Abstract
A mathematical model is proposed for determining the quality of applying a heat-conducting compound, and simulation results are presented. The model is based on the theory of heat transfer in a solid. The model has been verified using experimental data obtained by measuring the temperature at the points of contact of two bodies using thermocouples. It is shown that the data obtained using thermocouples coincide with the data obtained using thermopower.
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REFERENCES
Hhh Drexhage, P. and Beckedahl, P., Thermal Paste Application/Rev. 7, SEMIKRON INTERNATIONAL GmbH, 2018.
Dieter, E., Thermal Paste Application/Rev. 7, SEMIKRON INTERNATIONAL GmbH, 2010.
Schulz, M., Thermal Interface—an Inconvenient Truth, Article Bodo’s Power Systems, 2010, no. 6.
Smirnov, M., The use of heat-conducting paste. Electronics production, Tekhnol. Oborud. Mater., 2013, no. 3, pp. 119–123.
Kolpakov, A., SEMITOP power modules as an alternative to discrete TE casings, Silovaya Elektron., 2004, no. 2, pp. 32–35.
Dieter, E., Strube, M., and Kolpakov, A., Heat-conducting paste is really important, Kompon. Tekhnol., 2010, no. 6, pp. 88–90.
Kutateladze, S.S., Osnovy teorii teploobmena (Fundamentals of the Theory of Heat Transfer), Moscow: Atomizdat, 1979, pp. 120–123.
Korotkikh, A.G., Teploprovodnost’ materialov (Thermal Conductivity of Materials), Tomsk: Tomsk. Politekh. Univ., 2011.
Livshits, B.G., Krapotkin, V.S., and Linetskii, Ya.L., Fizicheskie svoistva metallov i splavov (Physical Properties of Metals and Alloys), Moscow: Metallurgiya, 1980.
Putilov, K.A., Kurs fiziki. Tom II. Uchenie ob elektrichestve/Uchebnoe posobie (Physics Course. Vol. II. Study of Electricity: A Handbook), Moscow: Fiz.-Mat. Lit., 1963.
Soldatov, A.I., Soldatov, A.A., Sorokin, P.V., Abouellail, A.A., and Kostina, M.A., Thermoelectric method of plastic deformation detection, Mater. Sci. Forum, 2018, vol. 938, pp. 112–118.
Obach, I.I., Abouellail, A.A., Soldatov, A.I., Sorokin, P.V., Shinyakov, Y.A., and Sukhorukov, M.P., Monitoring of power supply, SIBCON, 2019, p. 8729572.
Abouellail, A., Obach, I., Soldatov, A., and Soldatov, A., Surface inspection problems in thermoelectric testing, MATEC Web Conf., 2017, vol. 102, p. 01001.
Soldatov, A.I., Soldatov, A.A., Sorokin, P.V., Loginov, E.L., Abouellail, A.A., Kozhemyak, O.A., and Bortalevich, S.I., Control system for device “thermotest,” SIBCON, 2016, p. 7491869.
Yavuz, C., Yilma, S., and Kaya, M., The design of computer controlled cold and hot therapy device with thermoelectric module, J. Med. Imaging Health Inf., 2013, vol. 3, no. 2, pp. 221–226.
Kraynov, A.Yu., Ryzhikh, Yu.N., and Timokhin, A.M., Chislennye metody v zadachakh teploperenosa/Uchebno-metodicheskoe posobie (Numerical Methods in Heat Transfer Problems: A Handbook), Tomsk: Tomsk. Gos. Univ., 2009.
Tikhonov, A.N. and Samarskii, A.A., Uravneniya matematicheskoi fiziki (Equations of Mathematical Physics), Moscow: Nauka, 1977.
Richtmyer, R. and Morton, K., Difference Methods for Initial Value Problems, New York: Springer, 1967.
Kraus, A.D., Okhlazhdenie elekronnogo oborudovaniya (Cooling Electronic Equipment), Moscow: Energiya, 1979.
Mal’tsev, I.A., Express testing of thermal resistance of semiconductor devices in the mode of subcritical thermal effects, Extended Abstract of Dissertation, Kazan: KNITU–KAI, 2016.
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This work was carried out as part of the Competitiveness Program of Tomsk Polytechnic University.
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Translated by V. Potapchouck
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Soldatov, A.A., Dement’ev, A.A., Soldatov, A.I. et al. Control of Quality of Applying Heat-Conducting Compound. Russ J Nondestruct Test 56, 284–290 (2020). https://doi.org/10.1134/S1061830920030110
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DOI: https://doi.org/10.1134/S1061830920030110