The report type is determined by the first letter of its ID: 'A' — plenary, 'I' — invited oral, 'O' — ordinary oral, 'P' — poster, 'Q' — publication of abstracts without report. Abstracts appear in a separate window by clicking on the report ID.
ID | Authors | Organization | Report Title |
Plenary reports |
1. Equations of state, phase transitions and critical phenomena (headed by Iosilevskiy I.L., Ustyuzhanin E.E.) |
I-782 | Norman G.E., Saitov I.M. | JIHT RAS | Plasma phase transition in hydrogen at high pressures. |
I-594 | Magomedov R.A., Akhmedov E.N., Meilanov R.R., Beybalaev V.D., Aliverdiev A.A. | IGR DSC RAS | Calculation of thermophysical properties of crypton and xenon based on fractal equation of state |
I-646 | Khomkin A.L., Shumikhin A.S. | JIHT RAS | Equation of state and metallization in metal vapors and inert gases |
I-649 | Bezverkhii P. P., Martynets V. G., Kaplun A. B., Meshalkin A. B. | IIC SB RAS | Extended description thermal properties of carbon dioxide using equation of state with a small number of parameters |
I-713 | Maevskii K.K. | LIH SB RAS | Numerical modeling of thermodynamic parameters for mixtures with a small parametric equation of state of their components |
O-515 | Emelyanov A.N. | IPCP RAS | Estimation of critical point parameters of tungsten and copper from experiments on isentropic expansion of shock-compressed porous metals |
O-519 | Kaptilnyi A.G., Kondratyev A.M., Pletnev A.E., Rakhel A.D. | JIHT RAS | The sound velocity measurements for fluid iron in the vicinity of the metal-nonmetal transition |
O-547 | Ternovoi V.Ya., Nikolaev D.N., Ostrik A.V. | IPCP RAS | Determination of the critical point parameters of liquid-gas transition for boron. |
O-555 | Milyutin V.A. | MPEI (TU) | Experimental study of the density of the gas system helium-nitrogen-neon at low temperatures. |
O-815 | Ochkov V.F., Ustyuzhanin E.E., Znamensky B.E., Rykov S.V., Rykov V.A. | MPEI (TU) | Investigation of the liquid density, the gas density and the pressure: some modern models and numerical data on the saturation line of H2O |
O-565 | Osmanova B.K., Bazaev E.A., Bazaev A.R. | IGR DSC RAS | Calculation of thermodynamic properties of water+aliphatic alcohol system using experimemtal values of |
O-571 | Chigvintsev A.Yu, Iosilevskiy I.L., Noginova L.Yu. | MIPT | Anomalies of spatial ions distribution in trap in local equation of state approximation |
O-617 | Abdulagatov I.M., Bazaev A.R., Bazaev E.A., Osmanova B.K. | IGR DSC RAS | Phase transitions and bulk properties of the ternary system water-1-propanol-n-hexane near the critical point |
O-654 | Kuznetsov K.I., Sukhikh A.A., Granchenko P.P., Skorodumov S.V. | MPEI (TU) | Calculation of thermodynamic functions based on the joint thermal and acoustic measurements |
O-669 | Bilalov T.R., Gumerov F.M. | KNRTU | Determination of saturated vapor pressure of aromatic hydrocarbons on experimental data of their solubility in supercritical carbon dioxide |
O-673 | Rykov V.A., Rykov S.V., Sverdlov A.V. | SPbSU ITMO | The fundamental equation of state for R1234yf |
O-693 | Petrik G.G. | IGR DSC RAS | About round dates, acute questions and solving problems of low-parametric equations of state by logical abduction |
O-699 | Kulikov V.D., Belyakov M. Yu. | OGRI RAS | Isoplere equations of a binary mixture in the vicinity of vapor-liquid critical point in the framework of scaling theory |
