Publications in Math-Net.Ru |
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2011 |
1. |
V. Ya. Chekhovskoi, V. E. Peletskii, “On Relaxation of Point Defects in Metals”, TVT, 49:1 (2011), 45–55 ; High Temperature, 49:1 (2011), 45–54 |
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2010 |
2. |
V. E. Peletskii, V. I. Sizov, A. G. Saakjan, B. A. Shur, “Facility for integrated studies of thermophysical characteristics of electrically conducting materials by the method of subsecond resistance heating”, TVT, 48:3 (2010), 463–469 ; High Temperature, 48:3 (2010), 441–446 |
3. |
S. V. Goryachev, V. E. Peletskii, V. F. Chinnov, “High-speed visualization of unsteady-state thermophysical experiment as a means of making it more informative and accurate”, TVT, 48:1 (2010), 38–43 ; High Temperature, 48:1 (2010), 35–39 |
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2009 |
4. |
V. Ya. Chekhovskoi, V. E. Peletskii, “Problems in measuring the temperature of conductors heated by an electric current pulse”, TVT, 47:3 (2009), 371–378 ; High Temperature, 47:3 (2009), 352–358 |
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2008 |
5. |
V. E. Peletskii, E. V. Tereshina, “An investigation of heat capacity of the alpha phase of E635 zirconium reactor alloy”, TVT, 46:3 (2008), 402–405 ; High Temperature, 46:3 (2008), 363–366 |
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2007 |
6. |
V. E. Peletskii, Z. A. Musaeva, T. A. Petrovskaya, “Expansion of the temperature range of utilization of SOTM-2150 standard sample of thermal conductivity”, TVT, 45:4 (2007), 528–532 ; High Temperature, 45:4 (2007), 473–477 |
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2005 |
7. |
Z. A. Musaeva, V. E. Peletskii, “An Investigation of the Thermal Conductivity of $Zr$–$2.5%Nb$ Reactor Alloy”, TVT, 43:5 (2005), 697–701 ; High Temperature, 43:5 (2005), 694–699 |
8. |
V. Ya. Chekhovskoi, V. E. Peletskii, “The thermophysical properties of KhN55VMTKYu nickel-based heat-resistant alloy”, TVT, 43:1 (2005), 51–56 ; High Temperature, 43:1 (2005), 51–57 |
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2004 |
9. |
V. E. Peletskii, I. I. Petrova, B. N. Samsonov, “Investigation of the temperature limits of polymorphous transformation in $\mathrm{Zr}-1%\mathrm{Nb}$ alloy under different thermal conditions”, TVT, 42:4 (2004), 572–578 ; High Temperature, 42:4 (2004), 574–580 |
10. |
B. A. Shur, V. E. Peletskii, “The effect of alloying additions on the emissivity of titanium in the neighborhood of polymorphous transformation”, TVT, 42:3 (2004), 414–420 ; High Temperature, 42:3 (2004), 414–420 |
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2003 |
11. |
I. I. Petrova, B. N. Samsonov, V. E. Peletskii, “The experimental determination of the melting heat for E635 zirconium alloy”, TVT, 41:6 (2003), 848–851 ; High Temperature, 41:6 (2003), 751–754 |
12. |
V. Ya. Chekhovskoi, V. E. Peletskii, “Thermophysical properties of $75\mathrm{Ni}$–$15\mathrm{Mo}$–$10\mathrm{Re}$ alloy”, TVT, 41:2 (2003), 259–267 ; High Temperature, 41:2 (2003), 221–228 |
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2002 |
13. |
Z. A. Musaeva, V. E. Peletskii, “Experimental Investigation of the Thermal Conductivity of VT6 Alloy”, TVT, 40:6 (2002), 904–908 ; High Temperature, 40:6 (2002), 838–842 |
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2001 |
14. |
