한국ITS학회 - 우수논문상

Full-range stress–strain curve estimation of aluminum alloys using machine learning-aided ultrasound

Nondestructive Inspection of Directed Energy Deposited Components Using Scanning Acoustic Microscopy with Metalworking Fluids

Nondestructive Inspection of Cylindrical Components Repaired Via Directed Energy Deposition Using Scanning Acoustic Microscopy with Metal Lubricants

Plastic properties estimation of aluminum alloys using machine learning of ultrasonic and eddy current data

Calibration method using a narrowband signal for measurement of the acoustic nonlinearity parameter

Comparisons of second- and third-order ultrasonic nonlinearity parameters measured using through-transmission and pulse-echo methods

In-situ and Layer-by-layer Grain Size Estimation of Additively Manufactured Metal Components using Femtosecond Laser Ultrasonic Technique (Submitted)

Microstructural Characterization of Additively Manufactured Metal Components Using Linear and Nonlinear Ultrasonic Techniques

Tensile properties evaluation of additively manufactured Ti-6Al-4V/yttria-stabilized zirconia composite using absolute nonlinear-ultrasonic technique (Submitted)

Generation and Measurement of Gigahertz Ultrasonic Waves in Additively Manufactured Thin Metal Components using Femtosecond Laser and Application to In-situ Grain size Monitoring (Submitted)

Porosity evaluation of additive manufactured parts: ultrasonic testing and eddy current testing

Nondestructive evaluation of micro-oxide inclusions in additively manufactured metal parts using nonlinear ultrasonic technique

Mechanical properties estimation of additively manufactured metal components using femtosecond laser ultrasonics and laser polishing

Experimental Verification of Contact Acoustic Nonlinearity at Rough Contact Interfaces

Compensation of a Second Harmonic Wave Included in an Incident Ultrasonic Wave for the Precise Measurement of the Acoustic Nonlinearity Parameter

Measurement of Absolute Acoustic Nonlinearity Parameter Using Laser-Ultrasonic Detection

Rapid Molecular Diagnostic Sensor Based on Ball-Lensed Optical Fibers

Porosity Evaluation of Additively Manufactured Components Using Deep Learning‑based Ultrasonic Nondestructive Testing (Editor's pick)

Deep Learning-Based Ultrasonic Testing to Evaluate the Porosity of Additively Manufactured Parts with Rough Surfaces

Analysis of the influence of surface roughness on measurement of ultrasonic nonlinearity parameter using contact-type transducer