Abstract
We propose a mathematical model for computing the heat exchange in a masked color kinescope taking account of the specific geometry of its shell and the actual three-dimensional character of the heat emission in the mask. We study the temperature field in the mask and determine the size of the integral degree of blackness in the cone coating that guarantees a stable operation of the kinescope. Three figures. Bibliography: 7 titles.
Similar content being viewed by others
Literature cited
V. V. Bashenko, “The coefficient of useful action of electron-ray processing of metals,”Elekt. Obrab. Mater., No. 5, 12–15 (1965).
R. Siegel and J. Howell,Radiative Heat Exchange McGraw-Hill, New York (1973).
V. R. Kovalenko, “On the computation of the depth of penetration of electrons,”Elektr. Tekh., Ser. 1, Elektronics of High-Frequency Signals, No. 1, 3–6 (1972).
B. S. Malkiel' and S. I. Rykhlinskaya, “Computation of the distribution of the coefficient of reflection of the inner surface of the screen of a color masked kinescope,” in:Generalized Functions in Thermoelasticity [in Russian], Naukova Dumka, Kiev (1980), pp. 202–206.
Ya. S. Podstrigach and R. N. Shvets,Thermoelasticity of Thin Shells, [in Russian], Naukova Dumka, Kiev (1978).
Yu. A. Chernukha, “The thermal conduction problem for irradiated multilayer shells,”Mat. Met. Fiz.-Mekh. Polya, No. 1, 104–109 (1975).
V. Espe,Materials of High Vacuum Technology, Pergamon Press, New York (1966).
Additional information
Translated fromMatematicheskie Metody i Fiziko-Mekhanicheskie Polya, Issue 30, 1989, pp. 57–63.
Rights and permissions
About this article
Cite this article
Gachkevich, A.R., Malkiel', B.S., Sosnovyi, Y.R. et al. Mathematical modeling and the study of the heat exchange process in color kinescopes. J Math Sci 63, 358–363 (1993). https://doi.org/10.1007/BF01255743
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF01255743