The method of calculating temperature stresses that occur in designs of piezoelectric transducers, sealed rubber-metal layers
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Abstract
Method of calculation the mechanical temperature stresses, which arise during the cylindrical piezoelectric transducers manufacturing and its operation, is offered. Laws between temperature stresses in transducers constractions and initial constructional materials thermoelastic properties are established
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References
V.V. Bogorodsky, L.A. Zubarev, E.A. Korepin, and V.I. Yakushev, Underwater electroacoustic transducers ateliers. (Calculation and design): Directory, Leningrad: Sudostroyeniye, 1983, p. 248.
V.N. Khmelev and O.V. Popova, Multifunctional ultrasonic devices and their use in small industries, agriculture and households, Barnaul: AltSTU, 1997, p. 160.
Y.V. Kholopov, Ultrasonic welding of plastics and metals, Leningrad: Mashinostroyeniye, 1988, p. 224.
G.V. Leonov, V.N. Khmelev, R.V. Barsukov, M.V. Khmelev, and S.N. Tsyganok, “Study of changes in the electrical parameters of ultrasonic oscillatory systems during ultrasound effects on liquid and liquid-dispersedenvironment”, electronic journal "Researched in Russia.", no. 135, pp. 1359–1367, 2005.
A.P. Babichev, N.A. Babushkina, A.M. Bratkovsky, I.S. Grigorieva, and E.Z. Meilikhova, Physical quantities: Handbook, Moscow: Energoatomizdat, 1991, p. 1232.
