Development of phased array ultrasonic system for detecting rail cracks

Development of phased array ultrasonic system for detecting rail cracks

[Display omitted] •Two 2.25 MHz ultrasonic transducers.•Acoustic field analysis.•Defect detection simulation by CIVA software.•Artificial and natural defect detection.•Comparison with radiographic testing. In this study, a phased array ultrasonic system for detecting rail cracks (PAUSR) was develope...

Full description

Saved in:
Bibliographic Details
Published in:Sensors and actuators. A. Physical. 2020-08, Vol.311, p.112086, Article 112086
Main Authors: Kim, Geonwoo, Seo, Mu-Kyung, Kim, Yong-Il, Kwon, Segon, Kim, Ki-Bok
Format: Article
Language:eng
Subjects:
CIVA software
Cracks
Defects
Design factors
Non-destructive testing (NDT)
Nondestructive testing
Performance tests
Phased array ultrasonic testing (PAUT)
Phased arrays
Radiographic testing
Radiographic testing (RT)
Radiography
Rail
S-scan
Simulation
Software
Transducers
Ultrasonic technology
Ultrasonic testing
Verification
Water tanks
Weld defects
Welding
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •Two 2.25 MHz ultrasonic transducers.•Acoustic field analysis.•Defect detection simulation by CIVA software.•Artificial and natural defect detection.•Comparison with radiographic testing. In this study, a phased array ultrasonic system for detecting rail cracks (PAUSR) was developed which consists of two phased array (PA) ultrasonic transducers, a water tank, a display monitor, a battery, a commercial 64 channel PA board, and its control software. To accomplish this, the acoustic fields and crack detection images of newly developed PA ultrasonic transducers were simulated and analyzed by the CIVA (CIVA 2016, NDE CIVA, USA) software. The major design factors for the PAUSR is the capability of evaluating crack size (over 2 mm), generating proper acoustic fields in the rail and easy and safe handling for operators. For the performance test of the designed PA ultrasonic transducer, Non-destructive Characterization and Verification of Ultrasonic Phased Array Equipment, Part 2: Probes (EN ISO 18563-2:2017) was conducted. In addition, artificial crack detection images were simulated by the CIVA software, and an experiment under the same CIVA simulation conditions was also performed for comparison purposes. For the last verification, natural defective specimens with bolt-hole star-cracking, longitudinal vertical cracking and welding defects were scanned by the developed PAUSR, and its results were analyzed and compared with the radiographic testing (RT) and CIVA simulation outcomes.
ISSN:0924-4247
1873-3069