| |
 |
Program |
|
LIST OF ORAL
PRESENTATIONS |
ROOM
A, Nara-Ken New Public Hall |
23 Oct. (Tue.) |
|
14:00~14:30* |
Marangoni
Convection in half-Zone Liquid bridge of Molten
Tin |
K.
Li1, N. Imaishi1, S. Yoda2, 1: Kyushu
University,
2: JAXA |
14:30~14:50 |
Experimental
Study of Oscillatory Marangoni Convection in
Low Pr Half-Zone Liquid Bridge |
S. Matsumoto1,
H. Ohira1, S. Yoda1, E. Yoda2, N. Imaishi3, 1:
Japan Aerospace Exploration
Agency, 2: Advanced
Engineering Services, Co.Ltd, 3: Kyushu University |
14:50~15:10 |
The study
on thermocapillary convection in high temperature
Bi12SiO20 melt |
W. Q. Jin,
Shanghai Institute of Ceramics, Chinese Academy
of Sciences |
15:10~15:30 |
Marangoni
convection in binary and nano-fluids in the presence
of Soret effect |
A. Podolny1,
A. Oron1, A. A. Nepomnyashchy1,2, 1: Technion,
2: Minerva Center for Nonlinear Physics of Complex
Systems |
15:30~15:50 |
Numerical
analysis of bubble behavior with thermocapillary
flows in an open cylindrical container |
H. Ohira1,
S. Matsumoto1, T. Mashiko2, S. Yoda1, Y. Kamotani3,
1: Japan Aerospace Exploration
Agency, 2: Shizuoka
University, 3: Case Western Reserve University |
23 Oct.
(Tue.) |
|
16:00~16:30* |
Oscillatory
Thermocapillary Flow of High Prandtl Number Fluid
and Its Dependence on Free Surafce Heat Transfer |
A. Wang1,
Y. Kamotani1, S. Yoda2, 1: Case
Western Reserve University, 2: JAXA |
16:30~16:50 |
Control of
thermocapillary flow in liquid bridge by varying
interfacial thermal conditions |
D. E. Melnikov,
V. Shevtsova, Free University of Brussels (ULB) |
16:50~17:10 |
The study
of heat-loss effect on the liquid bridge free
surface in Marangoni convection |
Y. Yura,
K. Nishino, Yokohama National University |
17:10~17:30 |
Effect of
Diameter on Thermocapillary Convection in Liquid
Bridge |
K. Hirokawa,
H. Kawamura, Tokyo University of Science |
17:30~17:50 |
Effect of
Liquid Bridge Dimension on Oscillation Mode of
Marangoni Convection |
K. Shobu,
K. Nishino, Yokohama National University |
17:50~18:10 |
Ground Investigation
for Microgravity Experiment of Particle Accumulation
Structure (PAS) in Thermocapillary Convection |
A. Hojo,
H. Kawamura, Tokyo University of Science |
24 Oct.
(Wed.) |
|
14:00~14:30* |
Thermocapillary
Cavities: Mechanisms of Instability and the Relation
to the Lid-Driven-Cavity Problem |
H. Kuhlmann,
S.Albensoeder, Vienna University of Technology |
14:30~14:50 |
Influence
of free surface curvature on the Pearson instability
in Marangoni convection |
W. R. Hu,
Institute of Mechanics, Chinese Academy of Sciences |
14:50~15:10 |
Evaporation
and Convection Instability in Liquid Systems
with a Vapor-liquid Interface |
Q. S. Liu,
J. C. Xie, R. Liu, Z.Q. Zhu, Y. Ji, Q. Yu, Z.
Q. Zang, Chinese Academy of Sciences |
15:10~15:30 |
Nano-Liter
Droplet Volume Control with Thermocapillary Effect |
S. Uemura,
H. Kawamura, Tokyo University of Science |
15:30~15:50 |
Particle
Behavior in Non-Coalescence Head-to-Head Droplets
Formed between Coaxial Rods with Temperature
Difference |
I. Ueno,
A. Miyauchi,
Tokyo University of Science |
24 Oct.
(Wed.) |
|
16:00~16:30* |
Free Surface
Behavior in a Compensated Gravity Environment |
M. E. Dreyer,
ZARM, University of Bremen |
16:30~16:50 |
Dynamic free
surface deformations in liquid bridge |
V. Shevtsova1,
A. Mialdun1, C. Ferrera2, M. Ermakov3, 1: Université
Libre de Bruxelles (ULB), 2: Universidad de Extremadura,
3: Institute for Problems in Mechanics |
16:50~17:10 |
Effect of
eccentric rotation on the equilibrium shapes
and stability of liquid bridges in an axial gravity
field |
V. Lapuerta,
A. Laverón-Simavilla, J. Rodríguez, M. A. González,
E.T.S.I.Aeronáuticos (Universidad Politécnica
de Madrid) |
17:10~17:30 |
Effects of
Small and Lateral Vibrations on the Surface Oscillation
of an Isothermal Liquid Bridge |
R. Q. Liang,
M. Kawaji, University of Toronto |
17:30~17:50 |
Confined
fluids subjected to random vibrations while in
near free-fall |
C. A. Ward,
J. Wu, T. Farouk, University of Toronto |
17:50~18:10 |
Characterization
of the Surface Oscillation of Liquid Nitrogen
Induced by Step Reduction of Gravity Acceleration |
M. Stief,
M. E. Dreyer, ZARM, University of Bremen |
25 Oct.
(Thu.) |
|
9:15~9:45* |
Gravity Effect
on Dynamics of Liquid Film with Two Contact Lines:
Results of Parabolic Flights |
O. Kabov1,2,
A. Glushchuk1, Jean-Claude Legros1,3, 1: Microgravity
Research Centre, ULB, 2: Institute of Thermophysics
of RAS, 3: Euro Heat Pipes S.A |
9:45~10:05 |
Surface Motion
of a Liquid Bridge Induced by External Vibrations:
Experimental and Numerical Investigation |
Y. Yura,
Q. Godfroy, M. Kawaji, University of Toronto |
10:05~10:25 |
Dynamics
of a liquid film produced by spray impact onto
a heated target |
O. N. Kyriopoulos,
I. Roisman, T. Gambaryan-Roisman, P. Stephan,
C. Tropea, Darmstadt University of Technology |
10:25~10:45 |
In-situ Observation
of Bubble Evolution under Microgravity |
M. Ohno1,
G. Sakuma1, H. Matsushima2, Y. Fukunaka1, 1:
Kyoto University, 2: Kiel University |
25 Oct.
(Thu.) |
|
11:00~11:30* |
Perspectives
on foam rheology |
D. L. Weaire1
, S. Hutzler1, J. Banhart2, F. Garcia Moreno2,
D. Langevin3, M. Adler4, R. Hoehler4, N. Vandewalle5,
A. Saint-Jalmes6, D. Durian7,
1: Trinity College
Dublin,
2: Hahn-Meitner-Institut Berlin,
3: Université
Paris Sud,
4: LPMDI - Cité Descartes - Bât. Lavoisier,
5: GRASP, Université de Liège,
6: Dpt Physique
: GMCM,
7: University of Pennsylvania |
11:30~11:50 |
Aqueous and
organic foams under microgravity conditions |
M. Vignes-Adler1,
M. Anderson2, B. Kronberg2, A. Saint-Jalmes3,
D. Langevin3, D. Weaire4, S. Cox5, B. Prunet-Foch1,
O. Pitois1, 1: LPMDI, University of Paris-Est,
2: Institute for Surface Chemistry, 3: LPS, University
of Paris Sud, 4: Trinity College, 5: University
of Wales |
11:50~12:10 |
Coronet formation
under microgravity |
S. Ozawa1,
K. Watari1, S. Shiratori1, T. HIBIYA2, 1: Tokyo
Metropolitan University, 2: Keio University |
12:10~12:30 |
Threshold
between splashing and spreading of droplet stream |
T. Totani,
K. Nambu, A. Kawakami, Y. Yuri, H. Nagata, Hokkaido
University |
25 Oct.
(Thu.) |
|
14:00~14:30* |
Transport-mechanisms
generated by bubbles during boiling in microgravity |
J. Straub,
Technical University Muenchen |
14:30~14:50 |
Nucleate
Boiling on a single site: Contact Angle Analysis
for a Growing Vapour Bubble |
D. Serret,
S. Guignard, L. Tadrist, IUSTI, Marseille |
14:50~15:10 |
Boiling crisis
and evaporation at the triple contact line |
V. Nikolayev1,2,
D. Chatain1, D. Beysens1,2, Y. Garrabos3, 1:
ESEME, CEA-Grenoble, 2: ESPCI et Universités
Paris 6 et Paris 7, 3: ESEME-CNRS-ICMCB - UPR,
Université Bordeaux |
15:10~15:30 |
Magnetic
compensation of gravity: experiments with oxygen
on the low pressure boiling heat transfer |
G. Pichavant1,
B. Cariteau1, D. Chatain1, V. Nikolayev1,2, D.
Beysens1, 1: ESEME, CEA-Grenoble, 2: ESEME, ESPCI
et Universités Paris 6 et Paris 7 |
15:30~15:50 |
Development
of Transparent Heated Tubes of Varied Diameters:
Simultaneous Measurement of Heat Transfer and
Flow Pattern |
O. Kawanami1,
S. C. Huang1,
K. Kawakami1, I. Honda1,
Y. Kawashima1,
H. Ohta2,
1: University of Hyogo,
2: Kyushu University |
25 Oct.
(Thu.) |
|
16:00~16:30* |
QUENCHING
EXPERIMENTS OF HOT TUBES AT NORMAL AND REDUCED
GRAVITY CONDITIONS |
G. P. Celata1,
M. Cumo2, Giuseppe Zummo1 1: ENEA, Institute
for Thermal Fluid Dynamics Via Anguillarese,
2: University of Rome La Sapienza |
16:30~16:50 |
Pool boiling
heat transfer in microgravity |
J. F. Zhao1,
N. Yan1, Y. H. Lu1, Z. D. Li1, W. R. Hu1, H.
Ohta2, 1: Institute of Mechanics, Chinese Academy
of Sciences, 2: Kyushu University |
16:50~17:10 |
Saturated
Pool Boiling in Microgravity in ARIEL Experiment |
P. Di Marco,
W. Grassilothar, Dipartimento di Energetica “L.
Poggi”, Università di Pisa |
17:10~17:30 |
Numerical
Simulation of Liquid Sloshing in Microgravity |
H. B. Parizi1,
J. Mostaghimi2, 1: Simulent Inc., 2: University
of Toronto, |
26 Oct.
(Fri.) |
|
9:15~9:35 |
Innovative
Heat Pipes with Self-Rewetting Fluids under normal
and reduced gravity conditions |
"R.
Savino1, C. Piccolo2 , K. Tanaka3, Y. Abe4, 1:
Università degli Studi di Napoli, 2: MARS Center,
Napoli,
3: Shibaura Institute of Technology, 4: AIST" |
9:35~9:55 |
Transport
phenomena and mechanical behavior of a suspension
of vesicles in microgravity, BIOMICS project |
M. Hoyos1,
C. Misbah2, T. Podgorski1, F. Dubois3, N. Callens3,
C. Minetti3, P. Kurowski2, C. Ratier2, 1: UMR5588
CNRS, Université Joseph Fourier, 2: UMR7636 CNRS,
ESPCI, Paris, 3: Microgravity Research Center,
Université Libre de Bruxelles, PMMH-CNRS |
9:55~10:15 |
On the Way
of Detecting Negative Thermophoresis (Results
of Microgravity Experiments and of Gas-Kinetic
Analysis) |
A. Vedernikov1,
S. Beresnev2, A. Markovich1, 1: Université Libre
de Bruxelles, 2: Ural State University |
10:15~10:35 |
Measurement
of Soret coefficient in aqueous solutions |
A. Mialdun,
V. Shevtsova, Université Libre de Bruxelles (ULB) |
26 Oct.
(Fri.) |
|
11:00~11:30* |
Vibration-modified
phase separation of super critical CO2 in Maxus
7 sounding rocket and H2 under magnetic gravity
compensation |
D. Beysens1,2
, Y. Garrabos3, D. Chatain2, P. Evesque4, 1:
ESEME, ESPCI et Universités Paris 6 et Paris
7, 2: ESEME, CEA-Grenoble, 3: ESEME-CNRS, Université
Bordeaux I, 4: Ecole Centrale de Paris, UMR 8579
CNRS |
11:30~11:50 |
The Study
of Heat Transfer in a Closed Domain of Supercritical
SF6 with the Laboratory and Numerical Instruments |
V. Emelyanov,
A. Gorbunov, A. Lednev, Institute for Problems
in Mechanics, Russian Academy of Sciences |
11:50~12:10 |
Optical cell
for study of water properties near its liquid-gas
critical point |
Y. Garrabos1,
C. Lecoutre1, F. Palencia1, D. Beysens2,3, V.
Nikolayev2,3, P. Evesque3, 1: ESEME-CNRS-ICMCB
- UPR 9048, Université Bordeaux I, 2: ESEME,
ESPCI et Universités Paris 6 et Paris 7, 3: ESEME,
CEA-Grenoble, 4: Lab. Mss.Mat.- UMR8579, Ecole
Centrale Paris ICMCB CNRS |
12:10~12:30 |
Colloidal
Dispersions in Supercritical Fluids: New Experimental
Opportunities for Microgravity Research |
S. Deguchi1,
S. Mukai1,2, K. Tsujii3, 1: Japan Agency for
Marine-Earth Science and Technology (JAMSTEC),
2: Kyushu University, 3: Hokkaido University |
26 Oct.
(Fri.) |
|
13:50~14:20* |
Preparation
for the VIP-CRIT Space Experiment on the ISS:
An Analysis of MIR Experiments and Ground-Based
Studies of Heat Transfer and Phase Separation
in Near-Critical Fluid |
V. I. Polezhaev1,
V. Emelyanov1, A. Gorbunov1, G. Putin2, A. Zyuzgin2,
A. Ivanov3, D. Beysens4,5, Y. Garrabos6, 1: Institute
for Problems in Mechanics, 2: Perm State University,
3: RKK Energia, 4: ESEME, CEA-Grenoble, 5: ESEME,
ESPCI et Universités Paris 6 et Paris 7, 6: ESEME-CNRS-ICMCB
- UPR 9048, Université Bordeaux I |
14:20~14:40 |
The CFE-Vane
Gap Experiments on ISS |
M. M. Weislogel1,
R. Jenson1,
Y. Chen1, S. Collicott2,
1: Portland
State University,
2: Purdue University |
14:40~15:00 |
GeoFlow European
Microgravity Experiments on Thermal Convection
in Rotating Spherical Shells under influence
of Central Force Field |
Th. von Larcher,
B. Futterer, C. Egbers, R. Hollerbach, P. Chossat,
P. Beltrame, L. Tuckerman, F. Feudel, BTU Cottbus
Brandenburg University of Technology |
15:00~15:20 |
FLUID PHYSICS
EXPERIMENT FACILITY FOR JEM |
R. Kobayashi1,
Y. Nakagawa2, M. Onishi2, 1: Japan Aerospace
Exploration Agency, 2: IHI Aerospace Co.,Ltd. |
15:20~15:40 |
The Fluid
Science Laboratory on the ISS Columbus module
- Performances and Operations |
G. Trinchero1,
M. Cardano1, E. Pensavalle1, M. Tacconi2, 1:
Thales Alenia Space -Italia, 2: ESA/ESTEC |
ROOM
B, Nara-Ken New Public Hall |
23 Oct.
(Tue.) |
|
13:50~14:15* |
Dusty Plasma
Liquids and Solids in Space |
O. F. Petrov1,
V. E. Fortov1,
O. S. Vaulina1, V. I. Molotkov1,
A. M. Lipaev1, G. E. Morfill2,
H. Thomas2, A.
Ivlev2, M. Thoma2,
N. N. Sevast'yanov3, A. I.
Ivanov3,
1: Joint Institute for High Temperatures
of the Russian Academy of Sciences,
2: Max- Planck-Institut
fur Extraterrestrische Physik,
3: Russian Space
Corporation “Energiya” |
14:15~14:35 |
PKE-Nefedov
- first natural science experiment on the International
Space Station |
V. I. Molotkov1,
A. M. Lipaev1, V. E. Fortov1, O. F. Petrov1,.G.
Morfill2, H. Thomas2, A. V. Ivlev2, S. A. Khrapak2,
S. K. Krikalev3, Y. M. Baturin4, 1: Institute
for High Energy Densities, RAS, 2: Max-Plank
Institute for Extraterrestrial Physics, 3: RSC
“Energia”, 4: Yu.Gagarin Cosmonaut Training C |
14:35~14:55 |
PK-3 Plus
- Complex plasma research on the International
Space Station |
H. M. Thomas1,
G. E. Morfill1, V. E. Fortov2, A. Ivlev1, H.
Rothermel1, V. I. Molotkov2, O. F.Petrov2, A.
I. Lipaev2, 1: Max-Planck Institut für extraterrestrische
Physik, 2: RAS - Institute for High Energy Densities |
14:55~15:15 |
Liquid-Vapor
Critical Point in Complex Plasmas Under Microgravity
Conditions |
S. A. Khrapak,
G. E. Morfill, Max-Planck-Institut fuer extraterrestrische
Physik |
15:15~15:35 |
Thermodynamic
Instability in Strongly Coupled Fine Particle
Plasmas and Critical Phenomena |
H. Totsuji,
Okayama University |
15:35~15:55 |
Experimental
Investigation on Conditions of Microgravity Experiment
for Critical Point in Dusty Plasmas |
S. Adachi1,
H. Totsuji2, Y. Hayashi3, K. Takahashi3, O. Ishihara4,
M. Takayanagi1, S. Yoda1, 1: Japan Aerospace
Exploration Agency, 2: Okayama University, 3:
Kyoto Institute of Technology, 4: Yokohama National
University |
23 Oct.
(Tue.) |
|
16:05~16:25 |
Experiments
of Fine Particle Plasmas toward Observation of
Critical Phenomena |
Y. Hayashi1,
K. Takahashi1, H. Totsuji2, O. Ishihara3, S.
Hamaguchi4, N. Sato5, Y. Watanabe6, S. Adachi7,
M. Takayanagi7, 1: Kyoto Institute of Technology,
2: Okayama University, 3: Yokohama N:ational
University, 4: Osaka University, 5: Tohoku University,
6: Kyushu University, 7: Japan Aerospace Exploration
Agency |
16:25~16:45 |
Plasma Parameters
Estimated in Complex Plasmas of PKE-Nefedov on
the ISS and PK-3 Plus on the Ground |
K. Takahashi1,
H. M. Thomas2,
A. V. Ivlev2, G. E. Morfill2,
Y. Hayashi1, S. Adachi3,
1:Kyoto Institute of
Technology,
2: Max-Planck-Institut für extraterrestrische
Physik,
3:Japan Aerospace Exploration Agency |
16:45~17:05 |
String Fluids
in Electrorheological Complex Plasmas (Microgravity
Experiments with PK 3+ Setup) |
A. Ivlev1,
G. Morfill1, G. Joyce2,
C. RÄth1, H. Thomas1,
R. Kompaneets1, P. Huber1,
V. Molotkov3, A. LipaevI3,
O. Petrov3,
V. Fortov3,
1: Max-Planck-Institute
for Extraterrestrial Physics,
2: Naval Research
Laboratory,
3: Institute for High Energy Densities |
17:05~17:25 |
Lane formation
in Complex Plasmas under Microgravity Conditions |
M. Rubin-Zuzic1,
R. Pompl1,
H. M. Thomas1, U. Konopka1,
A. V.
Ivlev1, M. Kretschmer1,
G. E. Morfill1, V. E.
Fortov2,
V. I. Molotkov2, O. F. Petrov2,
A. I.
Lipaev2,
1: Max-Planck Institut für extraterrestrische
Physik,
2: RAS - Institute for High Energy Densities |
17:25~17:45 |
PK-4: Complex
Plasmas in Space - the Next Generation |
M. H. Thoma
and the PK-4 Team, Max Planck Institute for extraterrestrial
Physics |
17:45~18:05 |
Microrods
in a Gas Discharge Plasmas - Results of First
Experiments under Microgravity |
A. D. Usachev1,
H. HÖfner2,
M. Thoma2, M. Fink2, A. Zobnin1,
M. Kretschmer2, O. Petrov1,
G. Morfill2, V. Fortov1,
1: Joint Institute for High temperatures of Russian
Academy
of Sciences,
2: Max-Plank-Institut für
Extraterrestrische Physik |
24 Oct.
(Wed.) |
|
14:00~14:30* |
The heterogeneous
burning of metallic materials in oxygen atmospheres
in reduced gravity |
T. Steinberg,
Queensland University of Technology |
14:30~14:50 |
Effect of
Core Material on Flame Spread over Polymer-insulated
Wire in Sub-atmospheric Pressure |
N. Yoshimura,
Y. Nakamura, T. Matsumura, H. Ito, O. Fujita,
Hokkaido University |
14:50~15:10 |
Wire Insulation
Ignition with Excess Electric Current in Microgravity |
K. Agata,
Y. Ichimura, T. Fujii, H. Ito, Y. Nakamura, O.
Fujita, Hokkaido University |
15:10~15:30 |
Measurements
of oxygen depletion of a laminar diffusion flame
over PMMA in microgravity using wavelength modulation
laser absorption spectroscopy |
M. Reimert,
C. Eigenbrod, ZARM, University of Bremen |
15:30~15:50 |
Combustion
Wave in Random Media |
F. D. Tang,
S. Goroshin, A. Higgins, Mac-Gill University |
24 Oct.
(Wed.) |
|
16:00~16:30* |
Response
of Single Droplet Combustion to Oscillatory Flow
at Elevated Pressure in Microgravity |
H. Kobayashi,
M. Jangi, S. Hasegawa, Y. Ogami, K. Yoshinaga,
H. Nakamura, Tohoku University
|
16:30~16:50 |
Cool Flame
Behavior around an Isolated n-Decane Droplet
in a Hot Air under Microgravity |
O. Moriue,
K. Shimada, D. Eto, E. Murase, Kyushu University |
16:50~17:10 |
Combustion
Experiment of a Partially Pre-vaporized Linear
Fuel Droplet Array by TEXUS Sounding Rocket:
Results from Precursory Ground-based Research |
M. Kikuchi1,
N. Sugano1, S. Yoda1, O. Moriue2, M. Mikami3,
H. Nomura4, O. Fujita5, A. Umemura6, K. MÖsl7,
T. Sattelmayer7, C. Eigenbrod8, O. Minster9,
1: Japan Aerospace Exploration Agency, 2: Kyushu
University, 3: Yamaguchi University, 4: Nihon
University, 5: Hokkaido University, 6: Nagoya
University, 7: Technical University of Munich,
8: University of Bremen, 9: European Space Agency,
ESTEC |
17:10~17:30 |
Preparations
of the NOx Measurements for the Combustion of
an n-Decane Droplet Array Under Microgravity
Conditions |
K. G. Mösl1,
T. Sattelmayer1,
M. Kikuchi2, S. Yoda2,
1: Technische
Universität München (TUM), 2: Japan Aerospace
Exploration Agency (JAXA) |
17:30~17:50 |
Microgravity
Experiments on Droplet Array Combustion in Fuel-Vapor-Air
Mixture |
H. Nomura1,Y.
Suganuma2,
H. Iwasaki1, M. Mikami3,
1: Nihon
University,
2: IHI Aerospace Co. Ltd.,
3: Yamaguchi
University |
17:50~18:10 |
Comparison
of Experimental and Numerical Results of the
Autoignition of n-Heptane Sprays under Machine
Conditions |
P. Rickmers1,
J-C. Dittmer1, C. Eigenbrod1, O. Moriue2, 1:
ZARM University of Bremen, 2: Kyushu University
|
25 Oct.
(Thu.) |
|
9:15~9:45* |
Characterization
of the soot formation path in a boundary type
diffusion flame under reduced gravity |
P. Joulain,
A. Fuentes, H. El-Rabii, Laboratoire de Combustion
et Détonique, CNRS – ENSMA – Uiversité de Poitiers |
9:45~10:05 |
Drop Tower
Investigations on Soot Formation in Laminar Jet-Diffusion
Flames |
J. Reimann,
S. A. Kuhlmann, S. Will, Technische Thermodynamik,
Universität Bremen |
10:05~10:25 |
Effects of
Gravity on the Ignition of Hydrogen and Air Premixed
Gases via Hot Surface |
M. Castillo,
S. Usuba, D. Kim , Y. Kakudate, M. Mamiya, H.
Nagai, National Institute of Advanced Industrial
Science and Technology (AIST) |
10:25~10:45 |
Numerical
Simulation on the Flame Propagation in Acoustic
Fields |
M. Tanabe,
T. Yano, T. Kuwahara, CST, Nihon University |
25 Oct.
(Thu.) |
B6:
Thermophysical Properties I |
11:00~11:20 |
Evaluation
of thermophysical data from electromagnetic levitation
experiments with digital image processing |
S. Schneider1,
I. Egry1, R. Willnecker1, R. Wunderlich2, M.
Pütz3, 1: DLR, German Aerospace Center, 2: University
Ulm, 3: SEA GmbH |
11:20~11:40 |
Density measurement
of silicon melt using electromagnetic levitation
method under static magnetic fields |
"M.