O-702 | Rykov V.A., Kudryavtseva I.V., Rykov S.V. | SPbSU ITMO | The fundamental equation of state for argon satisfying the scale hypothesis for the region of high temperatures and pressures |
O-719 | Martynova I.A., Iosilevskiy I.L. | JIHT RAS, MIPT | Effect of non-linear screening on complex plasma thermodynamic stability regions |
O-741 | Fleita D.Iu., Norman G.E., Pisarev V.V. | JIHT RAS, MIPT | The singularity of the two-particle correlator in the vicinity of the phase transition point of the pure metal melt |
2. Transport, optical and radiation properties of substances (headed by Petrov V.A., Apfelbaum E.M.) |
O-539 | Olyanina N.V., Beltyukov A.L., Ladyanov V.I. | UdmFRC UB RAS | Viscosity of liquid alloys of cobalt with silicon and boron |
O-540 | Skripov P.V. | ITP UB RAS | Heat conduction of solutions: superheated and unstable states |
O-572 | Galkin D.A., Povolotsky I.I., Skripov P.V. | ITP UB RAS | Investigation of thermal conductivity of oils |
O-592 | Palchaev D.K. | DSU | The nature of the formation of the temperature dependence of the resistivity in conductors |
O-593 | Nikolaev D.N., Ternovoi V.Ya., Shutov A.V., Ostrik A.V. | IPCP RAS | Specific elrctrical conductivity of sapphire at shock compression up to 750 gpa |
O-608 | Senchenko V.N., Belikov R.S. | JIHT RAS | Investigation of the spectra of highly oriented pyrolytic graphite |
O-610 | Povolotskiy I.I., Volosnikov D.V., Skripov P.V. | ITP UB RAS | Thermal resistance of superheated aqueous solutions |
O-644 | Gabitov I.R., Zaripov Z.I. | KNRTU | Viscosities of acetic acid, butyric acid and their aqueous solutions |
O-666 | Prima A.I., Ding L., Zhang Q., Zhang Z.C. | TPU | Influence of fast radiation processes on
cooling of a metal target after irradiation
by a powerful ion beam |
O-676 | Kondratyuk N.D., Pisarev V.V. | JIHT RAS | Shear viscosity calculation for liquid hydrocarbons using molecular dynamics methods |
O-679 | Borshev N.O., Antonov V.A., Beliavskiy A.E. | MAI | The solution of the inverse coefficient problem for the search for reflective-radiative characteristics by tikhonov's regularization method |
O-685 | Murlieva Zh.Kh., Palchayev D.K., Iskhakov M.E., Rabadanov M.Kh. | DSU, DSUNE | Correlation of electrical resistance and thermal expansion of intermetallide ti3al |
O-695 | Bogatyrev A.F., Kucherenko M.A., Makeenkova O.A. | Smolensk State University | Transport properties of dilute gases and gas mixtures. diffusion |
3. Thermodynamic properties of substances in the condensed state (headed by Vorob'ev V.S., Belov G.V.) |
I-727 | Guluzade A., Safarov J., Hassel E., Abdulagatov I. | UNI Rostock | Thermophysical properties of 1-butyl-3-methylimidazolium trifluoromethanesulfonate |
O-527 | Neruchev Yu.A., Korotkovskii V.I., Ryshkova O.S. | KSU | The energy of intermolecular forces in liquid haloalkanes and their binary mixtures |
O-794 | Sobol O.V. | DonNABA | Thermodynamic properties of aqueous solutions of sodium thiosulfatum |
O-548 | Gribchenkova N.A., Smirnov A.S., Alikhanyan A.S. | IGIC RAS | Enthalpies of formation of mixed oxides in ZnO-based transparent conductive oxide systems by knudsen effusion mass spectrometry |
O-564 | Taova T.M., Khokonov Kh.B., Shebzukhova I.G., Alchagirov B.B. | KBSU | Methods and devices for measuring surface energy and surface tension of metals and alloys |
O-581 | Pashchenko L.L., Miroshnichenko E.A. | ICP RAS | Thermodynamic study of some azidonitrocompounds.
