An Experimental Investigation of the Density of Bismuth in the Condensed State in a Wide Temperature Range
Tóm tắt
The method of radioactive gamma-raying is used to investigate the density of bismuth in the condensed state at temperatures from 337 to 1505 K. The purity of investigated metal is >99.99% by mass. The confidence error of measurements does not exceed 0.4%. The experimental results are used to provide recommended reference data on the density of solid and liquid bismuth in the range from room temperature to 1600 K.
Tài liệu tham khảo
Binary Alloy Phase Diagrams, Massalski, T.B., Ed., Metals Park, Ohio: ASM, 1986, vol. 1.
Askhadulin, R.Sh., Gulevich, A.V., Dedul’, A.V. et al., 50 let osvoyeniya tekhnologii tyazhelykh teplonositelei (svinets-vismut, svinets, gallii) (Fifty Years of Mastering the technology of Heavy Coolants (Lead-Bismuth, Lead, Gallium)), Obninsk: FEI (Inst. of Energy Physics), 2001.
Kirillov, P.L., Teplofizicheskie svoistva svintsa, vismuta i ikh evtekticheskogo splava. Obzor FEI-0286 (The Thermophysical Properties of Lead, Bismuth, and Their Eutectic Alloy. FEI (Inst. of Energy Physics) Review-0286), Moscow: TsNIIAtominform, 1998.
Alchagirov, B.B., Mozgovoi, A.G., and Shamparov, T.M., Perspekt. Mater., 2003, no. 5, p. 53.
Alchagirov, B.B., Mozgovoi, A.G., and Kurshev, O.I., Zh. Fiz. Khim., 2003, vol. 77, no.9, p. 1725.
Stankus, S.V., Khairulin, R.A., Mozgovoi, A.G. et al., Perspekt. Mater., 2004, no. 6, p. 51.
Alchagirov, B.B., Mozgovoi, A.G., and Shamparov, T.M., Teplofiz. Vys. Temp., 2004, vol. 42, no.3, p. 487 (High Temp. (Engl. transl.), vol. 42, no. 3, p. 493).
Matthiessen, A., Ann. Phys. Chem., 1860, vol. 110, no.1., p. 21.
Roberts, W.C. and Wrightson, T., Proc. Phys. Soc. London, 1881, vol. 4, no.3, p. 195.
Roberts, W.C. and Wrightson, T., Phil. Mag., 1881, vol. 11, no.68, p. 295.
Roberts, W.C. and Wrightson, T., Phil. Mag., 1882, vol. 13, no.82, p. 380.
Roberts, W.C. and Wrightson, T., Ann. Chim. Phys., 1883, ser. 6, vol. 30, p. 274.
Vicentini, G., Atti R. Accad. Sci. Torino, 1886/1887, vol. 22, no.1, p. 28.
Vicentini, G. and Omodei, D., Atti R. Accad. Sci. Torino, 1886/1887, vol. 22, no.12/13, p. 712.
Vicentini, G. and Omodei, D., Atti R. Accad. Sci. Torino, 1887/1888, vol. 23, no.1, p. 38.
Vicentini, G. and Omodei, D., Rend. Atti R. Accad. Naz. Lincei, 1888, vol. 4, no.1, p. 718.
Vicentini, G., Rend. Atti R. Accad. Naz. Lincei, 1890, vol. 6, no.2, p. 121.
Vicentini, G., Rend. Atti R. Accad. Lincei, 1890, vol. 6, no.2, p. 147.
Aleksandrov, A.A., Okhotin, V.S., Panina, Z.N., and Ershova, Z.A., The Density of Liquid Bismuth, in Teplofizicheskie svoistva veshchestv i materialov (The Thermophysical Properties of Substances and Materials), Moscow: Izd. Standartov, 1980, issue 14, p. 74.
Pashaev, B.P., Palchaev, D.K., Pashchuk, E.G., and Revelis, V.G., The Density, Ultrasound Velocity, and the Electrical and Thermal Conductivity of Low-Melting Polyvalent Metals in the Liquid State, in Obzory po teplofizicheskim svoistvam veshchestv (Reviews in Thermophysical Properties of Substances), Moscow: IVTAN (Inst. of High Temperatures, USSR Acad. Sci.), 1982, no. 3(35), p. 1.
Kazakova, I.V., Lyamkin, S.A., and Lepinskikh, B.M., Zh. Fiz. Khim., 1984, vol. 58, no.6, p. 1534.
Machkalova, M.P., The Density of Liquid Bismuth, Antimony, and Indium, in Metallovedenie i korroziya metallov (Metal Studies and Corrosion of Metals), Tbilisi: Metsniereba, 1986, p. 56.
