RUS  ENG JOURNALS   PEOPLE   ORGANISATIONS   CONFERENCES   SEMINARS   VIDEO LIBRARY   PACKAGE AMSBIB
 
Savvatimskii, Aleksandr Ivanovich

Statistics Math-Net.Ru
Total publications: 28
Scientific articles: 28

Number of views:
This page:211
Abstract pages:3084
Full texts:1560
References:122
Senior Researcher
Doctor of technical sciences
E-mail: ,

http://www.mathnet.ru/eng/person54921
List of publications on Google Scholar
List of publications on ZentralBlatt

Publications in Math-Net.Ru
2020
1. N. M. Aristova, S. V. Onufriev, A. I. Savvatimskii, “Теплоемкость жидкого карбида циркония $ ZrC_{0.95}$ при температурах до $5000$ К”, TVT, 58:5 (2020),  749–757  mathnet
2. A. I. Savvatimskii, S. V. Onufriev, G. E. Val'yano, A. N. Kireeva, Yu. B. Patrikeev, “Electrical resistivity of liquid gadolinium $($with carbon content of $29$ at $%)$ at temperatures of $2000$$4250$ K”, TVT, 58:1 (2020),  148–151  mathnet  elib; High Temperature, 58:1 (2020), 145–147  isi  scopus
3. A. I. Savvatimskii, S. V. Onufriev, “Investigation of the physical properties of carbon under high temperatures (experimental studies)”, UFN, 190:10 (2020),  1085–1108  mathnet
2019
4. A. I. Savvatimskii, S. V. Onufriev, “Electrical resistance of the most refractory carbide $ Ta_{0.8}\rm Hf_{0.2}\rm C$ in the solid and liquid states $(2000$$5000$ K$)$”, High Temperature, 57:1 (2019), 140–142  mathnet  isi  elib  scopus
2018
5. A. I. Savvatimskii, S. V. Onufriev, “Specific heat of liquid iron from the melting point to the boiling point”, TVT, 56:6 (2018),  953–955  mathnet  elib; High Temperature, 56:6 (2018), 933–935  isi  scopus
6. S. V. Onufriev, A. I. Savvatimskii, “Measuring the specific heat of conducting substances in conditions of microsecond heating with a current pulse”, TVT, 56:5 (2018),  704–710  mathnet  elib; High Temperature, 56:5 (2018), 678–684  isi  scopus
2017
7. A. I. Savvatimskii, S. V. Onufriev, S. A. Muboyadzyan, N. N. Seredkin, S. A. Konyukhov, “Thermophysical properties of multicomponent nickel-chromium alloy VSDP-3 upon melting and in the liquid phase”, TVT, 55:5 (2017),  846–849  mathnet  elib; High Temperature, 55:5 (2017), 825–828  isi  scopus
2016
8. S. V. Onufriev, A. I. Savvatimskii, “Pecularities of high-temperature properties of HAPG graphite within the melting region”, TVT, 54:4 (2016),  536–539  mathnet  elib; High Temperature, 54:4 (2016), 510–513  isi  scopus
2015
9. S. V. Onufriev, A. M. Kondratiev, A. I. Savvatimskii, G. E. Val'yano, S. A. Muboyadzyan, “Investigation of the high-temperature properties of zirconium nitride by impulse current heating method”, TVT, 53:3 (2015),  478–480  mathnet  elib; High Temperature, 53:3 (2015), 455–457  isi  elib  scopus
2010
10. A. M. Knjazkov, A. I. Savvatimskii, “The electrical resistivity of liquid carbon under rapid heating of dense isotropic graphite in different media”, TVT, 48:2 (2010),  210–216  mathnet  elib; High Temperature, 48:2 (2010), 192–197  isi  elib  scopus
2007
11. A. I. Savvatimskii, V. N. Korobenko, “The density of liquid hafnium from the melting point to the boiling point”, TVT, 45:2 (2007),  187–192  mathnet  elib; High Temperature, 45:2 (2007), 159–163  isi  elib  scopus
2005
12. V. N. Korobenko, O. A. Polyakova, A. I. Savvatimskii, “Heat capacity of liquid hafnium from the melting point to the boiling point at atmospheric pressure”, TVT, 43:1 (2005),  39–44  mathnet; High Temperature, 43:1 (2005), 38–44
2003
13. A. I. Savvatimskii, “Melting point of graphite and liquid carbon (Concerning the paper 'Experimental investigation of the thermal properties of carbon at high temperatures and moderate pressures' by E.I. Asinovskii, A.V. Kirillin, and A.V. Kostanovskii)”, UFN, 173:12 (2003),  1371–1379  mathnet; Phys. Usp., 46:12 (2003), 1295–1303  isi
2001
14. V. N. Korobenko, A. I. Savvatimskii, “Specific heat capacity of liquid zirconium up to $4100$ K”, TVT, 39:5 (2001),  712–719  mathnet; High Temperature, 39:5 (2001), 659–665
