Comparison of Linear and Nonlinear Ultrasonic Parameters in Characterizing Grain Size and Mechanical Properties of 304L Stainless Steel
Comparison of Linear and Nonlinear Ultrasonic Parameters in Characterizing Grain Size and Mechanical Properties of 304L Stainless Steel
https://www.mdpi.com/2075-4701/9/12/1279
-
A Method to Estimate the Absolute Ultrasonic Nonlinearity Parameter from Relative Measurements
-
Relative Measurement of the Acoustic Nonlinearity Parameter using Laser Detection of an Ultrasonic Wave
-
Dependence of Nonlinear Ultrasonic Characteristic on Second-Phase Precipitation in Heat-Treated Al 6061-T6 alloy
-
Variation of Acoustoelastic Effect in Al6061-T6 according to Heat Treatment Time
-
Synthetic aperture imaging of contact acoustic nonlinearity to visualize the closing interfaces using tone-burst ultrasonic waves
-
Internal defect detection using laser-generated longitudinal waves in ablation regime
-
Imaging and Sizing of Surface Defects Using Synthetic Aperture Focusing of Laser-generated Surface Waves
-
Comparison of Linear and Nonlinear Ultrasonic Parameters in Characterizing Grain Size and Mechanical Properties of 304L Stainless Steel
-
Stress estimation using the acoustoelastic effect of surface waves in weak anisotropic materials
-
Nondestructive Evaluation of Thermal Aging in Al6061 Alloy by measuring Acoustic Nonlinearity of Laser-generated Surface Acoustic Waves
-
Applicability of nonlinear ultrasonic technique to evaluation of thermally aged CF8M cast stainless steel
-
Ultrasonic nonlinearity parameter in uniaxial stress condition
-
Evaluation of yield strength by ultrasonic reconstruction of quadratic nonlinear Stress-Strain curve
-
Indirect Method for Measuring Absolute Acoustic Nonlinearity Parameter Using Surface Acoustic Waves with a Fully Non-Contact Laser-Ultrasonic Technique
-
Analysis of the influence of surface roughness on measurement of ultrasonic nonlinearity parameter using contact-type transducer
-
Deep Learning-Based Ultrasonic Testing to Evaluate the Porosity of Additively Manufactured Parts with Rough Surfaces
-
Porosity Evaluation of Additively Manufactured Components Using Deep Learning‑based Ultrasonic Nondestructive Testing (Editor's pick)
-
Rapid Molecular Diagnostic Sensor Based on Ball-Lensed Optical Fibers
-
Measurement of Absolute Acoustic Nonlinearity Parameter Using Laser-Ultrasonic Detection
-
Compensation of a Second Harmonic Wave Included in an Incident Ultrasonic Wave for the Precise Measurement of the Acoustic Nonlinearity Parameter