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Concept of an innovative technological line for the processing of linear profiles

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents the concept of an innovative technological line intended for the processing of long linear profiles used in engineering steel and aluminium structures, which can be both hollow and open section profiles. The line is set up with seven main sections: profile loading system, input roller conveyor, plasma arc cutting section, circular saw cutting section, robot welding section, output roller conveyor and profile packaging system. The assumptions adopted to create the concept of the techno-logical line were specified. A block diagram of the line and drawings showing the structure of its selected elements were depicted. The features of the technological line documenting its product and process innovativeness were indicated. The proposed technological line is built in the AGICO Group company, but it can also be successfully implemented in other companies dealing with the processing of long linear profiles.
Rocznik
Strony
7--13
Opis fizyczny
Bibliogr. 41 poz., rys., tab.
Twórcy
  • AGICO Group, Miła 1, 70-813 Szczecin, Poland
  • AGICO Group, Miła 1, 70-813 Szczecin, Poland
  • West Pomeranian University of Technology in Szczecin, Faculty of Mechanical Engineering and Mechatronics, 19 Piastów Ave., 70-310 Szczecin, Poland
Bibliografia
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  • 3. Andrés, D., García, T., Cicero, S., Lacalle, R., Álvarez, J.A., Martín-Meizoso, A., Aldazabal, J., Bannister, A., Klimpel, A., 2016. Characterization of heat affected zones produced by thermal cutting processes by means of Small Punch tests. Materials Characterization, 119, 55-64, DOI: 10.1016/j.matchar.2016.07.017.
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  • 7. Cheraghalikhani, A., Khoshalhan, F., Mokhtari, H., 2019. Aggregate production planning: A literature review and future research directions. International Journal of Industrial Engineering Computations, 10(2), 309-330, DOI: 10.5267/j.ijiec.2018.6.002.
  • 8. Cicero, S., García, T., Álvarez, J.A., Klimpel, A., Bannister, A., Martín-Meizoso, A., 2017. Fatigue behaviour and BS7608 fatigue classes of steels with thermally cut holes. Journal of Constructional Steel Research, 128, 74-83, DOI: 10.1016/j.jcsr.2016.08.012.
  • 9. Cicero, S., García, T., Álvarez, J.A., Martín-Meizoso, A., Aldazabal, J., Bannister, A., Klimpel, A., 2016. Definition and validation of Eurocode 3 FAT classes for structural steels containing oxy-fuel, plasma and laser cut holes. International Journal of Fatigue, 87, 50-58, DOI: 10.1016/j.ijfatigue.2016.01.012.
  • 10. Farrokhi, F., Nielsen, S.E., Schmidt, R.H., Pedersen, S.S., Kristiansen, M., 2015. Effect of cut quality on hybrid laser arc welding of thick section steels. Physics Procedia, 78, 65-73, DOI: 10.1016/j.phpro.2015.11.018.
  • 11. Feldshtein, E., Patalas-Maliszewska, J., Kłos, S., Kałasznikow, A., Andrzejewski, K., 2018. The use of Plackett-Burman plans and the analysis of expert opinions, in order to assess the significance of controllable parameters of the plasma cutting process. Eksploatacja i Niezawodnosc – Maintenance and Reliability, 20(3), 443-449, DOI: 10.17531/ein.2018.3.13.
  • 12. Gosowski, B., Lorkowski, P., Redecki, M., 2016. Analysis of longitudinal skylights structure made of rectangular tubes in industrial hall. Thin-Walled Structures, 108, 234-244, DOI: 10.1016/j.tws.2016.08.015.
  • 13. Gustowski, T., Kurek, W., Samsonik, K., Grzejda R., 2022. Prototype of the cutter with a circular saw blade fixed from the bottom of the workpiece (in Polish). Systemy Wspomagania w Inżynierii Produkcji, 11(2), 57-65.
  • 14. Gustowski, T., Kurek, W., Samsonik, K., Grzejda R., 2023. Concept of an innovative plasma system for hole-cutting in linear profiles. Manufacturing Letters, under review.10.1016/j.mfglet.2023.01.002
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  • 17. Kanyilmaz, A., 2019. The problematic nature of steel hollow section joint fabrication, and a remedy using laser cutting technology: A review of research, applications, opportunities. Engineering Structures, 183, 1027-1048, DOI: 10.1016/j.engstruct.2018.12.080.
  • 18. Kanyilmaz, A., Castiglioni, C.A., 2018. Fabrication of laser cut I-beam-to-CHS-column steel joints with minimized welding. Journal of Constructional Steel Research, 146, 16-32, DOI: 10.1016/j.jcsr.2018.02.039.
  • 19. Keraita, J.N., Kim, K.-H., 2007. PC-based low-cost CNC automation of plasma profile cutting of pipes. ARPN Journal of Engineering and Applied Sciences, 2(5), 1-7.
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  • 21. Krynke, M., 2021. Management optimizing the costs and duration time of the process in the production system. Production Engineering Archives, 27(3), 163-170, DOI: 10.30657/pea.2021.27.21.
