Abstract
Experimental results on the propagation of longitudinal and torsional elastic waves in polycrystalline copper under elastoplastic strain are reported. The strain in the interval of 0–0.06 was created by applying heavy tensile loads to the samples. The Young and shear moduli, Poisson ratio, and nonlinear acoustic parameters of longitudinal and torsional elastic waves were measured as functions of the static strain. The nonlinear acoustic parameters were found to behave anomalously in loading-unloading cycles in the plastic strain region. The experimental results are discussed. The nonlinear properties of structurally inhomogeneous materials are explained in terms of the clapping nonlinearity and hysteretic nonlinearity mechanisms.
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