energies of reorganization of radicals |
O-584 | Sineva M.A., Aristova N.M., Belov G.V., Morozov I.V. | JIHT RAS | A new code for joint approximation of enthalpy increments and heat capacity data |
O-586 | Pakhomov E.P. | JIHT RAS | Defective structure of crystalline lattice of zirconium carbide |
O-595 | Lesev V.N., Alchagirov B.B., Dadashev R.Kh., Kyasova O.Kh., Uzdenova A.N. | KBSU | On the possibility of the existence of a double maximum on the adsorption isotherm of binary metallic systems |
O-597 | Kulyamina E. Yu, Zitserman V.Yu., Fokin L.R. | JIHT RAS | Melting curve of titanium. thermodynamic data consistency assessment |
O-621 | Radchenko A.K., Shakhov A.V., Neruchev Y.A. | KSU | Clusters in the "simple" and "normal" fluids |
O-672 | Verveyko V.N., Verveyko M.V. | KSU | Structural features of aromatic hydrocarbons clusters in a wide range of state parameters |
O-703 | Borisenko D.I., Kuznecov K.I., Sukhikh A.A., Shish A.I. | MPEI (TU) | Experimental study of the thermal expansion coefficient of heat-conducting gaskets |
O-710 | Faizullin M.Z., Vinogradov A.V., Tomin A.S., Koverda V.P. | ITP of UB of RAS | Hot crystallization centers in gas-saturated layers of amorphous ice |
O-720 | Egorov G.I., Makarov D.M. | ISC RAS | Thermodynamic properties of aqueous solutions of urea and its alkyl derivatives in a wide range of the parameters of state |
4. Thermophysical properties of substances at high temperatures (headed by Sheindlin M.A., Savvatimskiy A.I.) |
I-578 | Falyakhov T.M., Brykin M.V., Petukhov S.V., Sheindlin M.A. | JIHT RAS | Zirconium carbide phase diagram. experimental research and mathematical modeling. |
I-677 | Savvatimskiy A.I., Onufriev S.V. | JIHT RAS, LPI RAS | Physical properties of the most refractory substances (graphite and carbides) in the temperature range 2000-7000 k |
I-705 | Dunaev A.M., Motalov V.B., Kudin L.S. | ISUCT | Comprehensive study of evaporation of BMImBF4 ionic liquid |
I-711 | Vervikishko P.S., Sheindlin M.A. | JIHT RAS | Recent advances in laser-pulse melting of graphite at pressure up to 6 kbar |
I-722 | Brykin M.V. | JIHT RAS | Calculation of the temperature in 3d carbon-carbon composite material. |
O-521 | Kudin L.S., Motalov V.B., Dunaev A.M. | ISUCT | Thermodynamics of the sublimation of lanthanoid triiodides |
O-781 | Minakov D.V., Levashov P.R. | JIHT RAS | Heat of fusion of refractory hcp metals from first-principle simulations and trouton's rule |
O-528 | Nagmutdinova A.I., Zaycev N.G., Mazilin I.V. | OOO TSPC | Influence of the rare earth metals on the thermophysical properties of the thermobarrier coatings |
O-529 | Vasin A.A., Frolov A.M., Sheindlin M.A. | JIHT RAS | Observation of graphite melting during laser heating in vacuum |
O-536 | Seredkin N.N, Onufriev S.V., Savvatimskiy A.I., Muboyadzhyan S.A., Evdokimov S.A. | MEPhI | Properties of carbides in solid and liquid condition (2000 to 6000 k) |
O-560 | Petukchov S.V., Frolov A.M., Sheindlin M.A., Falyakhov T.M. | JIHT RAS | High-temperature(up to 4000 k) investigation of vapor composition of nonstoichiometric zrcx and tacx in the vicinity of the homogeneity domain |
O-583 | Konyukhov S.A., Onufriev S.V., Savvatimskiy A.I. | MEPhI | Melting of anisotropic graphite with volume limitation |
O-618 | Kondratyev A.M., Rakhel A.D. | JIHT RAS | A technique for determining the active component of the voltage drop across a sample in pulsed joule heating experiments |
O-627 | Chernoskutov M. Yu., Ivliyev A. D., Meshkov V. V. | RSVPU | High-temperature thermophysical properties of solid solutions of the Y-Ho system |
