Underwater Laser Cutting of Thick Stainless Steel in Various Cutting Directions for Application to Nuclear Decommissioning
For application in nuclear decommissioning, underwater laser cutting studies were conducted on thick stainless-steel plates for various cutting directions using a 6 kW fiber laser. For cutting along the horizontal direction with horizontal laser irradiation, the maximum cutting speed was 110 mm∙min−...
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| Published in | Journal of nuclear fuel cycle and waste technology (Online) Vol. 19; no. 3; pp. 279 - 287 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
한국방사성폐기물학회
01.09.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1738-1894 2288-5471 2288-5471 |
| DOI | 10.7733/jnfcwt.2021.19.3.279 |
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| Abstract | For application in nuclear decommissioning, underwater laser cutting studies were conducted on thick stainless-steel plates for various cutting directions using a 6 kW fiber laser. For cutting along the horizontal direction with horizontal laser irradiation, the maximum cutting speed was 110 mm∙min−1 for a 48 mm thick stainless-steel plate. For cutting along the vertical direction with horizontal laser irradiation, a maximum speed of 120 mm∙min−1 was obtained for the same thickness, which confirmed that the cutting performance was similar but slightly better. Moreover, when cutting with vertically downward laser irradiation, the maximum cutting speed was 120 mm∙min−1 for a plate of the same thickness. Thus, the cutting performance for vertical irradiation was nearly identical to that for horizontal irradiation. In conclusion, it was possible to cut thick stainless-steel plates regardless of the laser irradiation and cutting directions, although the assist gas rose up due to buoyancy. These observations are expected to benefit laser cutting procedures during the actual dismantling of nuclear facilities. |
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| AbstractList | For application in nuclear decommissioning, underwater laser cutting studies were conducted on thick stainless-steel plates for various cutting directions using a 6 kW fiber laser. For cutting along the horizontal direction with horizontal laser irradiation, the maximum cutting speed was 110 mm∙min−1 for a 48 mm thick stainless-steel plate. For cutting along the vertical direction with horizontal laser irradiation, a maximum speed of 120 mm∙min−1 was obtained for the same thickness, which confirmed that the cutting performance was similar but slightly better. Moreover, when cutting with vertically downward laser irradiation, the maximum cutting speed was 120 mm∙min−1 for a plate of the same thickness. Thus, the cutting performance for vertical irradiation was nearly identical to that for horizontal irradiation. In conclusion, it was possible to cut thick stainless-steel plates regardless of the laser irradiation and cutting directions, although the assist gas rose up due to buoyancy. These observations are expected to benefit laser cutting procedures during the actual dismantling of nuclear facilities. For application in nuclear decommissioning, underwater laser cutting studies were conducted on thick stainless-steel plates for various cutting directions using a 6 kW fiber laser. For cutting along the horizontal direction with horizontal laser irradiation, the maximum cutting speed was 110 mm∙min−1 for a 48 mm thick stainless-steel plate. For cutting along the vertical direction with horizontal laser irradiation, a maximum speed of 120 mm∙min−1 was obtained for the same thickness, which confirmed that the cutting performance was similar but slightly better. Moreover, when cutting with vertically downward laser irradiation, the maximum cutting speed was 120 mm∙min−1 for a plate of the same thickness. Thus, the cutting performance for vertical irradiation was nearly identical to that for horizontal irradiation. In conclusion, it was possible to cut thick stainless-steel plates regardless of the laser irradiation and cutting directions, although the assist gas rose up due to buoyancy. These observations are expected to benefit laser cutting procedures during the actual dismantling of nuclear facilities. KCI Citation Count: 1 |
| Author | Park, Hyunmin Shin, Jae Sung Oh, Seong Y. Lee, Jonghwan Kim, Taek-Soo Park, Seung-Kyu |
| Author_xml | – sequence: 1 givenname: Jae Sung surname: Shin fullname: Shin, Jae Sung – sequence: 2 givenname: Seong Y. surname: Oh fullname: Oh, Seong Y. – sequence: 3 givenname: Seung-Kyu surname: Park fullname: Park, Seung-Kyu – sequence: 4 givenname: Taek-Soo surname: Kim fullname: Kim, Taek-Soo – sequence: 5 givenname: Hyunmin surname: Park fullname: Park, Hyunmin – sequence: 6 givenname: Jonghwan surname: Lee fullname: Lee, Jonghwan |
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| Keywords | Underwater cutting Laser cutting Laser processing Nuclear decommissioning Nuclear dismantling |
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| TableOfContents | 1. Introduction 2. Experimental Setup and Procedure 3. Experimental Results 3.1 Cutting With Horizontal Laser Irradiation 3.2 Cutting With Vertically Downward LaserIrradiation 4. Conclusions REFERENCES |
| Title | Underwater Laser Cutting of Thick Stainless Steel in Various Cutting Directions for Application to Nuclear Decommissioning |
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