Dong-Seok Yun scite author profile

Dong-Seok Yun

5Publications

5Citation Statements Received

29Citation Statements Given

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Affiliations

Korea Electric Power Corporation (South Korea), Hanyang University

Publications

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Feasibility of MFC (Macro-Fiber Composite) Transducers for Guided Wave Technique

Ren¹,

Yun²,

Seo³

et al. 2013

Journal of the Korean Society for Nondestructive Testing

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Since MFC(macro-fiber composite) transducer has been developed, many researchers have tried to apply this transducer on SHM(structural health monitoring), because it is so flexible and durable that it can be easily embedded to various kinds of structures. The objective of this paper is to figure out the benefits and feasibility of applying MFC transducers to guided wave technique. For this, we have experimentally tested the performance of MFC patches as transmitter and sensors for excitation and reception of guided waves on the thin aluminum alloy plate. In order to enhance the signal accuracy, we applied the FIR filter for noise reduction as well as used STFT(short-time Fourier transform) algorithm to image the guided wave characteristics clearly. From the results, the guided wave generated based on MFC showed good agreement with its theoretical dispersion curves. Moreover, the ultrasonic Lamb wave techniques based on MFC patches in pitch-catch manner was tested for detection of surface notch defects of which depths are 10%, 20%, 30% and 40% of the aluminum plate thickness. Results showed that the notch was detectable well when the notch depth was 10% of the thickness or greater.

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A study of crack detection in silicon wafer using laser generated Lamb wave

Song¹,

Lee²,

Yun³

et al. 2014

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Imaging of contact acoustic nonlinearity using synthetic aperture technique

2013

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Early Detection of Combustion Abnormality through Analysis of Blade Path Temperature Pattern in Gas Turbine

Yun¹,

Yu²

2023

KSME-B

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Analysis of Platen Superheater Tube Degradation in Thermal Power Plants via Destructive/Non-Destructive Characteristic Evaluation

Kim

Han

et al. 2022

Materials

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Coal-fired power plants operating under Korea’s standard supercritical pressure operate in a high-temperature environment, with steam temperatures reaching 540 °C. A standard coal-fired power plant has a 30-year design life, and lifespan diagnosis is performed on facilities that have operated for more than 100,000 h or 20 years. Visual inspection, thickness measurements, and hardness measurements in the field are used to assess the degree of material degradation at the time of diagnosis. In this study, aging degradation was assessed using an electromagnetic acoustic transducer to measure the change in transverse ultrasonic propagation speed, and the results were compared to microstructural analysis and tensile test results. Based on the experimental results, it was found that the boiler tube exposed to a high-temperature environment during long-term boiler operation was degraded and damaged, the ultrasonic wave velocity was reduced, and the microstructural grains were coarsened. It was also confirmed through tensile testing that the tensile and yield strengths increased with degradation. Our findings prove that the degree of change in mechanical properties as a function of the material’s degradation state is proportional to the change in ultrasonic wave velocity.

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Dong-Seok Yun

Feasibility of MFC (Macro-Fiber Composite) Transducers for Guided Wave Technique

A study of crack detection in silicon wafer using laser generated Lamb wave

Imaging of contact acoustic nonlinearity using synthetic aperture technique

Early Detection of Combustion Abnormality through Analysis of Blade Path Temperature Pattern in Gas Turbine

Analysis of Platen Superheater Tube Degradation in Thermal Power Plants via Destructive/Non-Destructive Characteristic Evaluation

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