V. E. Peletskii, I. I. Petrova, B. N. Samsonov, “Investigation of the heat of polymorphous transformation in zirconium by the method of pulsed electric heating”, TVT, 39:5 (2001), 720–723 ; High Temperature, 39:5 (2001), 666–669 |
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2000 |
15. |
S. P. Rusin, V. E. Peletskii, “Method of including the anisotropy of the optical properties of the surface and the nonunidimensionality of the system in determining the effective radiation”, TVT, 38:5 (2000), 819–822 ; High Temperature, 38:5 (2000), 791–794 |
16. |
I. I. Petrova, V. E. Peletskii, B. N. Samsonov, “Investigation of the thermophysical properties of zirconium by subsecond pulsed heating technique”, TVT, 38:4 (2000), 584–589 ; High Temperature, 38:4 (2000), 560–565 |
17. |
V. E. Peletskii, “Investigation of the monochromatic emissivity of liquid copper”, TVT, 38:3 (2000), 424–428 ; High Temperature, 38:3 (2000), 400–404 |
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1999 |
18. |
S. P. Rusin, V. E. Peletskii, “The characteristics of thermal radiation of cylindrical isothermal cavities with a longitudinal pyrometric slit”, TVT, 37:3 (1999), 452–456 ; High Temperature, 37:3 (1999), 427–431 |
19. |
V. E. Lyusternik, V. Ya. Chekhovskoi, V. E. Peletskii, “Experimental investigation of the heat capacity of calcium fluoride in the temperature range of $300$–$1023$ K”, TVT, 37:2 (1999), 226–230 ; High Temperature, 37:2 (1999), 204–208 |
20. |
V. E. Peletskii, “Nonisothermality of sample under conditions of electric pulse heating”, TVT, 37:1 (1999), 128–134 ; High Temperature, 37:1 (1999), 123–129 |
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1998 |
21. |
O. S. Korostin, A. V. Nikulina, V. E. Peletskii, I. I. Petrova, N. N. Popov, B. N. Samsonov, “Experimental investigation of the calorific properties of $\mathrm{Zr}$–$1% \mathrm{Nb}$ alloy at high temperatures”, TVT, 36:2 (1998), 223–226 ; High Temperature, 36:2 (1998), 206–209 |
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1996 |
22. |
V. E. Peletskii, Z. A. Musaeva, “Thermal conductivity and the Lorentz function in a zirconium–oxygen system”, TVT, 34:6 (1996), 969–973 ; High Temperature, 34:6 (1996), 954–958 |
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1995 |
23. |
I. I. Petrova, V. E. Peletskii, “Spectral $(\lambda=0.65$ mcm$)$ emissivity and the temperature of solidus of $\mathrm{Zr}$–$1%$ $\mathrm{Nb}$ alloy”, TVT, 33:5 (1995), 716–720 ; High Temperature, 33:5 (1995), 710–714 |
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1994 |
24. |
V. E. Peletskii, A. P. Grishchuk, Z. A. Musaeva, “The kinetic properties of E-110 reactor alloy in the high temperature range”, TVT, 32:6 (1994), 820–824 ; High Temperature, 32:6 (1994), 766–770 |
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1993 |
25. |
V. E. Peletskii, “The investigation of thermal conductivity of silicon nitride”, TVT, 31:5 (1993), 727–730 ; High Temperature, 31:5 (1993), 668–670 |
26. |
V. E. Lyusternik, V. E. Peletskii, I. I. Petrova, “Experimental investigation of the caloric properties of zirconium-based reactor materials: the E-110 alloy”, TVT, 31:4 (1993), 560–564 ; High Temperature, 31:4 (1993), 509–513 |
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1992 |
27. |
V. E. Peletskii, A. P. Grishchuk, Z. A. Musaeva, “Transport properties of $\alpha$ and $\beta$ zirconium”, TVT, 30:6 (1992), 1090–1097 ; High Temperature, 30:6 (1992), 900–905 |
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1990 |
28. |
