Thermodynamics |
PA01 |
Y. Arita, K. Suzuki and T. Matsui;
Nagoya University, Japan
Development of high temperature calorimeter: Heat capacity measurement by direct heating pulse calorimetry |
PA02 |
R. Chellappa and D. Chandra;
University of Nevada, Reno, USA
Thermodynamic assessment of organic binary gPlastic crystalh phase diagrams for thermal energy storage |
PA03 |
D. Chandra, K.H. Lau* and M.L. Gaener**;
University of Nevada, USA
*SRI International, USA
**SMI, Reno, USA
Torsion effusion vapor pressure determinations of Os, Rh, Ru, Re,
Ir, W, Co, and Cr solid carbonyls |
PA04 |
V.E. Fortov, V.P. Efremov, V.S.
Iorish,
V.S. Yungman, G.V. Belov, K.V. Khischenko,
P.R. Levashov, A.S. Gubin*, S.B. Voctorov* and I.V. Lomonosov**;
Institute for High Energy Densities of gIVTANh Association of RAS, Russia
*Moscow Engineering Physics Institute, Russia
**Institute of Problems of Chemical Physics of RAS, Russia
Databank and software system for high energy densities applications |
PA05 |
M. Jiang, C.P. Wang, X.J. Liu, I.
Ohnuma,
R. Kainuma, G.P. Vassilev and K. Ishida;
Tohoku University, Japan
Thermodynamic calculation of phase equilibria in Cu-Ni-Zn system |
PA06 |
A.V. Khachoyan, I,V. Shchurov*,
S.V. Klyuchareva** and V.V. Klyucharev**;
Institute of Structural Macrokinetics and Problems of Material Sciences of RAS, Russia
*Moscow State University, Russia
**Institute of Problems of Chemical Physics of RAS, Russia
Hausdorff geometry of chemical transformations |
PA07 |
M. Leskiv, S. Abramov, N. Chilingarov, J. Rau and J.R. Sidorov;
Moscow State University, Russia
Analysis of equilibrium achievement at CoF3 evaporation |
PA08 |
M. Mäkipää, R. Lahtinen*, R.
Fordham** and
M. Alatalo***;
VTT Processes, Finland
*VTT Industrial System, Finland
**Joint Research Centre Petten, The Netherlands
***University of Oulu, Finland
Modeling of thermodynamic functions for A-Me-X compounds: Available models and their usefulness for data evaluations |
PA09 |
A.P. Malygin, N.E. Dubinin, N.A. Vatolin and
D.V. Alexandrov*;
Institute of Metallurgy of the Urals Division of RAS, Russia
*Urals State University, Russia
On the theory of thermodynamic properties of liquid transition metals: Tight binding model |
PA10 |
S. Knott and A. Mikula;
University of Vienna, Austria
Measurements of the thermodynamic properties of Cu-In-Zn and Cu-Sn-Zn alloys which could become new solder materials |
PA11 |
A.I. Zaitsev, N.E. Zaitseva, K.S.
Gavrichev*,
V.V. Molokanov** and B.M. Mogutnov;
I.P. Bardin Central Research Institute for Ferrous Metallurgy, Russia
*N.S. Kurnakov Institute of General and Inorganic Chemistry RAS, Russia
**A.A. Baikov Institute of Metallurgy and Materials Science RAS, Russia
Absolute entropy of glassy metallic alloys. Ni-Zr and Ni-Zr-Cu systems |
PA12 |
T. Oishi, S. Tagawa and S.
Tanegashima;
Kansai University, Japan
Thermodynamic study of solid copper-nickel alloys by use of copper-beta-alumina |
PA13 |
A.S. Rogachev, S.A. Kirillov, N.A. Kochetov and
N.V. Sachkova;
Institute of Structural Macrokinetics and Materials Science RAS, Russia
Dynamics of solid product formation in high-temperature reactions: Microstructure aspect |
PA14 |
A. Roine;
Outokumpu Research Oy, Finland
New properties of HSC chemistry 5.1 for high temperature applications |
PA15 |
E.K. Kazenas, Yu.V. Tsvetkov, I.O.