Adachi1, T. Aoyagi1, A. Mizuno1, M. Watanabe1,
H. Kobatake2, H. Fukuyama2, S. Awaji2, 1: Gakushuin
University,
2: Tohoku University" |
11:40~12:00 |
Thermophysical
Properties of g-TiAl and Al-Ni Alloys in the
Liquid Phase: Results of the IMPRESS Project |
I. Egry1,
D. Holland-Moritz1, H-J. Fecht2, K. Higuchi3,
W. Löser4, T. Matsushita5 , R. Novakovic6, E.
Ricci6, S. Seetharaman5, R. Wunderlich2, 1: DLR
Cologne, 2: Ulm University, 3: Institute of Space
and Astronautical Science, JAXA, 4: IFW Dresden,
5: Royal Institute of Technology KTH, 6: IENI-CNR |
12:00~12:20 |
Development
of non-contact electrical resistivity measurement
technique usin an electrostatic levitator |
"T.
Ishikawa1, P-F. Paradis1, Y. Watanabe2, N. Koike3,
1:Japan Aerospace Exploration Agency, 2: AES
Co. ltd.,
3: Chiba Institute of Technology" |
25 Oct.
(Thu.) |
B7:
Thermophysical Properties II |
14:00~14:30* |
The Thermolab
Project - Thermophysical Properties of Industrial
Alloys in the Liquid Phase for Casting and Solidification
Modelling |
H-J. Fecht1,
L. Battezzati2,
I. Egry3, J. Étay4, T. Matsushita5
,
R. Novakovic6, E. Ricci6,
S. Seetharaman5,
R. Wunderlich1,
1: Ulm University,
2: Università
di Torino,
3: DLR Cologne, 4: CNRS-EPM,
5: Royal
Institute of Technology
KTH, 6: IENI-CNR |
14:30~14:50 |
BASIC PRINCIPES
OF NON-CONTACT THERMOPHYSICAL PROPERTY MEASUREMENTS
IN REDUCED GRAVITY UNSING INDUCTIVE LEVITATION |
P. Schetelat1,
V. Bojarevics2, K. Pericleous2, J. Etay1, 1:
CNRS-SIMAP-EPM, 2: University of Greenwich |
14:50~15:10 |
Surface Tension
and Viscosity Evaluation by the Oscillating Drop
Method under Droplet Rotations |
K. Higuchi1,
M. Watanabe2, R. Wunderlich3, H-J. Fecht3, 1:
Japan Aerospace Exploration Agency, 2: Gakushuin
University, 3: University of Ulm |
15:10~15:30 |
The Metastable
Miscibility Gap in Co-Cu and Co-Cu-X alloys (Experiments,
Calculations and Microstructures)
|
l. Battezzati,
Université ; di Torino |
15:30~15:50 |
Surface Tension
Measurment of Molten Steinless Steel using Oscillating
Droplet method
|
S. Ozawa,
Tokyo Metropolitan University |
25 Oct.
(Thu.) |
|
16:00~16:30* |
JAXA-New-GCF
Project for Protein Crystal Growth |
M. Sato1,
H. Tanaka2, K. Inaka3, S. Sano1, S. Shinozaki4,
S. Takahashi2, M. Yamanaka2, E. Hirota2, B. Yan2,
T. Kobayashi1, T. Tanaka1, 1: Japan Aerospace
Exploration Agency, 2: Confocal Science Inc.,
3: Maruwa Foods and Biosciences Inc., 4: Japan
Space Forum |
16:30~16:50 |
SCCO: measurement
of Soret coefficients in crude oils in microgravity |
"S.