O-674 | Maltsev M.A., Morozov I.V., Osina E.L. | JIHT RAS, MIPT | Thermodynamic properties of diatomic argon compounds |
O-723 | Bgasheva T.V., Vervikishko P.S., Sheindlin M.A., Valiano G.E. | JIHT RAS | Investigations of liquid carbon at pressures above 200 bar |
O-726 | Frolov A.M., Sheindlin M.A. | JIHT RAS | Mass-spectrometric analysis of laser-induced evaporation of pyrographite up to 4400 k |
5. Extreme states of matter (headed by Levshov P.R., Ramazanov T.S.) |
I-730 | Rososhek A., Efimov S., Tewari S., Yanuka D., Krasik Ya.E. | Technion | On phase transitions in different metals |
O-532 | Golyshev A.A., Sobolev D.V., Molodets A.M. | IPCP RAS | Electrical conductivity of polytetrafluoroethylene in the megabar range of quasi-isentropic compression |
O-535 | Gryaznov V.K., Iosilevskiy I.L. | IPCP RAS | Thermophysical properties of dense molecular gases in quasichemical representation |
O-550 | Korobenko V.N., Rakhel A.D. | JIHT RAS | Thermophysical properties of dense lead plasma |
O-563 | Apfelbaum E.M. | JIHT RAS | Thermophysical properties of the low-temperature plasma of metals |
O-616 | Bogdanov E.N., Zhernokletov M.V., Kozlov G.A., Medvedev A.B., Rodionov A.V. | FSUE RFNC - VNIIEF | Microwave doppler diagnostics of
shock-compressed argon plasma |
O-640 | Struleva E.V., Komarov P.S. | JIHT RAS | Ablation of titanium by femtosecond laser pulses |
6. Databases on thermophysical properties of substances (headed by Kiseleva N.N., Zitserman V.Yu.) |
O-634 | Ochkov V.F., Ustyuzhanin E.E., Znamensky B.E., Rykov S.V., Rykov V.A. | MPEI (TU) | Development of online resources to assess the effectiveness of some gas turbine plants |
O-648 | Dudarev V.A., Kiselyova N.N. | IMET RAS | On importance of the multi-level chemical objects description in ontologies for information systems integration in inorganic materials science |
O-651 | Kosinov A.V., Erkimbaev A.O., Zitserman V.Yu., Kobzev G.A. | JIHT RAS | Ontology-based methods of thermophysical data integration |
O-700 | Kiselyova N.N., Dudarev V.A., Stolyarenko A.V. | IMET RAS | Information systems for inorganic materials science |
7. Nanomaterials, nanofluids, interphase phenomena (headed by Dmitriev A.S., Rudyak V.Ya.) |
I-579 | Fokin L.R., Alchagirov B.B., Kokov Z.A., Korotkov P.K., Elimkhanov D.Z. | JIHT RAS | Surface tension of liquid mercury in vacuum, in the medium of oxygen. experiment |
I-630 | Alchagirov B.B., Kyasova O.Kh., Uzdenova A.N. | KBSU | Surface tension of lithium alloys: state of research (review) |
I-681 | Rudyak V.Ya. | NSUACE, SFU | Thermophysical properties of nanofluids. expectations and reality |
I-696 | Abdulagatov I.M., Polikhronidi N.G., Batyrova R.G. | DSU | Effect of instability on the critical behavior of heat capacity for ethanol + diamond nanofluid |
O-849 | Zakatilova E.I., Efremov V.P. | JIHT RAS | Nanodiamon dgraphitization at heating and irradiation |
O-675 | Khvesyuk V.I. | BMSTU | A generalized model of the kapitza resistance |
O-678 | Akhmedov E.N. | IGR DSC RAS | Size dependence of molybdenum melting and crystallization temperatures |
O-688 | Kalazhokov K.K., Kalazhokov Z.K., Kalazhokov Z.K. | KBSU | Equation of isotherm of surface tension of binary metal systems |
O-729 | Magomedov M. N. | IPG DSC RAS | Change in the phase diagram of a simple matter with a decrease in the size of the nanosystem |
8. Thermophysical measurement techniques (headed by Stankus S.V., Senchenko V.N.) |
O-525 | Osadchii S.M., Potapov B.G., Sokolov N.A. | VNIIFTRI | Measuring of heat flux in the range
