Nonlinear acoustic properties of the B95 aluminum alloy and the B95/nanodiamond composite

Research results for the nonlinear acoustic properties of the B95 polycrystalline aluminum alloy and the B95/nanodiamond composite have been described. The nonlinear properties of the alloys have been studied by the spectral method that measures the efficiency of generation of the second harmonic of...

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Veröffentlicht in:	Acoustical physics 2016-11, Vol.62 (6), p.681-687
Hauptverfasser:	Korobov, A. I., Prokhorov, V. M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic measurement Acoustic properties Acoustic waves Acoustics Aluminum base alloys Diamonds Efficiency Harmonics Nanostructure Nonlinear Acoustics Nonlinearity Physics Physics and Astronomy Spectral methods Test procedures
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container_title	Acoustical physics
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creator	Korobov, A. I. Prokhorov, V. M.
description	Research results for the nonlinear acoustic properties of the B95 polycrystalline aluminum alloy and the B95/nanodiamond composite have been described. The nonlinear properties of the alloys have been studied by the spectral method that measures the efficiency of generation of the second harmonic of a bulk acoustic wave at a frequency of 2 f = 10 MHz in the field of a finite-amplitude longitudinal acoustic wave at a frequency of f = 5 MHz. The results derived by this method have been compared with the results of studies of the nonlinear acoustic properties of the test alloys using the Thurston–Brugger quasi-static method.
doi_str_mv	10.1134/S1063771016050067
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subjects	Acoustic measurement Acoustic properties Acoustic waves Acoustics Aluminum base alloys Diamonds Efficiency Harmonics Nanostructure Nonlinear Acoustics Nonlinearity Physics Physics and Astronomy Spectral methods Test procedures
title	Nonlinear acoustic properties of the B95 aluminum alloy and the B95/nanodiamond composite
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