15. V. N. Korobenko, A. I. Savvatimskii, “Temperature dependence of the density and electrical resistivity of liquid zirconium up to $4100$ K”, TVT, 39:4 (2001),  566–572  mathnet; High Temperature, 39:4 (2001), 525–531
16. V. N. Korobenko, A. I. Savvatimskii, “Zirconium temperature measurements from the melting point to $4100$ K involving the use of blackbody models in the liquid state”, TVT, 39:3 (2001),  518–523  mathnet; High Temperature, 39:3 (2001), 485–490
1998
17. V. N. Korobenko, A. I. Savvatimskii, “Electrical resistivity of liquid carbon”, TVT, 36:5 (1998),  725–731  mathnet; High Temperature, 36:5 (1998), 701–707  isi
1991
18. V. N. Korobenko, A. I. Savvatimskii, “Properties of solid and liquid zirconium”, TVT, 29:5 (1991),  883–886  mathnet; High Temperature, 29:5 (1991), 693–696  isi  scopus
1990
19. V. N. Korobenko, A. I. Savvatimskii, “Electrical resistivity and enthalpy of nickel and its alloys in the solid and liquid states”, TVT, 28:5 (1990),  914–923  mathnet; High Temperature, 28:5 (1990), 689–697  isi
1988
20. L. A. Dolomanov, K. S. Kovalev, S. V. Lebedev, A. I. Savvatimskii, “Electrical-resistivity of rhenium in the solid and liquid states in relation to its enthalpy and heat of fusion”, TVT, 26:3 (1988),  492–500  mathnet; High Temperature, 26:3 (1988), 359–366  isi
1987
21. S. V. Lebedev, A. I. Savvatimskii, N. V. Stepanova, “Features of light radiation of metals near the melting-point with rapid impulsive heating”, TVT, 25:5 (1987),  912–918  mathnet; High Temperature, 25:5 (1987), 662–667  isi
1986
22. S. V. Lebedev, A. I. Savvatimskii, “Electrical-resistivity of graphite in a broad region of the condensed state”, TVT, 24:5 (1986),  892–899  mathnet; High Temperature, 24:5 (1986), 671–678  isi
1983
23. V. V. Ivanov, S. V. Lebedev, A. I. Savvatimskii, “Электросопротивление жидких металлов $(\mathrm{Mo},\mathrm{Cu},\mathrm{Al})$ при импульсном нагревании в ограниченном объеме”, TVT, 21:2 (1983),  390–392  mathnet
1982
24. V. V. Ivanov, S. V. Lebedev, A. I. Savvatimskii, “Features of the electrical-resistivity of liquid tungsten under conditions of restricted volume and of free expansion”, TVT, 20:6 (1982),  1093–1097  mathnet; High Temperature, 20:6 (1982), 862–867  isi
1981
25. S. V. Lebedev, A. I. Savvatimskii, ““Energy anomalies” in the electrical explosion of conductors”, TVT, 19:6 (1981),  1184–1191  mathnet; High Temperature, 19:6 (1981), 850–856  isi  scopus
26. G. I. Mozharov, A. I. Savvatimskii, “Specific-heat of solid and liquid niobium up to $5000$-degrees-K”, TVT, 19:5 (1981),  954–957  mathnet; High Temperature, 19:5 (1981), 691–694  isi
1978
27. S. V. Lebedev, A. I. Savvatimskii, N. V. Stepanova, “Расширение жидкого вольфрама при быстром нагревании электрическим током”, TVT, 16:1 (1978),  67–71  mathnet
1976
28. S. V. Lebedev, A. I. Savvatimskii, M. A. Sheindlin, “О теплоемкости тугоплавких металлов вблизи точки плавления при быстром нагревании”, TVT, 14:2 (1976),  285–289  mathnet
1973
29. A. I. Savvatimskii, “Теплота плавления и электропроводность ниобия и родия в точке плавления”, TVT, 11:6 (1973),  1182–1187  mathnet
1971
30. S. V. Lebedev, A. I. Savvatimskii, Yu. B. Smirnov, “Measurement of latent heats of fusion for refractory metals”, TVT, 9:3 (1971),  635–638  mathnet; High Temperature, 9:3 (1971), 578–581
1970
31. S. V. Lebedev, A. I. Savvatimskii, “Disappearance of the electrical conductivity of a metal due to intense heating by high-density current”, TVT, 8:3 (1970),  524–531  mathnet; High Temperature, 8:3 (1970), 494–500
1969
32. S. V. Lebedev, B. V. Lukin, A. E. Rautbort, A. I. Savvatimskii, “Продукты электрического взрыва вольфрама при токах $\sim10^{11}$ а/м$^2$”, TVT, 7:5 (1969),  1020–1021  mathnet

Organisations
 
Contact us:
 Terms of Use  Registration  Logotypes © Steklov Mathematical Institute RAS, 2020