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Experimental studies of the possibility of laser processing as a cleaner method of achieving a surface with good adhesion

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Języki publikacji
EN
Abstrakty
EN
In manufacturing processes many technological operations are designed, in which the adhesive properties of the treated surface are very important. These are processes related to application of any coating on the surface, such as gluing, painting, varnishing and others. Durability of coatings depends on proper preparation of the surface to which they are going to be applied. Conventional methods, such as grinding, sandblasting with subsequent washing and degreasing, as well as galvanic treatment applied to e.g. aluminium alloys - require the use of not only specific equipment but also chemical substances. They often lead to a significant burden on the environment due to their harmful properties. In an experimental study, attention was drawn to the significant environmental aspects of such a technological process and work was carried out to demonstrate whether it is possible to eliminate toxic and hazardous substances and to create good adhesion conditions by laser processing. To this purpose, samples were made out of two representative materials: X6Cr17 steel and AW-2024 aluminium alloy, abrasive surface treatment or in a galvanic bath and then washed, degreased and dried. Laser surface treatment without the use of additional chemicals was proposed as an environmentally cleaner technology. Surface roughness and adhesion of the test polymer coating were measured for comparative evaluation of the applied treatment methods. Obtained results were discussed in terms of the possibility of eliminating harmful influences and implementing laser treatment as a cleaner technology in the production of components requiring coating.
Rocznik
Strony
233--240
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
  • Rzeszow University of Technology, al. Powstańców Warszawy 12, 35-959 Rzeszów, Poland Tel.: +48 17 865 14 48
Bibliografia
  • 1. Berkel, R., Willems, E., Lafleur, M., 1997. The Relationship between Cleaner Production and Industrial Ecology. Journal of Industrial Ecology, 1, 51-6610.1162/jiec.1997.1.1.51
  • 2. Capello, E., Chiarello, P., Previtali, B., Vedani, M., 2003. Laser welding and surface treatment of a 22Cr-5Ni-3Mo duplex stainless steel. Materials Science and Engineering A351, 334-34310.1016/S0921-5093(02)00841-9
  • 3. Chichilnisky, G., 1997. What is Sustainable Development? Land Economics 73(4), 467-9110.2307/3147240
  • 4. Ciecińska, B., 2021. Using Lasers as Safe Alternatives for Adhesive Bonding. Emerging Research and Opportunities. IGI Global, Hershey-USA10.4018/978-1-7998-4634-5
  • 5. Çoban, O., Akman, E., Bora, M. Ö., Oztoprak, B. G., Demir, A., 2019. Laser Surface Treatment of CFRP Composites for a Better Adhesive Bonding Owing to the Mechanical Interlocking Mechanism. Polymer Composites, 40, 3611-3622, DOI: 10.1002/pc.25224
  • 6. Genna, S., Leone, C., Ucciardello, N., Guliani, M., 2017. Increasing Adhesive Bonding of Caron Reinforces Thermoplastic Matrix by Laser Surface Treatment. Polymer engineering and Science 2, 685-692, DOI: 10.1002/pen.24577
  • 7. Hens, L., Block, C., Cabello-Eras, J.J., Sagastume-Gutierez, A., Garcia-Lorenzo, D., Chamorro, C., Herrera Mendoza, K., Haeseldonckx, D., Vandecasteele, C., 2018. On evolution of “Cleaner Production: as a concept and a practice. Journal of Cleaner Production 172, 3323-3333, DOI: 10.1016/j.jclepro.2017.11.082
  • 8. Jabareen, Y., 2008. A new conceptual framework for sustainable development. Environ Dev Sustain 10, 179-192, DOI 10.1007/s10668-006-9058-z
  • 9. Jakóbczak, Ż., 2022. ISO 4624 – Próba siły przyczepności powłok do podłoża. https://portalkorozyjny.pl/iso-4624-proba-odrywania-dooceny-przyczepnosci/ (available on-line 28.04.2022)
  • 10. Landete-Ruiz, M. D., Martín-Martínez, J. M., 2015. Improvement of adhesion and paint ability of EVA copolymers with different vinyl acetate contents by treatment with UV-ozone. International Journal of Adhesion & Adhesives 58, 34-43, DOI: 10.1016/j.ijadhadh.2015.01.003
  • 11. Langer, M., Rechner, R., Thieme, M., Jansen, I., Beyer, E., 2012. Surface analytical characterization of Nd:YAG-laser pre-treated Al Mg3 as a preparation for bonding. Solid State Science 14, 926-935, DOI:10.1016/j.solidstatesciences.2012.04.029
  • 12. Mandolfino, C., Lertora, E., Genna, S., Leone, C., Gambaro, C., 2015. Effect of laser and plasma surface cleaning on mechanical properties of adhesive bonded joints. Procedia CIRP 33, 458-463, DOI: 10.1016/j.procir.2015.06.054
  • 13. Montealegre, M. A., Castro, G., Rey, P., Arias, J. L., Vázquez, P., González, M., 2010. Surface treatments by laser technology. Contemporary Materials I-1, 19-30, DOI: 10.5767/anurs.cmat.100101.en.019M
  • 14. Muna, K. A., 2018. Laser Surface Treatment and Modification of Aluminum Alloy Matrix Composites. Lasers in Manufacturing and Materials Processing 5, 81-94, DOI: 10.1007/s40516-018-0054-6O
  • 15. Nowosielski, R., Babilas, R., Pilarczyk, W., 2007. Sustainable technology as a basis of cleaner production. Journal of Achievements in Materials and Manufacturing Engineering, 20/1-2, 527-530
  • 16. Parris, T. M., Kates, R. W., 2003. Characterizing and measuring sustainable development. Annu. Rev. Environ. Resour. 28, 559-86, DOI: 10.1146/annurev.energy.28.050302.105551
  • 17. Radek, N., Tokar, D., Kalinowski, A., Pietraszek, J., 2021, Influence of laser texturing on tribological properties of DLC coatings. Production Engineering Archives, 27(2), 119-123, DOI: 10.30657/pea.2021.27.15
  • 18. Rotel, M., Zahavi, J., Tamir, S., Buchman, A., Dodiuk, H., 2000. Pre-bonding technology based on excimer laser Surface treatment. Applied Surface Science, 154-155, 610-61610.1016/S0169-4332(99)00384-0
  • 19. Ulewicz, R., Nový, F., 2018. Influence of laser treatment on properties of high speed tool. Technical Transactions 10, 195-200, DOI: 10.4467/2353737XCT.18.157.9307
  • 20. Zhu, C., Wan, H., Min, J., Lin, J., Carlson, B. E., Maddela, S., 2019. Application of pulsed Yb: Fiber laser to surface treatment of Al alloys for improves adhesive bonded performance. Optics and Lasers in Engineering 119, 65-76, DOI: 10.1016/j.optlaseng.2019.03.017
  • 21. PN-EN 10088-1:2004-12 Stainless steels – Part 1: List of stainless steels
  • 22. PN-EN 573-3:2019-12 Aluminum and aluminum alloys – Chemical composition and types of wrought products – Part 3: Chemical composition and types of articles
  • 23. PN-EN ISO 4287:1999 Geometrical product specifications (GPS) – Surface texture: Profile method – Terms, definitions and surface texture parameters
  • 24. PN-EN ISO 4624:2004 Paints and varnishes – Pull-off test for adhesion
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d222d508-a564-45bc-9d6c-148b9826b774
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