from 5 up to 2500 kilowatt per meter squared |
O-801 | Kuryakov V.N., Ivanova D.D. | MUCTR | Investigation of phase transitions of n-alkanes nanoemulsions by means of dynamic and static light scattering |
O-559 | Artamonov A.V., Mazilin I.V., Zaitsev N.G. | TSPC | High-temperature test bench for thermal shock resistance control
ceramic coatings |
O-588 | Ermishkin V.A., Mikhaylov D.L., Minina N.A., Belousov O.K., Palyi N.A. | IMET RAS | Investigation of the diffusion of alloying elements in multi component alloys of the cr-ni system using the photometric analysis of the radiation brightness spectra |
O-600 | Divin A.G., Ponomarev S.V., Lyubimova D.A. | TSTU | Methods and means of thermophysical characteristics measurement for vegetables and fruits tissues |
O-615 | Sukhikh A.A., Kuznetsov K.I., Skorodumov S.V. | MPEI (TU) | Experimental study of thermal conductivity of thermally conductive strips for electronic equipment |
O-667 | Senchenko V.N., Konovalov P.A., Ilichev M.V., Kapustin D.I. | JIHT RAS | Infrared system for thermal resistance measurement of microobjects |
O-692 | Kurichenko A. A., Gorbatov V. I., Ivliyev A. D. | RSVPU | Digital system for the collection and processing of information and management of the thermophysical high temperature installation |
O-712 | Ermishkin V.A., Minina N.A., Kudryavtsev E.M., Pokrasin M.A. | IMET RAS | Definition of the temperature conductivity of a carbon film based on the data of photometric analysis of the spectra of brightness of the reflection from its surface. |
O-714 | Chernoskutov M.Yu., Ivliev A.D., Meshkov V.V. | RSVPU | Signal processing algorithms for measuring thermophysical properties using temperature waves method |
9. Computer simulations in thermophysics (headed by Stegailov V.V.) |
I-777 | Kalinichev A.G. | IMT Atlantique, IL-SAMMA | New opportunities in the application of the ClayFF force field for atomistic computer modeling of natural and synthetic nanoporous materials and their hydrated interfaces |
I-591 | Khvesyuk V.I., Barinov A.A., Qiao W. | BMSTU | The influence of interactions between phonons on heat transfer |
I-603 | Apfelbaum M.S., Gadzhiev M.Kh., Doludenko A.N. | JIHT RAS | Numerical and experimental investigation of formation of weakly conductive liquid dielectric flows caused by a high nonuniform electrical field |
I-728 | Pisarev V.V. | JIHT RAS | Viscosity of liquid hydrocarbon mixtures: molecular dynamics simulations and mixing rules |
O-810 | Meshkov E.A., Novoselov I.I., Yanilkin A.V. | VNIIA | On-lattice models to study evolution of HEA at atomic scale |
O-557 | Ivanov P.P., Vlaskin M.S., Zhuk A.Z. | JIHT RAS | Modeling of the alumina cleaning by means of high temperature evaporation into vacuuim |
O-841 | Fortova S.V. | ICAD RAS | Kolmogorov flow and its numerical simulation in a flat channel |
O-842 | Shepelev V.V., Fortova S.V., Inogamov N.A. | ICAD RAS | Application of Turbulence Problem Solver (TPS) software complex for for the numerical simulation of the effects of femtosecond lasers on metallic substrates. |
O-659 | Nedyalkov Yu.V., Postnikov E.B. | Kursk SU | Computational approaches to determining isotermal compressibility and fluctuation parameter of liquids |
O-664 | Skurikhin A.V., Kostanovsky A.V. | MPEI (TU) | Numerical estimation of thermal conductivity of exfoliated vermiculite |
O-682 | Zakharov S.A., Pisarev V.V., Chudanov V.V. | JIHT RAS, MIPT | Continual fluid filtration model |
O-721 | Shults O.V. | RFNC–VNIITF | Compound thermodynamic properties evaluation model |
