Evaluation of NDE Characteristics for Measuring the Painting Thickness in Wind Energy Turbine Power Blades Based on Ultrasonic Wave Simulation
Abstract
In recent years, wind energy turbine blades have been manufactured using composite materials. Post manufacturing, these blades are painted with special coatings to protect the surface. Subsequently, they are generally tested by breaking a specimen and checking the uniform coating state using an optical microscope. A non-destructive technique is considered as an inspection tool; therefore, ultrasonic techniques are widely selected to measure thin painting thicknesses. In this study, the NDE (Nondestructive evaluation) CIVA package (CIVA 2020 software, NDE CIVA) was adopted for ultrasound simulation. The package was used to propose parameters, which brings the measurement of painting thickness based on the non-destructive ultrasonic waves. An optimal technique was also proposed with a use of the time and amplitude reflected from the surface and the back in the samples according to the blade painting thicknesses.
Keywords:
Painting thickness, Ultrasonic testing, Ultrasonic transducer, Blades, Time of flight (TOF)Acknowledgments
This research was supported by the Basic Science Research Program through the National Research Foundation of Korea (NRF) (No.2021R1I1A3042195) and also experimentally helped by the CNDE at Iowa State University, Ames, IA, USA.
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Ph. D. candidate in the Department of Automotive Engineering, Graduate School of Woosuk University. His research interest is NDE on composites.
E-mail: zhengbao1203@naver.com
Research professor, Mechanical Research Center, College of Engineering, SKKU. His research interest is NDE modeling on composites.
E-mail: ytyeom@skku.edu
A full professor in Division of Mech. System Eng., at Jeonbuk Natl. University. He is interested in nondestructive testing and impact analysis of composite materials.
E-mail: sunkkim@chonbuk.ac.kr
An associate professor at the Dept. of Basic Science, College of Engineering, Jeonju University. He is interested in nondestructive testing and evaluation of infrared thermography and FEM analysis.
E-mail:dgycho@hanmail.net
A full professor in Dept. of Automotive Engineering at Woosuk University. He is interested nondestructive testing and analysis of composite materials and semiconductors.
E-mail: wooyongd@woosuk.ac.kr
A full professor in Dept. of Automotive Engineering at Woosuk University. He is interested in T-ray/UT nondestructive testing and analysis of composite materials.
E-mail: khim@woosuk.ac.kr