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TVT, 2011, Volume 49, Issue 2, Pages 196–200 (Mi tvt280)  

This article is cited in 8 scientific papers (total in 8 papers)

Thermophysical Properties of Materials

Experimental Study of Density and Thermal Expansion of the Advanced Materials and Heat Transfer Agents for Liquid Metal Systems of Thermonuclear Reactor: Lithium

S. V. Stankusa, R. A. Khairulina, A. G. Mozgovoib

a S.S. Kutateladze Institute of Heat Physics, Siberian Division of the Russian Academy of Sciences
b Joint Institute for High Temperatures, Russian Academy of Sciences, Moscow

Abstract: Using the gamma-ray attenuation technique, the density of the condensed state of lithium is measured within the range from room temperature up to $\sim$$700$ K. The purity of the investigated lithium is as high as $99.95$ mass %. The confidence error of experiments is within $0.3$%. From the experimental results, the volume thermal expansion coefficient of lithium is calculated within a wide temperature interval. The experimental data obtained on thermal properties of the solid and liquid state of lithium are compared to those available in the literature.

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English version:
High Temperature, 2011, 49:2, 187–192

Bibliographic databases:

Document Type: Article
UDC: 536.42:546.34
Received: 30.07.2009

Citation: S. V. Stankus, R. A. Khairulin, A. G. Mozgovoi, “Experimental Study of Density and Thermal Expansion of the Advanced Materials and Heat Transfer Agents for Liquid Metal Systems of Thermonuclear Reactor: Lithium”, TVT, 49:2 (2011), 196–200; High Temperature, 49:2 (2011), 187–192

Citation in format AMSBIB
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\paper Experimental Study of Density and Thermal Expansion of the Advanced Materials and Heat Transfer Agents for Liquid Metal Systems of Thermonuclear Reactor: Lithium
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    Citing articles on Google Scholar: Russian citations, English citations
    Related articles on Google Scholar: Russian articles, English articles

    This publication is cited in the following articles:
    1. V. P. Chentsov, A. G. Mozgovoi, V. G. Shevchenko, A. I. Kiselev, “Density and surface tension polytherms of gallium-lead melts”, High Temperature, 50:1 (2012), 38–43  mathnet  crossref  isi  elib  elib
    2. A. R. Kurochkin, P. S. Popel', D. A. Yagodin, A. V. Borisenko, A. V. Okhapkin, “Density of copper-aluminum alloys at temperatures up to $1400^\circ$C determined by the gamma-ray technique”, High Temperature, 51:2 (2013), 197–205  mathnet  crossref  isi  elib  elib
    3. E. E. Son, “Current investigations of thermophysical properties of substances (based on recent publications in the journal High Temperature)”, High Temperature, 51:3 (2013), 351–368  mathnet  crossref  isi  elib  elib
    4. S. V. Stankus, R. A. Khairulin, V. G. Martynets, P. P. Bezverkhii, “Studies of the thermophysical properties of substances and materials at the Novosibirsk Scientific Center of the Siberian Branch of the Russian Academy of Sciences, 2002–2012”, High Temperature, 51:5 (2013), 695–711  mathnet  crossref  crossref  isi  elib  elib
    5. Narender K., Rao A.S.M., Rao K. Gopal Kishan, Krishna N.G., “Thermo Physical Properties of Wrought Aluminum Alloys 6061, 2219 and 2014 by Gamma Ray Attenuation Method”, Thermochim. Acta, 569 (2013), 90–96  crossref  isi  elib
    6. Rao K. Gopal Kishan, Narender K., Rao A.S.M., Krishna N.G., “Density and Thermal Expansion of 7010 and 7017 Wrought Aluminum Alloys by Gamma Ray Attenuation Technique”, Solid State Physics, v. 57, AIP Conference Proceedings, 1512, eds. Chauhan A., Murli C., Gadkari S., 2013, 490–491  crossref  isi
    7. High Temperature, 52:5 (2014), 640–653  mathnet  crossref  crossref  isi  elib  elib
    8. Astafieva I.M. Gerasimov D.N. Makseev R.E., International Conference Problems of Thermal Physics and Power Engineering (Ptppe-2017), Journal of Physics Conference Series, 891, IOP Publishing Ltd, 2017  crossref  isi  scopus
  • Teplofizika vysokikh temperatur Teplofizika vysokikh temperatur
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