V. E. Peletskii, “Lorentz function and thermal conductivity of niobium in the temperature range $100$–$2400$ K”, TVT, 28:5 (1990), 907–913 ; High Temperature, 28:5 (1990), 683–688 |
29. |
V. E. Peletskii, A. P. Grishchuk, “Transport properties of hafnium in the high-temperature region”, TVT, 28:4 (1990), 708–714 ; High Temperature, 28:4 (1990), 529–534 |
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1989 |
30. |
K. Maglić, N. Perović, A. Dobrosavlevich, V. E. Peletskii, A. A. Zolotukhin, “Soviet Yugoslavian research into the development of a high-temperature standard specimen of thermal-diffusivity”, TVT, 27:2 (1989), 352–359 ; High Temperature, 27:2 (1989), 283–290 |
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1987 |
31. |
A. A. Zolotukhin, V. E. Peletskii, “Study of the transport-properties of electrolytic iron”, TVT, 25:4 (1987), 677–683 ; High Temperature, 25:4 (1987), 507–513 |
32. |
V. E. Peletskii, A. P. Grishchuk, E. B. Zaretskii, A. A. Zolotukhin, “Study of a set of thermo-physical properties of niobium in the high-temperature region”, TVT, 25:2 (1987), 285–291 ; High Temperature, 25:2 (1987), 205–211 |
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1986 |
33. |
A. A. Zolotukhin, V. E. Peletskii, “Experimental-study of the transport-properties of MCHVP molybdenum”, TVT, 24:5 (1986), 888–891 ; High Temperature, 24:5 (1986), 668–681 |
34. |
V. E. Peletskii, L. G. Patrusheva, “An apparatus for examining the thermal-conductivities of constructional materials at high-temperatures”, TVT, 24:1 (1986), 137–143 ; High Temperature, 24:1 (1986), 122–127 |
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1984 |
35. |
V. E. Peletskii, L. G. Patrusheva, B. A. Shur, “Radiative characteristics of high-temperature iron phases”, TVT, 22:1 (1984), 53–58 ; High Temperature, 22:1 (1984), 48–52 |
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1982 |
36. |
E. S. Amasovich, V. E. Peletskii, “Investigation of materials for standard samples of thermal-conductivity – 12KH18N10T steel and Armco iron”, TVT, 20:5 (1982), 891–896 ; High Temperature, 20:5 (1982), 723–727 |
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1981 |
37. |
A. A. Zolotukhin, V. E. Peletskii, “An apparatus for pulse measurement of thermal diffusivity over a wide temperature range”, TVT, 19:6 (1981), 1266–1271 ; High Temperature, 19:6 (1981), 917–920 |
38. |
B. A. Shur, V. E. Peletskii, “Emissivity of titanium iodide and technical-grade titanium in the temperature interval $1100$–$1900^{\circ}$K”, TVT, 19:6 (1981), 1172–1177 ; High Temperature, 19:6 (1981), 841–845 |
39. |
E. A. Bel'skaya, V. E. Peletskii, “Electrical-resistivity of nickel in the temperature-range $100$–$1700$-degrees-K”, TVT, 19:3 (1981), 525–532 ; High Temperature, 19:3 (1981), 375–381 |
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1980 |
40. |
E. B. Zaretskii, V. E. Peletskii, “Thermophyslcal Properties of Solid Solutions of Ternary System $\mathrm{Ti}$ - $\mathrm{Al}$ - $\mathrm{V}$”, TVT, 18:5 (1980), 990–994 |
41. |
V. E. Peletskii, E. S. Amasovich, E. B. Zaretskii, “High-Temperature Thermal Conductivity of Iodide-Refined Titanium”, TVT, 18:2 (1980), 300–304 |
42. |
E. B. Zaretskii, V. E. Peletskii, “Complex of thermophysical properties of solid solutions of the $ Ti$–$\rm Al$ system in the temperature interval $750$–$1700^{\circ}$K”, TVT, 18:1 (1980), 84–91 ; High Temperature, 18:1 (1980), 75–82 |
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1979 |
43. |
