, and resulting strengthening
*Koji HAGIHARA1 (1. Nagoya Inst Tech)
[S9.26]Kink band formation in single crystals of anisotropic crystals
*Kyousuke KISHIDA1,2, Hiroaki NOSE1, Kohei OHKAGE1, Haruyuki INUI1,2 (1. Kyoto Univ., 2. Kyoto Univ. ESISM)
[S9.27]Elastic properties of Materials with Mesoscopic Mille-Feuille Structure
*Masakazu Tane1, Shota Higashino1, Tsuyoshi Mayama2, Koji Hagihara3 (1. Osaka Metropolitan Univ., 2. Kumamoto Univ., 3. Nagoya Inst. Tech.)
[S9.28]Kink microstructure formed in mille-feuille type Al-Cu eutectic alloy
*Daisuke EGUSA1, Koji HAGIHARA2, Tsuyoshi MAYAMA3, Eiji ABE1,4 (1. University of Tokyo, 2. Nagoya Institute of Technology, 3. Kumamoto University, 4. NIMS)
[S9.29]Mille-feuille structures in Al-RE eutectic alloys and its kink deformation
*Kosaku HAKITA1, Seiji MIURA2, Ken-ichi IKEDA2 (1. Hokkaido Univ. (Master), 2. Hokkaido Univ.)
break
[S9.30]Experimental verification of kink strengthening in Mg-Y-Z alloy with LPSO phase
*Masatoshi MITSUHARA1, Tsubasa TOKUZUMI2, Aoi FUKUSHIMA2, Shigeto YAMASAKI1, Hideharu NAKASHIMA1 (1. Kyushu Univ., 2. Kyushu Univ.)
[S9.31]FTMP-based Perspectives on Scale-Free Characteristics in Kink Formation/Strengthening
*Tadashi HASEBE1, Kota MIZUTANI2 (1. Kobe University, 2. Graduate School of Kobe University)
[S9.32]FTMP-based Series of Simulations on Kink Deformation/Strengthening
*Kota MIZUTANI1, tadashi HASEBE2 (1. 神戸大工(院生)、2. 神戸大)
[S9.33]Deformation and rotation mechanisms in kink banding of mille-feuille structure
*Tsuyoshi MAYAMA1, Koji HAGIHARA2, Daisuke EGUSA3, Eiji ABE3 (1. Kumamoto University, 2. Nagoya Institute of Technology, 3. University of Tokyo)
[S9.34]Evaluation of Multiple Kinks Effect on Kink Strengthening Using Higher-order Gradient Crystal Plasticity Model
*Yuichi Tadano1, Kaito Kimura1 (1. Sage University)