easp 2.38; proghtml 2.37 (C)1999-2015 kawase
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| SCEJ Division session SE-16. <Oral Session on the Division of Materials and Interfaces: Frontiers of Material Synthesis and Interface Control> Each presentation in this session consists of 12 min oral presentation and 8 min discussion. | |||||
| (9:00–10:20) (Chair: Tanaka S., Ohashi H.) | |||||
| Q201 | Instantaneous transient fingerprint morphology of a powdery object in periodic oscillatory motion | powdery object instantaneous fingerprint morphology oscillatory motion | SE-16 | 244 | |
| Q202 | Flowing behavior of reversible gel with nanosilica having different diameter | nanosilica reversible gel viscosity jump | SE-16 | 293 | |
| Q203 | Gelation Behavior of Alumina Slurry Induced by Poly(isobutylene-alt-maleic anhydride) | Gelation Alumina Slurry Poly(isobutylene-alt-maleic anhydride) | SE-16 | 549 | |
| Q204 | Modeling of capillary condensation in ordered mesoporous silicas | Capillary condensation Molecular simulation Adsorption hysteresis | SE-16 | 287 | |
| (10:40–12:00) (Chair: Ishii H., Hirose Y.) | |||||
| Q206 | Static and dynamic adsorption properties of size-engineered ZIF-8 MOF | ZIF-8 diffusion surface barrier | SE-16 | 849 | |
| Q207 | Computational study of gate adsorption behavior on metal-organic framework with the aid of X-ray structural analysis | metal-organic framework gate adsorption free energy analysis | SE-16 | 339 | |
| Q208 | Synthesis of nanoporous carbons using the solvent evaporation-induced self-assembly and direct activation method | Nanoporous carbon Template method Direct activation | SE-16 | 361 | |
| Q209 | Graft polymer characteristics control via plasma-induced graft polymerization | plasma-induced graft polymerization porous substrate graft polymer characteristics | SE-16 | 783 | |
| SCEJ Division Symposium SY-13. <Symposium of the Division of Materials Engineering and Interfacial Phenomena: Coating Technology and Surface Processing> Each presentation in this symposium consists of 12 min oral presentation and 8 min discussion. | |||||
| (13:00–14:00) (Chair: Tatsumi R., Yasui Y.) | |||||
| Q213 | [Invited lecture] Numerical Simulation of dispersion and aggregation of surface modified nanoparticles in liquid phase | surface modified nanoparticles dispersion numerical simulation | SY-13 | 71 | |
| Q215 | The influence of the aggregation properties with respect to the surface structure formation of the concentrated particle dispersion coating film | drying process particle aggregation concentrated suspension | SY-13 | 951 | |
| (14:00–15:00) (Chair: Hidema R., Yahiro T.) | |||||
| Q216 | The analysis of deformation and coalescence in drying process of O/W emulsion | emulsion coalescence dry | SY-13 | 498 | |
| Q217 | Drying model of polymer solution coating with natural-based plasticizer | drying model polymer solution coating plasticizer | SY-13 | 309 | |
| Q218 | Particle segregation and optical property on dried surface of slurry coating with low particle concentration | slurry coating drying particle segregation | SY-13 | 313 | |
| (15:00–15:40) (Chair: Kubo M., Nakano K.) | |||||
| Q219 | Drying model of slurry coating with high particle concentration | Slurry coating Maxwell-Stefan equation Drying model | SY-13 | 421 | |
| Q220 | Polymer layer formation on dried surface of slurry coating with high particle concentration | Slurry coating drying Maxwell-Stefan equation Polymer layer formation | SY-13 | 425 | |
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