1. FEM Model-Based Investigation of Ultrasonic TOFD for Notch Inspection
- Author
-
Hak-Joon Kim, Sung-Jin Song, Sung Sik Kang, Maodan Yuan, Hu Wu, Jianjai Zhang, and Ziqiao Tang
- Subjects
Diffraction ,Shear waves ,Materials science ,Time-of-flight diffraction ultrasonics ,Wave propagation ,Scattering ,Acoustics ,Ultrasonic sensor ,Boundary value problem ,Finite element method - Abstract
A two-dimensional numerical model based on the finite element method was built to simulate the wave propagation phenomena that occur during the ultrasonic time of flight diffraction (TOFD) process. First, longitudinal-wave TOFD was simulated, and the numerical results agreed well with the theoretical results. Shear-wave TOFD was also investigated because shear waves have higher intensity and resolution. The shear wave propagation was studied using three models with different boundary conditions, and the tip-diffracted shear-tolongitudinal wave was extracted from the A-scan signal difference between the cracked and non-cracked specimens. This signal showed very good agreement between the geometrical and numerical arrival times. The results of this study not only provide better understanding of the diffraction phenomena in TOFD, but also prove the potential of shear-wave TOFD for practical application.
- Published
- 2014