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Nondestructive Evaluation of Residual Stress in Shot Peened Inconel Using Ultrasonic Minimum Reflection Measurement

Shot peening is a process wherein the surface of a material is impacted by small, spherical metal shots at high velocity to create residual stresses. Nickel-based superalloy is a material with high strength and hardness along with excellent corrosion and fatigue resistance, and it is therefore used...

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Autores principales: Choi, Yeong-Won, Lee, Taek-Gyu, Yeom, Yun-Taek, Kwon, Sung-Duk, Kim, Hun-Hee, Lee, Kee-Young, Kim, Hak-Joon, Song, Sung-Jin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10385900/
https://www.ncbi.nlm.nih.gov/pubmed/37512349
http://dx.doi.org/10.3390/ma16145075
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author Choi, Yeong-Won
Lee, Taek-Gyu
Yeom, Yun-Taek
Kwon, Sung-Duk
Kim, Hun-Hee
Lee, Kee-Young
Kim, Hak-Joon
Song, Sung-Jin
author_facet Choi, Yeong-Won
Lee, Taek-Gyu
Yeom, Yun-Taek
Kwon, Sung-Duk
Kim, Hun-Hee
Lee, Kee-Young
Kim, Hak-Joon
Song, Sung-Jin
author_sort Choi, Yeong-Won
collection PubMed
description Shot peening is a process wherein the surface of a material is impacted by small, spherical metal shots at high velocity to create residual stresses. Nickel-based superalloy is a material with high strength and hardness along with excellent corrosion and fatigue resistance, and it is therefore used in nuclear power plants and aerospace applications. The application of shot peening to INCONEL, a nickel-based superalloy, has been actively researched, and the measurement of residual stresses has been studied as well. Previous studies have used methods such as perforation strain gauge analysis and X-ray diffraction (XRD) to measure residual stress, which can be evaluated with high accuracy, but doing so damages the specimen and involves critical risks to operator safety due to radiation. On the other hand, ultrasonic testing (UT), which utilizes ultrasonic wave, has the advantage of relatively low unit cost and short test time. One UT method, minimum reflection measurement, uses Rayleigh waves to evaluate the properties of material surfaces. Therefore, the present study utilized ultrasonic minimum reflectivity measurements to evaluate the residual stresses in INCONEL specimens. Specifically, this study utilized ultrasonic minimum reflection measurements to evaluate the residual stress in INCONEL 718 specimens. Moreover, an estimation equation was assumed using exponential functions to estimate the residual stress with depth using the obtained data, and an optimization problem was solved to determine it. Finally, to evaluate the estimated residual stress graph, the residual stress of the specimen was measured and compared using the XRD method.
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spelling pubmed-103859002023-07-30 Nondestructive Evaluation of Residual Stress in Shot Peened Inconel Using Ultrasonic Minimum Reflection Measurement Choi, Yeong-Won Lee, Taek-Gyu Yeom, Yun-Taek Kwon, Sung-Duk Kim, Hun-Hee Lee, Kee-Young Kim, Hak-Joon Song, Sung-Jin Materials (Basel) Article Shot peening is a process wherein the surface of a material is impacted by small, spherical metal shots at high velocity to create residual stresses. Nickel-based superalloy is a material with high strength and hardness along with excellent corrosion and fatigue resistance, and it is therefore used in nuclear power plants and aerospace applications. The application of shot peening to INCONEL, a nickel-based superalloy, has been actively researched, and the measurement of residual stresses has been studied as well. Previous studies have used methods such as perforation strain gauge analysis and X-ray diffraction (XRD) to measure residual stress, which can be evaluated with high accuracy, but doing so damages the specimen and involves critical risks to operator safety due to radiation. On the other hand, ultrasonic testing (UT), which utilizes ultrasonic wave, has the advantage of relatively low unit cost and short test time. One UT method, minimum reflection measurement, uses Rayleigh waves to evaluate the properties of material surfaces. Therefore, the present study utilized ultrasonic minimum reflectivity measurements to evaluate the residual stresses in INCONEL specimens. Specifically, this study utilized ultrasonic minimum reflection measurements to evaluate the residual stress in INCONEL 718 specimens. Moreover, an estimation equation was assumed using exponential functions to estimate the residual stress with depth using the obtained data, and an optimization problem was solved to determine it. Finally, to evaluate the estimated residual stress graph, the residual stress of the specimen was measured and compared using the XRD method. MDPI 2023-07-18 /pmc/articles/PMC10385900/ /pubmed/37512349 http://dx.doi.org/10.3390/ma16145075 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Choi, Yeong-Won
Lee, Taek-Gyu
Yeom, Yun-Taek
Kwon, Sung-Duk
Kim, Hun-Hee
Lee, Kee-Young
Kim, Hak-Joon
Song, Sung-Jin
Nondestructive Evaluation of Residual Stress in Shot Peened Inconel Using Ultrasonic Minimum Reflection Measurement
title Nondestructive Evaluation of Residual Stress in Shot Peened Inconel Using Ultrasonic Minimum Reflection Measurement
title_full Nondestructive Evaluation of Residual Stress in Shot Peened Inconel Using Ultrasonic Minimum Reflection Measurement
title_fullStr Nondestructive Evaluation of Residual Stress in Shot Peened Inconel Using Ultrasonic Minimum Reflection Measurement
title_full_unstemmed Nondestructive Evaluation of Residual Stress in Shot Peened Inconel Using Ultrasonic Minimum Reflection Measurement
title_short Nondestructive Evaluation of Residual Stress in Shot Peened Inconel Using Ultrasonic Minimum Reflection Measurement
title_sort nondestructive evaluation of residual stress in shot peened inconel using ultrasonic minimum reflection measurement
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10385900/
https://www.ncbi.nlm.nih.gov/pubmed/37512349
http://dx.doi.org/10.3390/ma16145075
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