Mazzoni1, O. Minster1,
E. Kufner1, D. Classens2,
S. Van Vaerenbergh3, J. C. Leros3, J. L. Daridon4,
F. Montel5, M. Z. Saghir6, A. Shapiro7,
1: ESA/ESTEC,
2: Verhaert Space,
3: Microgravity Research Center,
4: UPPA, Pau, 5: Total,
6: Ryerson University,
7: Technical University
of Denmark" |
16:50~17:10 |
Interfacial
Properties of Colloidal Dispersions and Corresponding
Nanoparticle-Stabilised Emulsions from the MAP-Project
FASES |
L. Liggieri1,
F. Ravera1, E. Santini1, M. Ferrari1, R. Miller2,
D. Grigoriev2, J. KrÄgel2, G. Loglio3, D. Clausse4,
I. Pezron4, C. Dalmazzone5, M. Antoni6, M. Rozieres6,
A. Steinchen6, 1: CNR-Inst. For Energetic and
Interphases, Genova, 2: Max-Planck Inst. for
Colloids and Interfaces, 3: Univ. of Florence,
4: Univ. Technologie Compiegne, 5: Institute
Français du Pétrole, 6: Aix-Marseille Université |
17:10~17:30 |
Dilute emulsions
characterization with optical scanning tomography
performed in the framework of the MAP-Project
FASES. |
M. Antoni1,
M. Rozieres1, J. KrÄgel2, L. Liggieri3, R. Miller2,
A. Steinchen1, 1: Aix¬Marseille Université, 2:
Max¬Planck Inst. for Colloids and Interfaces,
Golm¬Potsdam, 3; CNR¬Inst. For Energetic and
Interphases |
26 Oct.
(Fri.) |
B9:
Thermophysical Properties III |
9:15~9:35 |
PRELIMINARY
RESULTS OF THE THERMAL DIFFUSION COEFFICIENTS
FOR HYDROCARBON MIXTURES FLOWN ONBOARD FOTON
M3 MISSION |
M. Z. Saghir1,
T.J. Jaber1, S. Pan1, Y. Yan1 and S. Van Vaerenbergh2,
1: Ryerson University, 2: Université Libre de
Bruxelles |
9:35~9:55 |
Precise Thermal
Conductivity Measurement of Melts by Hot-disk
Method during Short-duration Microgravity |
H. Nagai1,
M. Mamiya1, T. Okutani2, 1: National Institute
of Advanced Industrial Science and Technology
(AIST), 2: Yokohama National University |
9:55~10:15 |
Differential
Scanning Calorimetry as a tool for following
emulsion evolution in microgravity conditions
from the MAP-Project FASES |
D. Clausse1,
I. Pezron1, F. Gomez1, C. Dalmazzone2, L. Sacca1,
A. Drelich1, 1: Université de Technologie de
Compiègne- CNRS, 2: IFP |
10:15~10:35 |
THERMOPHYSICAL
PROPERTIES OF Fe-ALLOYS: A GROUND AND MICROGRAVITY
BASED INVESTIGATION
|
L. Battezzati1,
I. Egry2, J. Étay3, H-J. Fecht4, T. Matsushita5
, R. Novakovic6, E. Ricci6, F. Schmidt-Hohagen7,
S. Seetharaman5, R. Wunderlich4, 1: Università
di Torino, 2: DLR Cologne, 3: CNRS-EPM, 4: Ulm
University, 5: Royal Institute of Technology
KTH, 6: IENI-CNR, 7: DLR Bonn
|
26 Oct.
(Fri.) |
|
11:00~11:30* |
Extending
the frontiers of quantum gases to microgravity |
E. M. Rasel,
T.v. Zoest, W. Ertmer, Institut für Quantenoptik,
Leibniz Universität |
11:30~11:50 |
Cold Quantum
Gases under Weightlessness (Bose-Einstein Condensation
in Microgravity) |
K. Bongs4,
W. Brinkmann1, H. Dittus1, W. Ertmer2, E. Göklü1,
G. Johannsen4, E. Kajari5, T. Könemann1, C. Lämmerzahl1,
W. Lewoczko-Adamczyk3, G. Nandi5, A. Peters3,
E. M. Rasel2, J. Reichel6, W. P. Schleich5, M.
Schiemangk3, K. Sengstock4, T. Steinmetz6, A.
Vogel4, R. Walser5, S. Wildfang4, T. van Zoest2,
1: ZARM - University of Bremen, 2: Leibniz University
of Hanover, 3: Humboldt-University of Berlin,
4: University of Hamburg, 5: University of Ulm,
6: Laboratoire Kastler Brossel de l’E.N.S. |
11:50~12:10 |
An optical
lattice clocks on ultracold neutral atoms |
V. D. Ovsiannikov1,
V. G. Pal'chikov2, A. V. Taichenachev3, V. I.
Yudin3,
H. Katori4, M. Takamoto4,
1: Voronezh
State University,
2: National Research Institute
for Physical-Technical and Radiotechnical Measurements
-VNIIFTRI,
3: Institute of Laser Physics SB RAS,
4: The University of Tokyo |
12:10~12:30 |
Mach-Zehnder
interferometry with coherent and squeezed vacuum
light |
L. Pezz´e,
A. Smerzi, BEC-CNR-INFM and Universit`a di Trento |
26 Oct.
(Fri.) |
|
13:50~14:10 |
Cold Atom
Clocks in Microgravity: The ACES Mission |
L. Cacciapuoti1,
C. Salomon2, 1: European Space Agency, 2: Laboratoire
Kastler Brossel, ENS
|
14:10~14:30 |
Test of modified
newtonian dynamics in picogravity. |
R. J. Slobodrian,
C. Rioux,
Université Laval |
14:30~14:50 |
Test of Equivalence
Principle with Optical readout in space |
J. Luo, F.
Gao, Y-Z. Bai, C.-G. Shao, Z-B. Zhou, Huazhong
University of Science and Technology |
14:50~15:10 |
Inertial
sensor and its application to space fundamental
physics |
Y. Z. Bai,
H. B. Tu, Z. B. Zhou, S. C. Wu, J. Luo, Huazhong
University of Science and Technology |
15:10~15:40* |
Wave form
of a density pulse in the supercritical fluid
generated by the piston effect |
Y. Miura1,
M. Ohnishi2, S. Yoshihara2, M. Ishikawa3,
1:
Nagoya University, 2: JAXA,
3: Tokyo Institute
of Technology |
15:40~16:00 |
Chiral Photochemistry
in Density-Fluctuating Sub- and Supercritical
Carbon Dioxide: Discontinuous Pressure Dependence
of Optical Yield |
Y. Inoue1,
Y. Nishiyama2, H. Saito2, T. Wada2, 1: ICORP
Entropy Control Project, JST, 2: Osaka University |
ROOM
C, Nara-Ken New Public Hall |
23 Oct.
(Tue.) |
|
14:00~14:20 |
Surface Tension
of Graphitized Carbon |
C. A. Ward,
J. Wu, University of Toronto |
14:20~14:40 |
Meso/Macro-Level
somputational Chemistry Approach for Microgravity
Effect on Synthesis of Nanoskeleton TiO2 |
H. Takaba1,
K. Okushi1, Y. Sato1, R. Miura1, R. Sahnoun1,
M. Koyama1, H. Tsuboi1, N. Hatakeyama1, A. Endou1,
M. Kubo1, C. A. Del Carpio1, T. Sakai2, H. Sakai2,
M. Abe2, N. Koshikawa3, H. Fukui4, A. Miyamoto1,
1: Tohoku University, 2: Tokyo University of
Science, 3: Japan Aerospace Exploration Agency,
4: Shiseido Co., Ltd. |
14:40~15:00 |
Solidification
of Colloids in Space |
R. Piazza1,
L. Cipelletti2, W. Kegel3, A. Van Blaaderen3,
1: Politecnico di Milano,
2 Université de Montpellier
II,
3: Universiteit Utrecht |
15:00~15:20 |
Potentiality
of Electrostatically Stabilized Colloidal Crystals
as Photonic Crystals |
K Ito1, J.