V. E. Peletskii, E. S. Amasovich, E. B. Zaretskii, J. Lierman, P. Degas, “Transfer properties of molybdenum at high temperatures”, TVT, 17:6 (1979), 1224–1231 ; High Temperature, 17:6 (1979), 1013–1019 |
44. |
E. B. Zaretskii, V. E. Peletskii, “Исследование температуропроводности иодидного титана в широкой окрестности ГПУ – ОЦК-превращения”, TVT, 17:2 (1979), 310–313 |
45. |
E. B. Zaretskii, V. E. Peletskii, “Установка для комплексного исследования теплофизических свойств металлов и сплавов”, TVT, 17:1 (1979), 124–132 |
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1978 |
46. |
V. E. Peletskii, “Электросопротивление ванадия в интервале температур $200$–$2100$ К”, TVT, 16:1 (1978), 72–76 |
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1977 |
47. |
V. E. Peletskii, E. S. Amasovich, A. V. Kostanovskii, E. B. Zaretskii, Ya. G. Sobol', B. A. Shur, “Thermal conductivity of vanadium”, TVT, 15:6 (1977), 1202–1207 ; High Temperature, 15:6 (1977), 1028–1033 |
48. |
V. E. Peletskii, “О корреляции температурных особенностей электронной теплоемкости и теплопроводности переходных металлов в области высоких температур”, TVT, 15:4 (1977), 728–733 |
49. |
V. E. Peletskii, “Электросопротивление ниобия в диапазоне температур $200$–$2700$ К”, TVT, 15:2 (1977), 309–315 |
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1976 |
50. |
É. É. Shpil'rain, V. E. Peletskii, A. V. Kostanovskii, “Исследование интегральной нормальной излучательнои способности материалов в области высоких температур с помощью отражательной печи”, TVT, 14:4 (1976), 729–734 |
51. |
V. E. Peletskii, “Электросопротивление молибдена в области температур $300—2800^{\circ}$K”, TVT, 14:3 (1976), 522–527 |
52. |
V. E. Peletskii, “К вопросу об интерпретации температурной зависимости тепло- и электропроводности переходных металлов в области высоких температур”, TVT, 14:2 (1976), 295–298 |
53. |
É. É. Shpil'rain, V. E. Peletskii, A. V. Kostanovskii, “Интегральная нормальная излучательная способность ванадия в интервале температур $1300 \div 2000^{\circ}$K”, TVT, 14:1 (1976), 223–224 |
54. |
V. E. Peletskii, V. P. Druzhinin, “Излучательная способность и электросопротивление жаропрочного сплава МВР-$27$-ВП$2$ в области высоких температур”, TVT, 14:1 (1976), 212–214 |
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1974 |
55. |
V. E. Peletskii, “О влиянии пирометрических каналов на результаты измерений тепло- и электропроводности твердых тел”, TVT, 12:2 (1974), 359–362 |
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1973 |
56. |
V. E. Peletskii, V. Ya. Chekhovskoi, E. M. Savitskii, M. A. Tilkina, E. S. Amasovich, E. P. Arskaya, V. Zaitchenko, V. A. Petukhov, “Некоторые физические свойства нового сплава системы никель – рений – молибден”, TVT, 11:2 (1973), 435–436 |
57. |
V. E. Peletskii, V. P. Druzhinin, “Интегральная полусферическая степень черноты титана в области высоких температур”, TVT, 11:1 (1973), 212–213 |
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1972 |
58. |
V. E. Peletskii, V. P. Druzhinin, “Удельное электросопротивление рения и молибден-рениевых сплавов в области высоких температур”, TVT, 10:3 (1972), 652–653 |
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1971 |
59. |
V. E. Peletskii, “Всесоюзная теплофизическая конференция по свойствам веществ при высоких температурах”, TVT, 9:5 (1971), 1099–1100 |
60. |
V. E. Peletskii, V. P. Druzhinin, “Experimental study of some physical properties of hafnium at high temperatures”, TVT, 9:3 (1971), 539–545 ; High Temperature, 9:3 (1971), 490–495 |
61. |
