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Determination of acoustic nonlinearity parameters using thermal modulation of ultrasonic waves

Hongbin Sun, Jinying Zhu

2020Applied Physics Letters24 citationsDOIOpen Access PDF

Abstract

This study presents a test method and its theoretical framework to determine the acoustic nonlinearity parameters (α, β, δ) of material using thermal modulation of ultrasonic waves. Temperature change-induced thermal strain excites the nonlinear response of the material and modulates the ultrasonic wave propagating in it. Experimental results showed a strong correlation between the relative wave velocity change and the temperature change. With a quadratic polynomial model, the acoustic nonlinearity parameters were obtained from the polynomial coefficients by curve fitting the experimental data. Their effects on thermal-induced velocity change were discussed. The parameters α, β, and δ govern the hysteretic gap, average slope, and curvature of the correlation curve, respectively. The proposed theory was validated on aluminum, steel, intact and damaged concrete samples. The obtained nonlinear parameters show reasonable agreement with values reported in the literature. Compared to other nonlinear acoustic methods using vibration or acoustic excitation, the thermal modulation method generates more uniform, slow changing, and larger strain field in the test sample. Employing the thermal effect as the driving force for nonlinearity instead of an undesired influencing factor, this method can measure the absolute values of α, β, and δ with good accuracy using a simple ultrasonic test setup.

Topics & Concepts

Nonlinear systemUltrasonic sensorCurvatureAcousticsMaterials scienceThermalNonlinear acousticsModulation (music)VibrationAcoustic waveMechanicsOpticsPhysicsMathematicsThermodynamicsGeometryQuantum mechanicsUltrasonics and Acoustic Wave PropagationGeophysical Methods and ApplicationsNon-Destructive Testing Techniques
Determination of acoustic nonlinearity parameters using thermal modulation of ultrasonic waves | Litcius