Yamanaka2, Y. Takiguchi3, T. Sawada4, S. Okamoto5,
Y. Ohki6, 1: University of Toyama, 2: Nagoya
City University, 3: Hamamatsu Photonics, 4: National
Institure for Materials Science, 5: Nagoya Institute
of Technology, 6: Japan Aerospace Exploration
Agency |
15:20~15:40 |
Microgravity
as Media for Titania Nanoskeleton Synthesis |
T. Sakai1,
S. Dai1, H. Yano1, H. Mihara1, H. Shibata1, K.
Torigoe1, K. Tsubone1, K. Sakamoto1, H. Kakoki2,
A. Kimura2, H. Fukui2, N. Koshikawa3, S. Adachi3,
H. Sakai1, M. Abe1, 1: Tokyo University of Science,
2: Shiseido, 3: Japan Aerospace Exploration Agency |
23 Oct.
(Tue.) |
|
16:00~16:30* |
FZ Growth
of Silicon under the influence of rotating magnetic
fields and axial vibrations: Results of the MAXUS
4 and 6 flights |
A. Croell1,
P. Dold1,2, T. Lyubimova3, 1: University of Freiburg,
2: Arise Technologies, 3: Institute for Continuous
Media Mechanics, Russian Academy of Sciences/Perm
State University |
16:30~16:50 |
The effects
of gravity and an applied magnetic field on the
dissolution of silicon into germanium melt |
S. Dost,
N. Armour, B. Lent, University of Victoria |
16:50~17:10 |
CRYSTAL GROWTH
BY THE FLOATING ZONE METHOD WITH USE OF SURFACE
STANDING WAVES AND MAGNETIC FIELDS |
A. Feonychev,
Research Institute for Applied Mechanics and
Electrodynamics of Moscow Aviation Institute |
17:10~17:30 |
Control of
thermo- and solutocapillary flows in FZ crystal
growth by magnetic field and vibrations
|
T. P. Lyubimova1,
I.. S. Faizrakhmanova1, R. V. Scuridyn1, A. CrÖll2,
B. Roux3, 1: Institute of Continuous Media Mechanics
UB RAS, 2: University of Freiburg, 3: L3MGP/UMR
6181, CNRS-Universites d'Aix-Marseille |
17:30~17:50 |
Dewetting
of antimonides in fused silica crucibles under
different growth atmospheres and conditions |
L. Sylla,
T. Duffar, SIMAP-EPM, ENSEEG |
17:50~18:10 |
Preliminary
Experiments for the Growth of Homogeneous Alloy
Semiconductors under Microgravity |
Y. Hayakawa1,
N. Murakami1, T. Hikida1, A. Konno1, T. Tanaka1,
C. H. Chen1, T. Koyama1, Y. Momose1, K. Arafune1,
T. Ozawa2, Y. Okano1, 1: Shizuoka University,2:
Shizuoka Institute of Science and Technology
|
24 Oct.
(Wed.) |
C3:
Materials Processing I |
14:00~14:20 |
CONTROL OF
MELT CONVECTION BY A TRAVELLING MAGNETIC FIELD
DURING THE DIRECTIONAL SOLIDIFICATION OF Al-Ni
ALLOYS |
K. Zaidat1,
N. Mangelinck-Noël2, R. Moreau1, 1:
SIMAP - EPM, ENSEEG, 2: L2MP, UMR 6137 CNRS -
Universités,
Paul Cézanne Campus de Saint Jérôme |
14:20~14:40 |
Validation
of a Front-Tracking Model of the Columnar to
Equiaxed Transition using Solidification Results
from the Maxus 7 Microgravity Platform |
S. Mcfadden1,
L. Sturz2, H. Jung3, N. Mangelinck-NoËl3, H.
Nguyen-Thi3, G. Zimmermann2, B. Billa3, D. J.
Browne1, D. Voss4, D. Jarvis4, 1:
University College Dublin, 2: Access e.V., 3:
L2MP, CNRS - Université Paul Cézanne,
4: European Space Agency |
14:40~15:00 |
Direct Synthesis
of Magnetostrictive SmFe2 by Unidirectional Solidification
in Microgravity |
T. Okutani1,
H. Nagai2, M. Mamiya2, 1: Yokohama National University,
2: National Institute of Advanced Industrial
Science and Technology |
15:00~15:20 |
Global numerical
calculation of the microstructure in AlSi alloys
during directional solidification under microgravity
conditions |
J. Dagner,
J. Friedrich, G, Müller, Fraunhofer IISB |
15:20~15:40 |
Nucleation
and Phase Selection in Undercooled Melts: Magnetic
Alloys of Industrial Relevance (MAGNEPHAS) |
W. LÖser1,
R. Hermann1, T. G. Woodcock1, J. ransaer2, M.
Krivilev2, L. Granasy3, T. Pusztai3, D. M. Herlach4,
M. Kolbe4, D. Holland-Moritz4, T. Volkmann4,
1: Leibniz-Institut für Festkörper- und Werkstoffforschung
IFW Dresden, 2: Katholieke Universiteit Leuven
(KUL), 3: Research Institute for Solid State
Physics and Optics, 4: German Aerospace Center
DLR |
24 Oct.
(Wed.) |
|
16:00~16:30* |
Ice Crystal
project on Japan Experiment Module "KIBO" of
ISS |
Y. Furukawa1,
E. Yokoyama2, I. Yoshizaki3, S. Adachi3, S. Yoda3,
T. Shimaoka4, T. Sone5, T. Tomobe6, 1: Hokkaido
University, 2: Gakushuin University, 3: JAXA,
4: JSF, 5: JAMSS, 6: IHI Aerospace |
16:30~16:50 |
THE SOLUTION
CRYSTALLIZATION DIAGNOSTICS FACILITY (SCDF) FOR
MICROGRAVITY INVESTIGATIONS ON BIOMOLECULAR STRUCTURES
GROWN FROM SOLUTIONS ON BOARD THE INTERNATIONAL
SPACE STATION |
V. Pletser1,
S. Mazzoni1, R. Bosch2, L. Potthast2, 1: European
Space Agency, ESA-ESTEC, 2: Astrium |
16:50~17:10 |
Visualization
Experiment of Faceted Cellular Array Growth in
Microgravity |
Y. Inatomi1,
K. Iwamoto2, T. Maki3, Y. Takagi2, K. Kuribayashi1,
1: Japan Aerospace Exploration Agency, 2: Teikyo
University of Science and Technology, 3: Olympus
Optical Co.