V. E. Peletskii, V. P. Druzhinin, “Experimental Study of the Specific Electrical Resistivity of Single-Crystal Molybdenum in the High-Temperature Range”, TVT, 9:1 (1971), 85–89 ; High Temperature, 9:1 (1971), 70–73 |
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1970 |
62. |
V. E. Peletskii, Ya. G. Sobol', “Experimental investigation of the coefficient of thermal conductivity of refractory and rare metals. $I$. Single-crystal tungste”, TVT, 8:6 (1970), 1197–1203 ; High Temperature, 8:6 (1970), 1123–1128 |
63. |
V. E. Peletskii, V. P. Druzhinin, Ya. G. Sobol', “Emissivity, thermal conductivity, and electrical conductivity of remelted zirconium at high temperatures”, TVT, 8:4 (1970), 774–779 ; High Temperature, 8:4 (1970), 732–736 |
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1969 |
64. |
V. E. Peletskii, V. P. Druzhinin, “Интегральная полусферическая степень черноты рения в диапазоне температур от $1200$ до $2800^{\circ}$ K”, TVT, 7:2 (1969), 364–365 |
65. |
V. E. Peletskii, V. P. Druzhinin, “Экспериментальное исследование интегральной полусферической степени черноты молибдена в области высоких температур”, TVT, 7:1 (1969), 65–70 |
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1968 |
66. |
V. E. Peletskii, Ya. G. Sobol', “Новая экспериментальная установка для исследования коэффициента теплопроводности электропроводных материалов в диапазоне температур $500$–$3000^{\circ}$ K”, TVT, 6:6 (1968), 1100–1107 ; High Temperature, 6:6 (1968), 1053–1060 |
67. |
V. S. Batalov, V. E. Peletskii, “Метод определения констант переноса через скорость изменения линейных размеров тел”, TVT, 6:5 (1968), 896–900 |
68. |
V. E. Peletskii, “О роли двумерности температурного поля в образцах при исследованиях коэффициента теплопроводности методами продольного теплового потока”, TVT, 6:1 (1968), 133–138 |
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1967 |
69. |
V. Yu. Voskresenskii, V. E. Peletskii, D. L. Timrot, “Установка для абсолютных измерений удельной электропроводности металлов и сплавов при температурах выше $1000^{\circ}$ C”, TVT, 5:4 (1967), 698–703 |
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1966 |
70. |
D. L. Timrot, V. E. Peletskii, V. Yu. Voskresenskii, “Теплопроводность и степень черноты иодидного гафния”, TVT, 4:6 (1966), 874–875 |
71. |
V. E. Peletskii, V. Yu. Voskresenskii, “Теплофизические свойства тантала при температурах выше $1000^{\circ}$ C”, TVT, 4:3 (1966), 336–342 |
72. |
V. E. Peletskii, V. Yu. Voskresenskii, “Теплофизические свойства жаропрочного вольфрам-рениевого сплава ВР-27-ВП”, TVT, 4:2 (1966), 296 |
73. |
V. Yu. Voskresenskii, V. E. Peletskii, D. L. Timrot, “Теплопроводность и степень черноты ниобия при температурах свыше $1000^{\circ}$ C”, TVT, 4:1 (1966), 46–49 |
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1965 |
74. |
D. L. Timrot, V. E. Peletskii, “Исследование интегральной степени черноты и коэффициента теплопроводности циркония”, TVT, 3:2 (1965), 223–227 |
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1963 |
75. |
D. L. Timrot, V. E. Peletskii, “Применение электронного обогрева в исследовании коэффициента теплопроводимости тугоплавких сплавов и соединений”, TVT, 1:2 (1963), 168–172 |
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1966 |
76. |
V. Yu. Voskresenskii, V. E. Peletskii, “А. Н. Гордов «Основы пирометрии». Изд-во «Металлургия» 471 стр., тираж 3120, цена 1 p. 66 к. Москва, 1964 г.”, TVT, 4:5 (1966), 739–742 |
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