Samoilova, G.K. Astakhova and A.A. Petrov;
A.A.Baikov Institute of Metallurgy and Materials Science RAS, Russia
Themodynamics of alkaline metal molybdate evaporation |
PA16 |
G.P. Vassilev, X.J. Liu and K. Ishida;
Tohoku University, Japan
Studies of Ti-Bi-X phase diagrams (X=Sn, Zn) |
PA17 |
C.P. Wang, X.J. Liu, M. Jiang, I.
Ohnuma, R. Kainuma and K. Ishida;
Tohoku University, Japan
Thermodynamic database of the phase diagrams in copper base alloy systems |
PA18 |
T. Yoshikawa and K. Morita;
The University of Tokyo, Japan
Thermodynamics of solid silicon equilibrated with Si-Al-Cu liquid alloys |
Liquid Phase Chemistry |
PA19 |
H. Abe, K. Yoshii*, K. Nishida and M. Imai;
National Institute for Materials Science, Japan
*Japan Atomic Energy Research Institute, Japan
Electrochemical plating of superconductive MgB2 from molten salts |
PA20 |
I. Park*, T. Abiko and T.H. Okabe;
The University of Tokyo, Japan
*Korea Science and engineering Foundation, Korea
Production of titanium powder directly from TiO2 in CaCl2 by electronically mediated reaction (EMR) |
PA21 |
K. Fukushima, Y. Okamoto* and Y. Iwadate;
Chiba University, Japan
*Japan Atomic Energy Research Institute, Japan
Molecular dynamics simulation on the short range structure of ZnBr2-ZnCl2 melt |
PA22 |
T. Goto and Y. Ito;
Kyoto university, Japan
Electrochemical nitriding of Sn in LiCl-KCl-Li3N systems |
PA23 |
H. Hayashi and K. Minato;
Japan Atomic Energy Research Institute, Japan
Stability of lanthanide oxides in LiCl-KCl eutectic melt |
PA24 |
M. Iizuka, K. Kinoshita and T. Koyama;
Central Research Institute of Electric Power Industry, Japan
Modeling of anodic dissolution of U-Pu-Zr ternary alloy in molten LiCl-KCl electrolyte |
PA25 |
Y. Iwadate, Y. Seki, K. Fukushima, M. Misawa*1, T. Fukunaga*2, T. Nakazawa*3, Y. Okamoto*3,
H. Matsuura*4 and N. Umesaki*5;
Chiba University, Japan
*1 Niigata University, Japan
*2 Kyoto University, Japan
*3 Japan Atomic Energy Research Institute, Japan
*4 Tokyo Institute of Technology, Japan
*5 Japan Synchrotron Radiation Research Institute, Japan
Local structure of lead halide melts analyzed by pulsed neutron diffraction |
PA26 |
O.G. Malkhanova, N.E. Dubinin, N.A. Vatlin and T.V. Trefilova;
Institute of Metallurgy of RAS, Russia
The Bhatia-Thornton structure factor for liquid alkali-alkali alloys with the concentration tendency on parameter |
PA27 |
H. Matsuura, H. Numata, R. Fujita*, H. Akatsuka;
Tokyo Institute of Technology, Japan
*Toshiba Corporation, Japan
Reprocessing of spent hydrogen absorbing alloys by using electrochemical techniques in molten salts |
PA28 |
Y. Meguro, S. Iso, Z. Yoshida, J. Ougiyanagi,
A. Uehara, Y. Enokida*, I. Yamamoto*,
O. Tomioka*, S. Yamamoto**, R. Wada** and
K. Yamaguchi**;
Japan Atomic Energy Research Institute, Japan
*Nagoya University, Japan
**Kobe Steel Ltd., Japan
Supercritical carbon dioxide fluid leaching method for removal of uranium from solid samples |
PA29 |
T. Nohira, K. Yasuda and Y. Ito;
Kyoto University, Japan
Electrochemical reduction of solid silicon dioxide to silicon in molten salts |
PA30 |
Y. Okamoto and P.A. Madden*;
Japan Atomic Energy Research Institute, Japan
*Oxford University, UK
Structural study of molten lanthanum halides by X-ray diffraction and computer simulation techniques |
PA31 |
Y. Okamoto, Y. Iwadate*, K. Fukushima*,
