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21st SCEJ Students Meeting in Kyoto (2019)

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Most recent update: 2019-02-18 13:09:45

TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Materials engineering & interfacial phenomena
(10:00–11:00) (Chair: Shin-ichi Kihara, Tsutomu Ono)
10:0010:12K01Synthesis and Bioactive Evaluation of CaO-ZnO-P2O5/ P2O5 Glass Composites
(NIT Ube) *Kawaguchi Takumi, Shigeno Koichi, (Yamaguchi U.) Fujimori Hirotaka
Biomaterial
Phosphate Glass
Simulated Body Fluid (SBF) Test
12-k53
10:1210:24K02The shape of Metal Tree
(Tennoji H.S.) *Kadomura J., *Yamaguchi K., *Okumoto D.
Ionization tendency
Metal tree
electron
12-g58
10:2410:36K03Delivery of biological materials to plant cells using biodegradable carrier particles
(Osaka Pref. U.) *Aisu Hikari, Konishi Yasuhiro, Nomura Toshiyuki
DDS
PLGA
Plant cell
12-m67
10:3610:48K04Influence of fiber length on self-healing corrosion protective coating using cellulose nanofibers
(Hiroshima U.) *Sato Hiroki, Yabuki Akihiro
Self-healing
Corrosion inhibitor
Cellulose nanofiber
12-i65
10:4811:00K05Stretching motion of DDAB vesicles under electrolyte diffusion
(Doshisha U.) *Furuno Sakiko, Sato Ayaka, Nawa Erika, Yamamoto Daigo, Shioi Akihisa
vesicle
pH variation
streching motion
12-i69
Materials engineering & interfacial phenomena
(11:00–12:00) (Chair: Masahiro Katoh, Tatsuo Maruyama)
11:0011:12K06Development of Janus Gel Microparticles Using Aqueous Two-Phase System Droplets
(Okayama U.) *Ikegami K., Motohiro I., Watanabe T., Ono T.
aqueous two-phase system
phase separation
anisotropic
12-c71
11:1211:24K07Relationship between ozone crack and tensile strain in non-protective laminated rubber bearings
(Doshisha U.) *Enomoto T., Murata K., Nawa E., Yamamoto D., Shioi A., (Kawakin Core-Tech) Himeno T.
rubber bearing
ozone crack
tensile strain
12-m76
11:2411:36K08Synthesis of Pt-Ru nanoparticles for electrodes in direct methanol fuel cell using bioreduction reaction
(Kyoto U.) *Ikemoto Riku, Sano Noriaki
bioreduction
Pt-Ru nanoparticle
direct methanol fuel cell
12-d95
11:3611:48K09Development of Monitoring Technique of Carbon Dioxide Concentration for Foam Injection Molding Process using Near-Infrared Spectroscopy
(Kyoto U.) *Hosoe Shunsuke, Hikima Yuta, Ohshima Masahiro
Foam Injection Molding
Near-Infrared Spectroscopy
Carbon Dioxide
12-k101
11:4812:00K10Synthesis of composite particle for all-solid-state batteries by wet process
(Osaka Pref. U.) *Miyamoto Hiromi, Nakamura Hideya, Ohsaki Shuji, Watano Satoru
all-solid-state battery
coating
wet process
12-a107
Materials engineering & interfacial phenomena
(13:00–14:12) (Chair: Hirohisa Uchida, Erika Nawa)
13:0013:12K11Fabrication of MoS2 nanosheet stacked membrane and the change of layered structure
(Kobe U./MaF Tech C.) *Uneo T, Nakagawa K, Yoshioka T, Shintani T, Kamio E, Matsuyama H
MoS2
nanosheet
layered structure
12-d118
13:1213:24K12Surface treatment using ionic liquid-silane coupling agent and its surface characteristics
(Okayama U.) *Aono R., Ono T., Watanabe T.
Ionic liquid
Wettability
Sliding angle
12-a122
13:2413:36K13pH value dependence adsorbate release behavior from porous metal-organic frameworks
(Osaka Pref. U.) *Akagi Kohei, Ohsaki Shuji, Nakamura Hideya, Watano Satoru
Metal-organic framework
Drug release
pH dependence
12-c124
13:3613:48K14Preparation of water-soluble silver nanoparticle and its antibacterial properties and formation of Pickering emulsion
(NIT Nara) *Horiki Yusuke, Naoe Kazumitsu
nanoparticle
antibacterial
Pickering emulsion
12-b130
13:4814:00K15Order-Disorder Boundary of Soft Colloidal Crystals in Organic Solvents
(Kyoto U.) *Kunimitsu H., Arai N., Watanabe S., Miyahara M.
Colloidal Crystals
DLVO theory
Atomic Force Microscope
12-a141
14:0014:12K16Effect of preparation condition on pore structure of silica gel prepared by wet method
(U. Miyazaki) *Yamahara Kurumi, (NIT Miyakonojo) Kiyoyama Shiro, (U. Miyazaki) Shiomori Koichiro
silica gel
pore structure
wet method
12-k150
Thermal engineering, Safety
(14:12–15:24) (Chair: Yuta Hikima, Kosuke Suzuki)
14:1214:24K17Numerical simulation of crystal growth of Silicon Carbide usind Bottom Seeded Solution growth method
(U. Osaka) *Yoshimura T., (Graduate School of U. Osaka) horiuchi T., Sekimoto A., Okano Y.
Bottom Seeded Solution Growth
Numerical simulation
SiC crystal growth
3-f19
14:2414:36K18Elucidation of local boiling heat transfer mechanism of water caused on micro-fabricated SUS heat transfer surface by visualizing flow
(Tokushima U.) *Yamauchi T., Mine D., Katoh M., (Daikatech) Ohnishi K., (Tokushima U.) Yonekura D., Shimoda N., Sugiyama S.
Local boiling heat transfer mechanism of water
Micro-fabricated SUS heat transfer surface
Visualizing flow
3-c26
14:3614:48K19Thermal management of server computers in an office using flow control with inverse analysis
(Kobe H.S./Osaka U. SEEDS) *Takahashi Daiki, (Osaka U.) Sekimoto Atsushi, Okano Yasunori
adjoint-based inverse analysis
CFD
optimization
3-f35
14:4815:00K20Discover of the cycle of the oscillating reaction
(Tennoji H.S.) Nishiyama F.
three elements of combustion
burning resistance
fireproof paper
3-b57
15:0015:12K21Production of freezing mixture
(Tennoji H.S.) *Siroyama T., *Miyoshi K., *Yoshida K., *Nakano H.
freezing mixture
mixture ratio
minimum temperature
3-f112
15:1215:24K22Study of Noncombustible materials
(Tennoji H.S.) *Fujimoto M., *Isino M., *Osa A., *Horikawa R., *Yoshida S.
Noncombustible materials
building material
check the spread of the fire
10-e108

Technical program
21st SCEJ Students Meeting in Kyoto (2019)

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Most recent update: 2019-02-18 13:09:45
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