10. Thermophysical properties of materials for nuclear power engineering (headed by Dub A.V.') |
I-604 | Rutin S.B., Skripov P.V. | ITP UB RAS | Heat transfer in supercritical water |
O-819 | Likhanskii V.V. | SC ``RC RF TRINITI' | Models describing evolution in UO2 fuel properties under irradiation |
O-840 | Chusov I.A., Didenko V.I., Obysov N.A., Novikov G.E., Pronyaev V.G. | INPE MEPhI | Processing of heterogeneous data of experiments and construction of recommended relations |
11. Thermophysical properties of materials for aviation, rocket and space technologies (headed by Kovalev R.V.) |
O-827 | Kashapov N.F., Kashapov R.N., Kashapov L.N. | Engineering Institute of KFU | Thermophysical and physicomechanical properties of products obtained by selective laser melting |
O-738 | Khromov M.A., Chinnov V.F., Sargsyan M.A., Kavirshin D.I., Scherbakov V.M., Efimov A.V. | JIHT RAS | Analysis of the nitrogen plasma jet destructive effect on the heat-resistant materials |
12. Thermophysical properties of oils, gas condensates, gas hydrates and natural gas (headed by Grigoriev B.A.) |
I-790 | Buleiko V.M., Grigoriev B.A. | Gazprom-VNIIGAZ | Calorimetric investigation of phase behavior of hydrocarbon mixtures
with low content of high molecular components (C4+) |
I-549 | Bazaev A.R., Bazaev E.A. | IGR DSC RAS | Phase transitions and critical properties of 1-propanol —n-hexane system |
O-533 | Khairutdinov V.F., Gumerov F.M., Farakhov M.I. | KNRTU, Inzhekhim | Thermodynamic bases of the process of extraction of hydrocarbons from oil sludge using scf propane-butane mixture |
O-792 | Bogdanov A.V., Grigoriev E.B., Sokotushenko V.N. | LLC Gazprom VNIIGAZ | Determining the speed of multicomponent hydrocarbon mixture phase transitions in the free volume Al2O3 \& MgO |
O-806 | Kiyachenko Yu.F., Deshabo V.A., Kosov V.I., Yudin D.I., Yudin I.K., Podnek V.E. | OGRI RAS | Dew-bubble curve determination
of near-critical hydrocarbon mixtures
using light-scattering method |
O-556 | Faizullin M.Z., Vinogradov A.V., Tomin A.S., Koverda V.P. | ITP UB RAS | Hydrate formation in supersonic jets of vapor and gas |
O-589 | Zaripov Z. I., Usmanov R. A., Gumerov F. M. | KNRTU | Properties of thermodynamic systems participating in the process of obtaining biodiesel fuel in sub- and supercritical fluid conditions |
O-605 | Igolnikov A.A., Skripov P.V. | ITP UB of RAS | Study of superheat and critical parameters of diesel fuel with adding castor oil |
O-698 | Zhukov S.A., Yanovskiy L.S., Molokanov A.A., Il'ina M.A. | CIAM, IPCP RAS | Investigation of heat flux in hydrocarbon fuels at the film and bubble boiling |
O-708 | Director L.B., Sinelshchikov V.A. | JIHT RAS | Thermophysical properties of volatile products of biomass low temperature pyrolysis |
O-709 | Yanovsky L.S., Varlamova N.I., Kazakov A.I., Molokanov A.A., Plishkin N.A., Popov I.M., Il'ina1 M.A., Ezhov V.M. | CIAM | Manometrical investigation of the saturated vapor pressure and critical temperatures of hydrocarbon compounds |
O-735 | Subbotin D.I., Popov V.E., Safronov A.A., Popov S.D., Surov A.V., Kuchina J.A., Obraztsov N.B., Serba E.O., Nakonechny Gh.V., Spodobin V.A. | IEE RAS | Interaction of methane with thermal carbon dioxide plasma obtained in the ac plasma torch |
O-739 | Nikitin E.D., Bogatishcheva N.S., Popov A.P., Faizullin M.Z. | ITP UB RAS | Thermophysical properties of components of biodiesel fuel and raw materials for its production |
O-511 | Lukyanov K.V., Kotov A.N., Starostin A.A., Skripov P.V. | ITP UB RAS | Effect of moisture on heat transfer in liquid hydrocarbons under impulse heating of a wire |