H. Matsuura** and K. Minato;
Japan Atomic Energy Research Institute, Japan
*Chiba University, Japan
**Tokyo Institute of Technology, Japan
X-ray structural analysis of molten PbCl2 |
PA32 |
G.N. Papatheodorou and A.G. Kalampounias*;
Foundation for Research and Technology Hellas, Greece
*University of Patras, Greece
Raman spectroscopic studies in oxides melts up to 2200 K |
PA33 |
O. Shirai, T. Kato, T. Iwai and Y. Arai;
Japan Atomic Energy Research Institute, Japan
Electrochemical behaviors of PuN and (U,Pu)N in LiCl-KCl eutectic melts |
PA34 |
R.O. Suzuki;
Kyoto University, Japan
Calciothermic reduction of TiO2 and in-situ electrolysis of CaO in the molten
CaCl2 |
PA35 |
M. Baba*, Y. Ono and R.O. Suzuki;
Kyoto University, Japan
*Cobot Supermetals K.K., Japan
Tantalum and niobium powder preparation from their oxides by calciothermic reduction in the molten
CaCl2 |
PA36 |
A.I. Zaitsev and N.E. Zaitseva;
I.P. Bardin Central Research Institute for Ferrous Metallurgy, Russia
Thermodynamic approach to melt amorphization |
PA37 |
L.A. Zhukova, A.A. Zhukov and O.P. Aksyonova;
Urals State Technical University, Russia
Simulation of disperse state in melted binary metallic eutectics |
Interface |
PA38 |
D.V. Alexandrov;
Urals State University, Russia
Incipience of a two-phase zone during crystallization of binary melts in the ingot mold |
PA39 |
A. Bakov and A. Vatolin*;
Research and Design Institute of Mechanical Engineering, Russia
*Ural State Technical University, Russia
The thermodynamic analysis of oxidated nickeliferous ores reduction by carbon monoxide |
PA40 |
L.R. Brock;
Osram Sylvania, USA
The wetting angle of metal halide melts on different substrate materials |
PA41 |
Yu.A. Elfimov;
Urals State University, Russia
On the theory of the surface reaction diffusion in metal oxides |
PA42 |
C. Chatillon and M. Heyrman;
Domaine Universitaire, France
Surface reactivity by gas introduction in Knudsen cell mass spectrometry |
PA43 |
M. Heyrman and C. Chatillon;
Domaine Universitaire, France
Surface reaction kinetics studied with Knudsen effusion cells |
PA44 |
S.Y. Koo and S.J.L. Kang;
Korea Advanced Institute of Science and Technology, Korea
Reduction kinetics and liquid film migration in Nb2O5-doped
SrTiO3 |
PA45 |
A. Kimura, R. Sugano, Y. Matsushita, R. Kasada, K. Morishita, H. Iwakiri*, N. Yoshida* and
S. Ukai**;
Kyoto University, Japan
*Kyushu University, Japan
**Japan Nuclear Cycle Development Institute, Japan
Thermal helium desorption behavior in advanced ferritic steels |
PA46 |
H. Kiyono and S. Shimada;
Hokkaido University, Japan
Dry and wet oxidation of sintered beta-sialon (z=3) ceramics at 1300 to 1600ºC |
PA47 |
Yu.F. Shmalfko and Ye.V. Klochko;
A.N.Podgorny Institute for Mechanical Engineering Problems of National Academy of Sciences of the Ukraine, Ukraine
Isotope effect at thermo desorption hydrogen excitation by metal hydrides |
PA48 |
M. Müller, K. Hilpert and L. Singheiser;
Forschungszentrum Juelich GmbH, Germany
High temperature corrosion of MoSi2-HfO2 composites in coal slag |
PA49 |
--- |
PA50 |
V.V. Styrov and G.A. Lubyanskii;
Priazovsky State Technical University, Ukraine
Reactions of hydrogen atoms at BN and AlN surfaces followed by chemical energy storage in the solid |
PA51 |
V.V. Styrov, V.I. Tyutyunnikov, O.T. Sergeev*,
