Laser surface cleaning of simulated radioactive contaminants in various technological environments

Laser surface cleaning of simulated radioactive contaminants in various technological environments

Special methods for cleaning surfaces of stainless steel with a coating simulating radioactive contamination have been developed and studied. The removal of simulated surface contamination was performed using lasers in the micron spectral range with pulse durations of 8 ns and 270 fs. Optimal cleani...

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Veröffentlicht in:Nuclear engineering and technology 2024, Vol.56 (7), p.2775-2780
Hauptverfasser: Maxim Cheban, Serafima Filatova, Yaroslav Kravchenko, Konstantin Scherbakov, Dmitry Mamonov, Sergey Klimentov, Maxim Savinov, Maxim Chichkov
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container_end_page 2780
container_issue 7
container_start_page 2775
container_title Nuclear engineering and technology
container_volume 56
creator Maxim Cheban
Serafima Filatova
Yaroslav Kravchenko
Konstantin Scherbakov
Dmitry Mamonov
Sergey Klimentov
Maxim Savinov
Maxim Chichkov
description Special methods for cleaning surfaces of stainless steel with a coating simulating radioactive contamination have been developed and studied. The removal of simulated surface contamination was performed using lasers in the micron spectral range with pulse durations of 8 ns and 270 fs. Optimal cleaning modes were determined for gas and liquid environments, achieving surface cleaning coefficient of over 90% in a single pass. A correlation between the degree of cleaning in liquids and the viscosity of the environment was discovered.
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title Laser surface cleaning of simulated radioactive contaminants in various technological environments
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