|
|
In situ characterization
of dendrite shape and array dynamics in 3D-solidification
of transparent alloys under gravity |
N. Bergeon1,
C. Weiss1, N. Mangelinck-Noel1, B. Billia1, H.
Singer2, B. Zhou1,3, 1: L2MP, UMR CNRS 6137,
Université Paul Cézanne – Aix-Marseille III,
2: Solid State Physics Laboratory, ETHZ, 3: NMLC,
CAS |
17:30~17:50 |
The effect
of aspartic acid on calcite nucleation |
M. Maruyama,
K. Tsukamot, G. Sazaki, P. Dold, Tohoku University |
17:50~18:10 |
Solidification
behavior of intermetallic compounds with strong
crystallographic anisotropy |
K. Nozaki,
K. Nagashio, K. Kuribayashi, Institute of Space
and Astronautical Science, Japan Aerospace Exploration
Agency |
25 Oct.
(Thu.) |
|
9:15~9:45* |
Non-Equilibrium
Solidification, Modeling for Microstructure Engineering
of Industrial Alloys |
D. M. Herlach1,
R. Lengsdorf1,2, S. Reutzel1,2, P. Galenko1,
Ch.-A. Gandin3, S. Mosbah3, A. Garcia-Escorial4,
H. Henein5, 1: German Aerospace Center DLR, 2:
Ruhr-University Bochum, 3: Ecole des Mines de
Paris, CEMEF UMR CNRS 7635, 4: CENIM-CSIC, 5:
University of Alberta |
9:45~10:05 |
Structure
analysis of metallic liquids by using high-energy
x-ray diffraction combined with the conical nozzle
levitation |
A. Mizuno1,
T. Kaneko1, S. Matsumura1, M. Watanabe1, S. Kohara2,
M. Takata2, 1: Gakushuin University Gakushuin
University, 2: JASRI/SPring-8 |
10:05~10:25 |
Modeling
of Segregation upon Solidification of Undercooled
Melt -The Role of Eutectic Recalescence |
S. Mosbah,
Ch.-A. Gandin, Ecole des Mines de Paris, CEMEF
UMR CNRS |
10:25~10:45 |
In-situ Investigation
of Liquid-Liquid Phase Separation in Hypermonotectic
Alloys |
P. L. Schaffer1,
R. H. Mathiesen2, L. Arnberg1, 1: Norwegian University
of Science and Technology, 2: SINTEF |
25 Oct.
(Thu.) |
C6:
Materials Science III |
11:00~11:20 |
High-Energy
X-ray Diffraction Measurements of Liquid Al2O3
by gas jet levitation method |
T. Akimoto1,
A. Mizuno1, M. Watanabe1, S. Kohara2, 1: Gakushuin
University, 2: Japan Synchrotron Radiation Research
Institute(SPring-8/JASRI) |
11:20~11:40 |
THE EFFECT
OF EUTECTIC UNDERCOOLING ON MICROSEGREGATION
OF RAPIDLY SOLIDIFIED AL-CU DROPLETS |
A. Prasad1,
H. Henein1, Ch.-A. Gandin2, 1: University of
Alberta, 2: Ecole Nationale Supérieure des Mines
de Paris |
11:40~12:00 |
Synthesis
of TiO2 Photo Catalysis Films on A2024 Alloy
for Astronautics Applications by Sol-Gel Method |
H. Kimura1,
R. Tanahashi1, M. Tosa1, K. Ozawa1, F. Urayama2,
1: National Institute for Materials Science,
2: Nagasaki University |
12:00~12:20 |
Experimental
Investigation of Composite Laminates at Room
and Cryogenic Temperatures for Superconductor
Insulation
|
A. Bensely,
D. Peter Michael, D. Mohan Lal, Anna University |
25 Oct.
(Thu.) |
|
14:00~14:20 |
Microstructure
Evolution in a Cu-Co Drop Solidified in a Drop
Tube |
J. Zhao,
H. L. Li, J. He, Institute of Metal Research,
CAS |
14:20~14:40 |
Liquid phase
separation in Cu-Co alloys solidified with different
cooling rates |
S. Curiotto1,2,3,
L. Battezzati1, E. Johnson2,3, N. Pryds3, 1:
Centro di Eccellenza NIS, Universita’ di Torino,
2: University of Copenhagen, 3: Risø National
Laboratory, Denmark |
14:40~15:00 |
The analysis
of crystal growth of compound semiconductors
without thermal convection melts in short-duration
microgravity |
M. Mamiya1,
H. Nagai1, T. Okutani2, 1: National Institute
of Advanced Industrial Science and Technology
(AIST), 2: Yokohama National University |
15:00~15:20 |
Crystallization
of (Cd,Zn)Te and related materials |
M. Fiederle,
Albert-Ludiwgs-Universitaet Freiburg |
15:20~15:40 |
Homogeneous
composition Si0.5Ge0.5 crystal grown by the traveling
liquidus-zone metho |
T. Ueda1,
Y. Arai1, H. Miyata2, R. Tanaka2, S. Adachi1,
K. Kinoshita1, S. Yoda1, 1: Japan Aerospace Exploration
Agency, 2: Advanced Engineering Service Co. Ltd.
|
25 Oct.
(Thu.) |
|
16:00~16:30* |
Why in space
for protein crystallization? |
"K.
Tsukamoto1, P. Dold1, G. Sazaki1, M. Tachibana2,
K. Kojima2, I. Yoshizaki3, 1: Tohoku University,
2: Yokohama City University, 3: Japan Aerospace
Exploration Agency " |
16:30~16:50 |
Impurity
Filtering in Protain Crystal Growth. Growth kinetics
in impure gelled systems |
F. Otalora1,
A. Van Driessche1, G. Sazaki2, 1: LEC (IACT,CSIC/U.
Granada), 2: Tohoku University |
16:50~17:10 |
Observation
of dislocations in protein crystals by X-ray
topography |
M. Koishi1,
N. Ohya1, Y. Mukobayashi1, N. Kitajima1, Y. Yamamoto1,
M. Tachibana1, I. Yoshizaki2, K. Tsukamoto3,
Kenichi Kojima1, 1: Yokohama City University,
2: Japan Aerospace Exploration Agency (JAXA),
3: Tohoku University |
17:10~17:30 |
| | | |