Y. Oya** and K. Okuno***;
Priazovsky State Technical University, Ukraine
*Institute of Semiconductor Physics of National Academy of Science of Ukraine, Ukraine
**The University of Tokyo, Japan
***Shizuoka University, Japan
Chemical reactions of atomic hydrogen at SiC surface and heterogeneous chemiluminescence |
PA52 |
M. Takeuchi, T. Kato*, K. Hanada, T. Koizumi and S. Aose;
Japan Nuclear Cycle Development Institute, Japan
*Joyo Industry co. Ltd., Japan
Corrosion resistance of ceramics in molten salt under chlorine gas atmosphere |
PA53 |
K. Tatemoto, Y. Ono and R.O Suzuki;
Kyoto University, Japan
Silicide coating on refractory metals in molten salt |
PA54 |
F. Tholence and M. Norell;
Chalmers University of Technology, Sweden
Nitride precipitation during high temperature corrosion of ductile cast irons in synthetic exhaust gases |
PA55 |
A. Vatolin and A. Sotnikov;
Ural State Technical University, Russia
Redox processes with iron ions participation at the boundary of a metal and oxide melt |
PA56 |
N. Vatolina, A. Vatolin and A. Sotnikov;
Ural State Technical University, Russia
Redox processes with oxygen ions participation at the boundary of a metal and oxide melt |
Preparation of bulk materials |
PA57 |
A. Awasthi, N. Krishnamurthy, H. Fujiwara*,
Y. Ueda* and S.P. Garg;
Bhabha Atomic Research Center, India
*Kyoto University, Japan
DTA studies on synthesis of niobium, tantalum, molybdenum and tungsten silicides |
PA58 |
A. Bellucci, D. Gozzi, M. Iervolino
and A. Latini;
University of Rome eLa Sapienzaf, Italy
Reactivity of Ni-RE intermetallics in atmospheres at low partial
pressures of oxidizing species |
PA59 |
H.E. Grigoryan, N.G. Elistratov*, E.V. Illarionova, N.A. Kochetov, D.Yu. Kovalev, A.N. Nosyrev*, V.I. Ponomarev, A.S. Rogachev, V.I. Khvesyuk* and P.A. Tsygankov*;
Institute of structural macrokinetics and materials science of RAS, Russia
*Moscow State Technical University, Russia
High-temperature reaction waves and product structure formation in the nano-scale multilayer intermetallic films |
PA60 |
N. Igawa, T. Taguchi, N. Nozawa*, L.L. Snead**, T. Hinoki**, J.C. McLaughlin**, Y. Katoh*,
S. Jitsukawa and A. Kohyama*;
Japan Atomic Energy Research Institute, Japan
*Kyoto University, Japan
**Oak Ridge National Laboratory, USA
Fabrication of SiC fiber reinforced SiC composite by chemical vapor infiltration for excellent mechanical properties |
PA61 |
T. Ishigaki, N. Ohashi, I. Sakaguchi,
T. Sekiguchhi and H. Haneda;
National Institute of Materials Science, Japan
Influence of hydrogen doping on UV emission of ZnO through irradiation of argon-hydrogen pulse-modulated ICP |
PA62 |
S.M. Oh and T. Ishigaki;
National Institute of Materials Science, Japan
TaC nanopowders synthesized by liquid precusor injection into Rf induction plasma |
PA63 |
S. Kitazawa, J. Vacik*, C. Lin, V. Lavrentiev and H. Naramoto;
Japan Atomic Energy Research Institute, Japan
*Nuclear Physics Institute ASCR, Czech Republic
In-situ optical spectroscopic analysis during pulsed laser deposition of carbon and metal thin films |
PA64 |
S. Kitazawa, C. Lin, H. Naramoto and
S. Yamamoto;
Japan Atomic Energy Research Institute, Japan
Carbon nanoparticles synthesized by pulsed laser ablation in liquid |
PA65 |
A. Latini, F. di Pascasio and D. Gozzi;
Università di Roma gLa Sapienzah, Italy