  • 22. Kudrna, L., Fries, J., Merta, M., 2019. Influences on plasma cutting quality on CNC machine. Multidisciplinary Aspects of Production Engineering, 2(1), 108-117, DOI: 10.2478/mape-2019-0011.
  • 23. Lipiäinen, K., Ahola, A., Skriko, T., Björk, T., 2021. Fatigue strength characterization of high and ultra-high-strength steel cut edges. Engineering Structures, 228, 111544, DOI: 10.1016/j.engstruct.2020.111544.
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  • 25. Maier-Komor, P., Hoffmann, H., Ostermair, M., 2010. Cutting of hollow profiles using electromagnetic fields. International Journal of Material Forming, 3, Suppl. 1, 503-506, DOI: 10.1007/s12289-010-0817-x.
  • 26. Mirghaderi, S.R., Torabian, S., Keshavarzi, F., 2010. I-beam to box-column connection by a vertical plate passing through the column. Engineering Structures, 32(8), 2034-2048, DOI: 10.1016/j.engstruct.2010.03.002.
  • 27. Moazed, R., Fotouhi, R., 2012. The influence of mechanical and laser cutting on the fatigue strengths of square hollow-section welded T-joints. Journal of Offshore Mechanics and Arctic Engineering, 134(3), 031401, DOI: 10.1115/1.4005186.
  • 28. Oysu, C., 2007. Automation of welding face shaping process for tubular structures. Industrial Robot, 34(1), 32-8. DOI: 10.1108/01439910710718423.
  • 29. Pérez, L., Rodríguez-Jiménez, S., Rodríguez, N., Usamentiaga, R., García D.F., Wang, L., 2020. Symbiotic human–robot collaborative approach for increased productivity and enhanced safety in the aerospace manufacturing industry. The International Journal of Advanced Manufacturing Technology, 106(3-4), 851-863, DOI: 10.1007/s00170-019-04638-6.
  • 30. Setamanit, S., 2019. Improving transportation contract management using simulation. Polish Journal of Management Studies, 20(2), 466-477, DOI: 10.17512/pjms.2019.20.2.39.
  • 31. Sheet, I.S., Gunasekaran, U., MacRae, G.A., 2013. Experimental investigation of CFT column to steel beam connections under cyclic loading. Journal of Constructional Steel Research, 86, 167-182, DOI: 10.1016/j.jcsr.2013.03.021.
  • 32. Siderska, J., 2020. Robotic Process Automation – a driver of digital transformation? Engineering Management in Production and Services, 12(2), 21-31, DOI: 10.2478/emj-2020-0009.
  • 33. Simonetto, E., Ghiotti, A., Bruschi, S., 2021. High accuracy direct hot bending of hollow profiles. Manufacturing Letters, 27, 63-66, DOI: 10.1016/j.mfglet.2020.12.005.
  • 34. Singh, T.G., Singh, K.D., 2018. Experimental investigation on performance of perforated cold–formed steel tubular stub columns. Thin-Walled Structures, 131, 107-121, DOI: 10.1016/j.tws.2018.06.042.
  • 35. Sousa, V., Silva, F.J.G., Fecheira, J.S., Campilho, R.D.S.G., Vandermeulen, V., 2020. A novel modular design of an equipment to produce “T”-profiles by laser welding. Procedia Manufacturing, 51, 446-453, DOI: 10.1016/j.promfg.2020.10.063.
  • 36. Stolecki, M., Bijok, H., Kowal, Ł., Adamiec, J., 2015. Laser welding of finned tubes made of austenitic steels. Archives of Metallurgy and Materials, 60(3), 1807-1811, DOI: 10.1515/amm-2015-0309.
  • 37. Szlendak, J.K., Oponowicz, P.L., 2013. Experimental tests and numerical models of double side non-welded T RHS truss joints. Procedia Engineering, 57, 1109-1120, DOI: 10.1016/j.proeng.2013.04.140.
  • 38. Szopik-Depczyńska, K., Cheba, K., Wiśniewska, J., 2020. Innovation, R&D and user-driven innovation activity in R&D departments in Poland. The multi-criteria analysis. Procedia Computer Science, 176, 2705-2713, DOI: 10.1016/j.procs.2020.09.290.
  • 39. Węglowski, M.S., Pfeifer, T., 2014. Influence of cutting technology on properties of the cut edges. Advances in Manufacturing Science and Technology, 38(2), 63-73, DOI:10.2478/amst-2014-0011.
  • 40. Wolniak, R., 2020. Main functions of operation management. Production Engineering Archives, 26(1), 11-14, DOI: 10.30657/pea.2020.26.03.
  • 41. Zeinoddini, M., Hosseini, S.A., 2013. Fire response of externally stiffened steel I-beam-to-CHS welded connections: A numerical modelling. Journal of Constructional Steel Research, 89, 42-51, DOI: 10.1016/j.jcsr.2013.05.024.
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-60f1062b-76da-4e0a-b45e-75e1485524b5
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