13. Data driven approaches in materials design: theory meets experiment (MISIS) (headed by Khvan A.V., Abrikosov I.A.) |
I-776 | Colinet C., Tedenac J.P. | Universit\'e de Grenoble Alpes | Enthalpies of formation of transition metal and rare-earth borides. a first principles study. |
I-740 | Richter K.W. | University of Vienna, Faculty of Chemistry | Modelling of phases with general nias-type structure:
what can we learn from powder xrd? |
I-612 | Kim G., Gu Q., Jia H., Meschel S., Chen W., Nash P. | Illinois Institute of Technology | Experimental database development for data-driven materials design |
I-680 | Chen Q., Wu K., Jeppsson J., Engstrom A. | TCSAB | Precipitation simulation enabled by thermodynamic and kinetic databases |
O-809 | Ilatovskaia M., Fabrichnaya O. | TU-BAF, IMMIT | Thermodynamic assessment of the Al2O3-MgO-TiO2 system |
O-808 | Saenko I., Ilatovskaia M., Fabrichnaya O. | TU-BAF | Experimental investigation and thermodynamic modeling of the ZrO2-TiO2-MgO system |
I-516 | Eriksson O. | UU, "OU | Data-mining approaches to find new functional materials |
O-541 | Gordeev I.S. | JIHT RAS, MIPT | Study of the phase diagram of zirconium by molecular dynamics method |
O-641 | Smirnova D.E., Starikov S.V., Gordeev I.S. | JIHT RAS, ICAMS | Development of atomistic model for prediction of properties of binary zr-nb system |
O-590 | Gornostyrev Yu.N., Korzhvyi P., Gorbatov O.I., Katsnelson M.I. | IMP UB RAS, IQMS | Metastable embedded nanoparticles in metallic alloys. general concepts and atomistic modeling. |
O-606 | Todorova M., Yoo S., Neugebauer J. | MPIE | Electrochemical surface phase diagrams: solvation effects and selectivity |
O-601 | Vekilova O.Yu., Eriksson O., Herper H.C. | UU | Theoretical study of magnetic properties of the 1:12 alloys |
O-524 | Simak S.I. | LiU | Diffusion in ionic conductors from ab initio molecular dynamics |
O-663 | Ehteshami H., Smirnova E.A., Sun W., Korzhavyi P.A. | KTH, NUST "MISIS", IMP UB RAS | Atomic diffusion mechanisms in titanium carbide |
I-717 | Pisch A. | SIMaP | Development of new materials using an integrated approach of dft calculations, calphad modeling and key experiments |
I-807 | Gavrichev K.S., Guskov V.N., Nikiforova G.E. | IGIC RAS | Thermodynamic properties of re-containing tbc materials |
O-742 | Bajenova I.A., Kondratiev A.V, Khvan A.V., Dinsdale A.T. | SRC Thermochemistry of materials | Third-generation thermodynamic description of SiO2 |
O-538 | Kolotova L.N., Starikov S.V. | JIHT RAS | Atomistic simulation of phase transitions and structure transitions under irradiation in u-mo alloys |
I-831 | Abrikosov I.A. | Link"oping University, NUST ``MISIS' | Theoretical physics approaches for understanding of materials: lessons from Yu. Kh. Vekilov |
I-832 | Vekilov Yu.Kh. | NUST ``MISIS' | Welcome address |
I-833 | Neugebauer J., Zhu L., Körmann F., Grabowski B., Hickel T. | MPIE | Employing ab initio thermodynamics to design structurally complex materials |
I-834 | Rubtsov A. | Russian Quantum Center | Fluctuating local field approach to strong correlations |
I-835 | Johansson B. | Uppsala University | Theoretical approaches for understanding of properties of the 4f and 5f transition metals |
I-845 | Stepanov E.A., Lichtenstein A.I., Katsnelson M.I. | Radboud University | Effective bosonic models for collective electronic fluctuations |
O-778 | Sinyova S., Starykh R., Vasil'eva A., Boduen A. | SpbMU | Determination of temperature and composition areas of solid solution in Fe-Ni-Co-(Cu,Cr) system |