Fast synthesis of ceramic and intermetallic compounds by electron beam bombardment |
PA66 |
T.M. Heo, J.B. Lee, D.H. Kim*, H.Y. Lee* and S.J.L. Kang**;
Ceracomp Co. Ltd., Korea
*Sunmoon University, Korea
**KAIST, Korea
Chemically induced interface migration and single crystal growth in piezoelectric ceramics |
PA67 |
T. Nagasaki, H. Ohno, Y. Arita and T. Matsui;
Nagoya University, Japan
Measurement of thermal diffusivity of thin films using picosecond pulse laser |
PA68 |
M. Narisawa, Y. Endoh, E. Tanaka, R. Nishimura, K. Okumura, M. Itoh* and T. Kamiyama**;
Osaka Prefecture University, Japan
*Fukushima National College of Technology, Japan
**Tohoku University, Japan
Synthesis and nanostructure characterization of carbon base hybrid ceramics derived from Si-H containing resins - alkoxide mixtures |
PA69 |
S. Ohtsuka, T. Kaito, T. Narita, S. Ukai and
M. Fujiwara*;
Japan Nuclear Cycle Development Institute, Japan
*KOBELCO Research Institute, Japan
Nano-structure control in ODS martensitic steels by means of selecting titanium and oxygen contents |
PA70 |
A.S. Satyvaldiev and U.A. Asanov;
Institute of Chemistry and Chemical Technology, Kyrgyzstan
Electroerosion method of synthesis of transitional metal compounds |
PA71 |
T. Taguchi, N. Igawa, R. Yamada and S. Jitsukawa;
Japan Atomic Energy Research Institute, Japan
Mechanical and thermal properties of reaction-bonded SiC/SiC composites with interphase layer |
PA72 |
R. Teghil, L. DfAlessio, A. Santagata*, D. Ferro** and
G. de Maria***;
Università della Basilicata, Italy
*CNR-Instituto Metodologie Inorganiche e Plasmi, Italy
**CNR-Instuto per lo Studio dei Materiali Nanostrutturati, Italy
*** Università gLa Sapienzah, Italy
Femtosecond pulsed laser ablation and deposition of titanium carbide thin films |
PA73 |
J. Vacik*, S. Kitazawa, H. Naramoto and S. Yamamoto;
Japan Atomic Energy Research Institute, Japan
*Nuclear Physics Institute, Academy of Sciences of the Czech Republic, Czech Republic
Laser induced phase separation in the nickel-fullerene nano-composite |
PA74 |
J. Zhang, X.H. Wang* and H.G. Lee;
Pohang University of Science and Technology, Korea
*University of Science and Technology Beijing, R.P. China
Investigation of the growth of coating layer and the bonding quality of sandwich sheet during inverse casting |
PA75 |
D. Xue, K. Kitamura and Y.C. Qi*;
National Institute for Materials Science, Japan
* Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, R.P. China
Crystal growth unit model of lithium niobate at the interface of the melt and crystal |
PA76 |
D. Xue and K. Kitamura;
National Institute for Materials Science, Japan
Compositional dependence of cationic displacements in lithium niobate and lithium tantalate crystals |
PA77 |
D. Xue and K. Kitamura;
National Institute for Materials Science, Japan
Effect of Li+ and Nb5+ cationic sites on macroscopic properties of lithium niobate crystals |
PA78 |
K. Yamaguchi, M. Haraguchi*, S. Igarashi, T. Sato, H. Yamamoto and K.
Hojou;
Japan Atomic Energy Research Institute, Japan
*Ibaraki University, Japan
Effect of substrate temperature and deposited thickness of iron silicide prepared by ion beam sputter deposition |
PA79 |
H. Hillebrecht;
Freiburg University, Germany
Single crystal growth and crystal structures of boron rich borides of magnesium |