Spectral emissivity of transition metals of the X group in the melting point region
Kosenkov D. V.1, Sagadeev V. V.1
1Kazan National Research Technological University, Kazan, Russia
Email: dmi-kosenkov@yandex.ru

An experimental study of the normal spectral emissivity of technical nickel, palladium and platinum in the solid polished and liquid phases near the melting points was carried out by the radiation method. The emission measurement was recorded by the bandwidth of the applied narrowband filters. The dependence of metal emission on the wavelength in the range of the radiation spectrum 0.26-10.6 μm is obtained. A comparative analysis with the literature data of other authors is carried out. A theoretical calculation of the emission is given according to the classical electromagnetic theory Hagen's formula and Rubens. Keywords: normal spectral emissivity, melting range, nickel, palladium, platinum, wavelength.
  1. R. Siegel, J.R. Howell. Thermal Radiation Heat Transfer (Taylor\& Francis, NY., 2002)
  2. D.V. Kosenkov, V.V. Sagadeev. Tech. Phys., 92 (3), 272 (2022). DOI: 10.21883/0000000000
  3. D.V. Kosenkov, V.V. Sagadeev, V.A. Alyaev. Teplofizika i aeromekhanika, 28, (6), 951 (2021) (in Russian)
  4. D.Ya. Svet. Opticheskie metody izmereniya istinnykh temperatur (Nauka, M., 1982)
  5. T.K. Chu, T.C. Chi. Properties of Selected Ferrous Alloying Elements, III-1 (McGraw-Hill, Washington, 1981)
  6. J.W. Arblaster. Johnson Matthey Technology Review, 59, 174 (2015)
  7. H. Watanabe, M. Susa, H. Fukuyama, K. Nagata. Intern. J. Thermophys., 24, 473 (2003). DOI:10.1023/A:1022924105951
  8. Y.S. Touloukian, D.P. DeWitt. Thermal Radiative pPoperties: Metallic Elements and Alloys. Vol. 7, Thermophysical Properties of Matter, ed. by Y.S. Touloukian, C.Y. Ho (IFI/Plenum, NY., 1970)
  9. E. Kaschnitz, J.L. McClure, A. Cezairliyan. Int. J. Thermophys., 19, 1637 (1998). DOI:10.1007/BF03344915
  10. G. Teodorescu. Radiative Emissivity of Metals and Oxidized Metals at High Temperature (Auburn University, 2007)
  11. K. Boboridis, A. Seifter, A. Obst, D. Basak. Intern. J. Thermophys., 28, 683 (2007). DOI:10.1007/s10765-007-0150-x
  12. C.P. Cagran, C. Brunner, A. Seifter, G. Pottlacher. High Temperatures-High Pressures, 34, 669 (2002)
  13. E. Kaschnitz, J. McClure, A. Cezairliyan. Intern. J. Thermophys., 19, 1637 (2014). DOI:10.1007/BF03344915
  14. J.L. McClure, A. Cezairliyan, E. Kaschnitz. Intern. J. Thermophys., 20, 1149 (1999)
  15. C. Cagran, G. Pottlacher. Platinum Metals Review, 50, 144 (2006). DOI:10.1595/147106706X129079
  16. S. Krishnan, G.P.R. Hansen, R.H. Hauge, J.L. Margrave. Spectral Emissivities and Optical Constants of Electromagnetically Levitated Liquid Metals as Functions of Temperature and Wavelength. JPL, Proceed. Second Noncontact Temperature Measurement Workshop (1990)
  17. M. Watanabe, M. Adachi, H. Fukuyama. J. Molecular Liquids, 324, 115138 (2020). DOI:10.1016/j.molliq.2020.115138
  18. B. Wilthan, C.P. Cagran, C. Brunner, G. Pottlacher. Thermochim. Acta, 415, 47 (2004)
  19. F. Righini, A. Rosso, High Temp. High Press., 12, 335 (1980)
  20. T. Baykara, R.H. Hauge, N. Norem, P. Lee, J.L. Margrave. High Temp. Sci., 32, 113 (1991)

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