Session Details
High-temperature materials processing
Tue. Sep 26, 2017 3:30 PM - 5:30 PM JST
Tue. Sep 26, 2017 6:30 AM - 8:30 AM UTC
Tue. Sep 26, 2017 6:30 AM - 8:30 AM UTC
Poster Room1, Seminar Room & Foyer Fl.2.,Build.Frontier, Seminar Room2 & Foyer
[PY1-58]Evaporation Separation of Neodymium and Dysprosium Using CaCl2–CaF2 Mixed Molten Salt
○Yuki Sawada1, Kouji Yasuda1, Rika Hagiwara1 (1. Kyoto University)
[PY1-59]The solubility of gold in the FeOx-SiO2 slag equilibrated with a pure gold or the liquid Au-Cu binary alloy at 1573 K
○Kazuya Tsunokawa1, Katsunori Yamaguchi1, Akio Fuwa1 (1. WASEDA UNIVERSITY)
[PY1-60]Synthesis of SiC nanomaterials via high temperature reduction of silica with carbon
○Kazumasa Maruta1 (1. Nagoya University )
[PY1-61]Interfacial reaction between bulk MgAl2O4 and FeOn-SiO2 slag under oxygen partial pressure control
○Gaku SHIMADA1, Hiromichi TAKEBE1 (1. Ehime university)
[PY1-62]Evaluation of Slag/Matte Composition and Microstructure in Rapid Oxidation Melting of Copper Concentrate
○Yusuke Takahashi1, Hiromichi Takebe1 (1. Ehime University)
[PY1-63]Viscosity Measurements of Copper Slag Melts under Oxygen Partial Pressure Control
○Sei KUZUMAKI1, Satoshi OKANO1, Hiromichi TAKEBE1 (1. Ehime-University)
[PY1-64]Synthesizing Condition of PbPt2O4 and Pb2PtO4 and Dissolution Behavior to Hydrochloric Acid
○Kotaro Seki1, Shinya Hayashi1, Takashi Nagai1 (1. Chiba Institute of Technology)
[PY1-65]Improvement of titanium concentration in Bi-Ti alloy by centrifugal filtration for new titanium smelting process
○Kazuhiro Kumamoto1, Katsufumi Okamoto1, Akihiro Kishimoto1, Yoshinobu Kunitomo1, Tetsuya Uda1 (1. Kyoto University)
[PY1-66]Recovery of Ir from Wasted Iridium Oxide-type Electrodes
○Genki Takeuchi1, Yuto Kobayashi1, Hideyuki Suzuki1, Takashi Nagai1 (1. Chiba Institute of Technology)
[PY1-67]Effect of aluminum carbides on carbothermal reduction of alumina
○Amina Chahtou1, Rabie Benioub1, Lihaowen Zeng1, Hidekazu Kobatake1, Kenji Itaka1 (1. Hirosaki University)
[PY1-68]High Temperature Extraction of REE from Electric Vehicle Motor Core
with Monotectic Reaction of the B2O3-REBO3 System.
○Naohiro Yamamoto1, Masami Kudo2, Katsunori Yamaguchi1, Kazuhiro Ogawa3, Masashi Ohmura3 (1. Wasseda University, 2. Iwate University, 3. Nissan Motor Ltd. Materials Technology Division)