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Thermophysical Properties of Materials in Solid, Liquid and Gas State
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Molecular interactions and thermodynamic properties of gases at high temperatures
V. F. Baibuz
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161–167 |
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Use of heating by electron bombardment to investigate the coefficient of heat conductivity in high-melting-point alloys and compounds
D. L. Timrot, V. E. Peletskii
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168–172 |
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Experimental setup for the investigation of the density of liquid metals
É. É. Shpil'rain, K. A. Yakimovich
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173–176 |
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Concerning an incorrect method of eliminating the true temperature during studies of the emissivity of materials
V. Yu. Voskresenskii
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177–181 |
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Physical properties of carbon dioxide. 1. The second virial coefficient
M. P. Vukalovich, V. V. Altunin
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182–190 |
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Experimental study of the viscosity of helium and nitrogen
R. A. Makavetskas, V. N. Popov, N. V. Tsederberg
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191–197 |
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Plasma Properties
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Determination of the concentration of charged particles and neutral atoms by self-inverted contours of spectral lines in plasma
L. I. Grechikhin
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198–202 |
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Complex conductivity and the stability of ionized gases
A. F. Nastoyashchiĭ
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203–211 |
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Determination of the thermodynamic properties and the composition of mixtures of gases at high temperatures
E. V. Samuilov
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212–217 |
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Determination of the matrix element of the dipole moment for the electronic transition of the violet band system of cyanogen. $\rm II$
E. M. Kudryavtsev, E. F. Gippius, A. N. Pechenov, N. N. Sobolev
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218–227 |
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Heat Transfer, Gasdynamics and Magnetohydrodynamics
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The theoretical calculation of heat-flux and frictional resistance in laminar flow in tubes of an incompressible liquid with variable physical properties
B. S. Petukhov, V. N. Popov
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228–237 |
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Heat exchange in flow across tube banks
V. I. Subbotin, V. E. Minashin, E. I. Deniskin
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238–246 |
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Calculation of liquid and wall temperatures for flow in tubes allowing for axial heat conduction
L. G. Genin
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247–253 |
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Local heat transfer during the flow of a gas in a pipe at high temperature differences
V. V. Kirillov, U. S. Malugin
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254–259 |
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Study of the hydraulic resistance during surface boiling of water in ring-shaped channels
A. P. Ornatskii, L. F. Glushchenko
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260–266 |
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Impairment of the heat transmission at supercritical pressures
M. E. Shitsman
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267–275 |
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The stationary theory of a thermal explosion
S. I. Anisimov, E. F. Nogotov
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276–280 |
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The heat curtain in the turbulent boundary layer of a gas
S. S. Kutateladze, A. I. Leont'ev
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281–290 |
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The transient temperature field in many-layer systems
I. G. Meerovich, G. F. Muchnik
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291–298 |
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Measurements Methods
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Thermoelectric stability of thermocouples made of tungsten-rhenium alloys at high temperatures
V. I. Lakh, B. I. Stadnyk, Yu. B. Kuz'ma
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299–305 |
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A method of reducing the error of a disappearing-filament pyrometer
A. V. Kogan
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306–309 |
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Miscellanea
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Method of growing perfect monocrystals of refractory metals
L. S. Starostina, V. N. Kachinskii, N. A. Brilliantov
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310–312 |
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Production of monocrystals of refractory metals by Czochralski's method in conjuction with electron-beam heating
N. G. Sushkin
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313–315 |
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Short Communications
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Heat conductivity and electrical conductivity of tantalum and niobium
N. Z. Pozdnyak, K. G. Akhmetzyanov
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316–318 |
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Experimental setup to investigate heat exchange during the flow of molten aluminum in pipes
S. S. Filimonov, M. G. Kryukova, S. V. Teplov, A. A. Aigistov
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318–320 |
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Chronicle
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Scientific section of the soviet of the academy of sciences UKrSSR on “High-temperature thermophysics”
A. L. Satanovskiy
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321–323 |
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The second All-Union conference on calorimetry
V. P. Kolesov
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323–325 |
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Bibliography
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326–327 |
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