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Erschienen in:

2024 | OriginalPaper | Buchkapitel

History of Laser Peening Without Coating (LPwC): From Invention to Future Developments

verfasst von : Yuji Sano

Erschienen in: Proceedings of the 3rd International Conference on Advanced Surface Enhancement (INCASE) 2023

Verlag: Springer Nature Singapore

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Abstract

Laser peening without coating (LPwC) was invented in Japan in the 1990s. After confirming the effect of reducing the stress corrosion cracking (SCC) susceptibility of sensitized materials, LPwC has been applied to operating nuclear power reactors as a countermeasure against SCC of in-core components. Meanwhile, fiber-delivery technology for high-power laser pulses has been developed to expand the applicability of LPwC. In parallel, the effect of LPwC to improve fatigue properties has been investigated and then applied to the inside of the connecting pinholes at the root of nuclear steam turbine blades. In the last decade, various technological developments have been made to further expand the applications, such as dry LPwC, which does not use water as a confinement medium, and handheld LPwC, which uses a finger-sized microchip laser mounted directly on a robot. The author reviews the activities in LPwC over the past 30 years, focusing on the underlying physics, inventions, applications, and future developments.

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Vorheriges Kapitel Microstructure and Magnetic Properties of Non-oriented Electromagnetic Steel Sheets by Burnishing Method

Nächstes Kapitel Corrosion Surface Morphology of 13Cr Steel in the Boiler Water Containing Chloride Ions and Formic Acid

Taira T (2011) Domain-controlled laser ceramics toward giant micro-photonics. Opt Mater Express 1:1040–1050CrossRef

Sano Y (2020) Quarter century development of laser peening without coating. Metals 10:152CrossRef

Sano Y, Kato T, Mizuta Y, Tamaki S, Yokofujita K, Taira T, Hosokai T, Sakino Y (2022) Development of a portable laser peening device and its effect on the fatigue properties of HT780 butt-welded joints. Forces Mech 7:100080CrossRef

Sano Y, Schneidau V (2023) Downsizing for new flexibility in laser shock peening. The Shot Peener, 6–12 (Spring 2023): https://www.shotpeener.com/library/pdf/2023014.pdf

Sano Y, Mukai N, Okazaki K, Obata M (1997) Residual stress improvement in metal surface by underwater laser irradiation. Nucl Instrum Methods Phys Res B 121:432–436CrossRef

Sano Y, Akita K, Sano T (2020) A mechanism for inducing compressive residual stresses on a surface by laser peening without coating. Metals 10:816CrossRef

Sano Y, Akita K (2022) Dependence of surface residual stress on the coefficient of thermal expansion for materials subjected to laser peening without coating. Opt Laser Technol 156:108528CrossRef

Sano Y, Obata M, Kubo T, Mukai N, Yoda M, Masaki K, Ochi Y (2006) Retardation of crack initiation and growth in austenitic stainless steels by laser peening without protective coating. Mater Sci Eng A 417:334–340CrossRef

Sano Y, Masaki K, Gushi T, Sano T (2012) Improvement in fatigue performance of friction stir welded A6061–T6 aluminum alloy by laser peening without coating. Mater Des 36:809–814CrossRef

10.

Sano Y, Masaki K, Akita K, Kajiwara K, Sano T (2020) Effect of laser peening on the mechanical properties of aluminum alloys probed by synchrotron radiation and x-ray free electron laser. Metals 10:1490CrossRef

11.

Sano Y, Masaki K, Mizuta Y, Tamaki S, Hosokai T, Taira T (2021) Effects of laser peening with a pulse energy of 1.7 mJ on the residual stress and fatigue properties of A7075 aluminum alloy. Metals 11:1716

Titel: History of Laser Peening Without Coating (LPwC): From Invention to Future Developments
verfasst von: Yuji Sano
Verlag: Springer Nature Singapore
Buch: Proceedings of the 3rd International Conference on Advanced Surface Enhancement (INCASE) 2023
Print ISBN: 978-981-9986-42-2

Electronic ISBN: 978-981-9986-43-9

Copyright-Jahr: 2024
DOI: https://doi.org/10.1007/978-981-99-8643-9_22

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