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Welding of polymers by infrared laser radiation
Назва | Welding of polymers by infrared laser radiation |
Назва англійською | Welding of polymers by infrared laser radiation |
Автори | Mykola Korab, Maksym Iurzhenko, Alina Vashchuk, Marina Menzheres |
Принадлежність | O. E. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine, Kyiv, Ukraine |
Бібліографічний опис | Welding of polymers by infrared laser radiation /
Mykola Korab, Maksym Iurzhenko, Alina Vashchuk, Marina Menzheres // Scientific Journal of TNTU. — Tern.: TNTU, 2022. — Vol 108. — No 4. — P. 38–42. |
Bibliographic description: | Korab M., Iurzhenko M., Vashchuk A., Menzheres M. (2022) Welding of polymers by infrared laser radiation. Scientific Journal of TNTU (Tern.), vol 108, no 4, pp. 38–42. |
DOI: | https://doi.org/10.33108/visnyk_tntu2022.04.038 |
УДК |
621.791:678.029.43 |
Ключові слова |
welded joints, polymer sheet materials, transmission laser welding, infrared lasers. |
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A number of polymeric materials are translucent for infrared radiation. The use of low-power infrared lasers makes it possible to weld polymer sheets due to the penetration of radiation into the material depth. The possibilities of transmission welding of polybutene sheets, as well as several layers of polyethylene film are investigated. Epilog Fiber Mark 20 installation equipped with 20-W fiber infrared laser with 1.062 μm radiation wavelength is used. According to the investigation results, the maximum penetration depth of polybutene sheets at thea given radiation power is determined. The ability of welding up to eight layers of colored polyethylene film of PVD-108 and PVD-158 grade is shown.
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ISSN: | 2522-4433 |
Перелік літератури |
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Zvelto O. Principles of lasers. 4th ed., St. Petersburg: “Lan”. 2008. 720 p.
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Klein R. Laser welding of plastics. Wiley-VCH: Verlag GmbH & Co, 2011. 256 p.
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Sapronov O. O., Buketov A. V., Marushchak P. O., Panin S. V., Brailo M. V., Yakushchenko S. V., Sapronova A. V., Leshchenko O. V., Menou A. Research of crackin itiation and propagation under loading for providing impactre silience of protective coating. Functional materials. 2019. 26 (1). P. 114–120.
Doi: https://doi.org/10.15407/fm26.01.114.
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Levin Yu., Erofeev V., Sudnik V. Physico-technological conditions for obtaining defect-free compounds in pulsed laser welding. Welding production. 2008. No. 4. P. 20–24.
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Korab M. G., Yurzhenko M. V., Vashchuk A. V., Menzheres M. G. Welding of polymer films by low-power lasers. Automatic welding. 2020. No. 9. P. 51–53.
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Laser equipment Epilog. URL: http://www.epiloglaser.com/.
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Interstate standard GOST 10354-82 Polyethylene film. Specifications. It expired on January 1. 2019.
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References: |
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Zvelto O. Principles of lasers. 4th ed., St. Petersburg: “Lan”. 2008. 720 p.
-
Klein R. Laser welding of plastics. Wiley-VCH: Verlag GmbH & Co, 2011. 256 p.
-
Sapronov O. O., Buketov A. V., Marushchak P. O., Panin S. V., Brailo M. V., Yakushchenko S. V., Sapronova A. V., Leshchenko O. V., Menou A. Research of crackin itiation and propagation under loading for providing impactre silience of protective coating. Functional materials. 2019. 26 (1). P. 114–120.
Doi: https://doi.org/10.15407/fm26.01.114.
-
Levin Yu., Erofeev V., Sudnik V. Physico-technological conditions for obtaining defect-free compounds in pulsed laser welding. Welding production. 2008. No. 4. P. 20–24.
-
Korab M. G., Yurzhenko M. V., Vashchuk A. V., Menzheres M. G. Welding of polymer films by low-power lasers. Automatic welding. 2020. No. 9. P. 51–53.
-
Laser equipment Epilog. URL: http://www.epiloglaser.com/.
-
Interstate standard GOST 10354-82 Polyethylene film. Specifications. It expired on January 1. 2019.
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