Maleev, V.V., Demina, E.L., Popel’, P.S., and Arkhangel’skii, E.L., Teplofiz. Vys. Temp., 1989, vol. 27, no.5, p. 889.
Stankus, S.V. and Tyagel’skii, P.V., The Variation of the Thermal Properties of Gallium and Bismuth in Melting, in Teplofizicheskie svoistva rastvorov, rasplavov i kompozitov (The Thermal properties of Solutions, Melts, and Composites), Novosibirsk: Inst. of Thermophysics, Siberian Div., USSR Acad. Sci., 1991, p. 3.
Gart, H., Radioizotopnoe izmerenie plotnosti zhidkostei i binarnykh system (Radioisotope Measurement of the Density of Liquids and Binary Systems), Moscow: Atomizdat, 1975 (Russ. transl.).
Basin, A.S., Experimental Investigation of the Density of Rubidium and Cesium in the Temperature Range from 15 to 1300 °, Cand. Sci. (Tech.) Dissertation, Novosibirsk: Inst. of Thermophysics, Siberian Div., USSR Acad. Sci., 1970, p. 164.
Stankus, S.V., Procedural Singularities of Measurement of the Density of Melts by the Gamma Method, in Isseldovaniya po gidrodinamike i teploobmenu (Investigations in the Field of Hydrodynamics and Heat Transfer), Novosibirsk: Inst. of Thermophysics, Siberian Div., USSR Acad. Sci., 1980, p. 113.
Stankus, S.V., The Calculation of Errors of Measuring the Density and Expansion Coefficients of Materials by the Gamma Method, in Gamma-metod v metallurgicheskom eksperimente (The Gamma Method in Metallurgical Experiment), Novosibirsk: Inst. of Thermophysics, Siberian Div., USSR Acad. Sci., 1981, p. 71.
Stankus, S.V., The Thermodynamic Properties and Phase Transformations of Rare Elements, Their Alloys, and Compounds in the Condensed State, Doctoral (Phys.-Math.) Dissertation, Novosibirsk: Inst. of Thermophysics, Siberian Div., Russian Acad. Sci., 1991, p. 400.
Khairulin, R.A., The Density, Thermal Expansion, and Phase Transformations of Liquid Metals, Alloys, and Compounds of Rare-Earth Elements, Doctoral (Phys.-Math.) Dissertation, Novosibirsk: Kutateladze Inst. of Thermophysics, Siberian Div., Russian Acad. Sci., 2003.
Basin, A.S., Baginskii, A.V., Kolotov, Ya.L., and Stankus, S.V., High-Temperature Densimeter and Dilatometer, in Gamma-metod v metallurgicheskom eksperimente (The Gamma Method in Metallurgical Experiment), Novosibirsk: Inst. of Thermophysics, Siberian Div., USSR Acad. Sci., 1981, p. 11.
Stankus, S.V., Investigation of the Density and Thermal Expansion of Lanthanides in a Wide Temperature Range of the Liquid and Solid State, Cand. Sci. (Phys.-Math.) Dissertation, Novosibirsk: Inst. of Thermophysics, Siberian Div., USSR Acad. Sci., 1983.
GOST 8.585-2001. Termopary. Nominal’nye ststistichekie kharakteristiki preobrazovaniya (State Standard 8.585-2001. Thermocouples. Rated Statistical Characteristics of Conversion), Moscow: Izd. Standartov, 2002.
Gol’danskii, V.I., Kutovoi, A.V., and Podgoretskii, M.M., Statistika otschetov pri registratsii yadernykh chastits (The Statistics of Readings in the Recording of Nuclear Particles), Moscow: Nauka, 1959.
Preston-Thomas, H., Metrologia, 1990, vol. 27, no.1, p. 3.
Rusby, R.L., J. Chem. Thermodyn., 1991, vol. 23, no.12, p. 1153.
GOST 8.207-76. Pryamye izmereniya s mnogokratnymi nablyudeniyami. Metody obrabotki rezul’tatov nablyudenii (State Standard 8.207-76. Direct Measurements with Repeated Observations. Methods of Treating the Observation Results), Moscow: Izd. Standartov, 1976.
Hudson, D.J., CERN Report (unpublished), Geneva, 1964. Translated under the title Statistika dlya fizikov, Moscow: Mir, 1970.
Stankus, S.V., Variation of the Density of Elements in Melting. Methods and Experimental Data, Preprint of Inst. of Thermophysics, Siberian Div., USSR Acad. Sci., Novosibirsk, 1991.