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Machining with tool that have cutting edge radius provides components with high fatigue strength, microhardness of a large surface layer and plastic deformation. Finite element simulations of the cutting process give a better knowledge of the chip generation phenomenon, heat generation in the machining area, stress and temperature field results. This study emphasizes the true importance of the mathematical model that underlies the shape of the tool in the pre-processing steps of finite element analysis. The argument is that its achievement and definition depend on the network difficulty. This research purpose is to perform simulations series of orthogonal machining with different radius and depth of cut. In this way, conclusions on the impact of these variations on the whole cutting process were drawn. The finite element application used is Deform 2D, the Lagrange incremental method and the Johnson-Cook material model. The temperature distribution, stress distribution, von Mises stress distribution, effects on specific tool pressure and wear, and fluctuations in the cutting resistance of the tool tip and C45 workpiece were analyzed.
Wydawca
Czasopismo
Rocznik
Tom
Strony
653--659
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
autor
- Technical University of Cluj-Napoca, North University Center of Baia Mare, 62A, Victor Babeș Street, Baia Mare, Romania
autor
- Gheorghe Asachi Technical University, Faculty of Materials Science and Engineering, Blvd. D. Mangeron 71, 700050 Iasi, Romania
- Romanian Inventors Forum, Str. Sf. P. Movila 3, 700089 Iasi, Romania
autor
- Gheorghe Asachi Technical University of Iasi, Faculty of Mechanical Engineering, D. Mangeron 41, 70050, Iasi, Romania
autor
- ”Lucian Blaga” University of Sibiu, Faculty of Engineering, 10 Victoriei Street, Sibiu
Bibliografia
- [1] P.J. Arrazola, P. Aristimuno, D. Soler, T. Childs, CIRP Annals. 64, 1, 57-60 (2015).
- [2] M. Sadeghifar, R. Sedaghati, W. Jomaa, V. Songmene, Int. J. Adv. Manuf. Technol. 94, 2457-2474 (2018).
- [3] R.F. Garcia, E.C. Feix, H.T. Mendel, A.R. Gonzalez, A.J. Souza, J. Braz. Soc. Mech. Sci. Eng. 41, 317 (2019).
- [4] P.J. Arrazola, T. Özel, D. Umbrello, M. Davies, I.S. Jawahir, CIRP Annals. 62 (2), 695-718 (2013).
- [5] A. Attanasio, A. Abeni, T. Özel et al., Int. Adv. Manuf. Technol. 100, 25-35 (2019).
- [6] O.D. Yılmaz, S.N.B. Oliaei, Simulation Modelling Practice and Theory. 104, 102-105 (2020).
- [7] A. Attanasio, E. Ceretti, A. Fiorentino, A. Cappellini, C. Giardini, Wear 269, 5-6, 344-350 (2010).
- [8] M. Javidikia, M. Sadeghifar, V. Songmene et al., Int. J. Adv. Manuf. Technol. 110, 2669-2683 (2020).
- [9] M. Javidikia, M. Sadeghifar, V. Songmene, M. Jahazi, Int. J. Adv. Manuf. Technol. 106, 4547-4565 (2020).
- [10] M. Bermingham, G. Wang, M. Dargusch, SME. J. Manuf. Sci. Eng. 135, 6, 061014 (2013).
- [11] M. Calamaz, D. Coupard, F. Girot, International Journal of Machine Tools and Manufacture 48, 3-4, 275-288 (2008).
- [12] D. Cui, D. Zhang, B. Wu, M. Luo, Int. J. Mech. Sci. 131, 613-624 (2017).
- [13] M.S. Saez-de-Buruaga, D. Soler, P.X. Aristimuño, J.A. Esnaola, P.J. Arrazola, Appl. Therm. Eng. 145, 305-314 (2018).
- [14] DEFORM. Deform-User Manual. Scientific Forming Technologies Corporation (2011).
- [15] Y.B. Guo, C.R. Liu, Journal of Manufacturing Science and Engineering 124, 2, 189-199 (2002).
- [16] G. List, G. Sutter, X. Bi, A. Molinari, A. Bouthiche, Journal of Materials Processing Technology 213, 5, 693-699 (2013).
- [17] J. Mackerle, Journal of Materials Processing Technology 86, 17-44 (1999).
- [18] J.C. Outeiro, P. Lenoir, A. Bosselut, Production Engineering 9, 4, 551-562 (2015).
- [19] A.K. Parida, K. Maity, Eng. Sci. Technol. and Int. J. 20, 2, 687-693 (2017).
- [20] T. Pottier, G. Germain, M. Calamaz, A. Morel, D. Coupard, Experimental Mechanics 54, 6, 1031-1042 (2014).
- [21] A.I. Jumare, K. Abou-El-Hossein, L.N. Abdulkadir, M.M. Liman, Int. J. Adv. Manuf. Technol. 103, 4205-4220 (2019).
- [22] M. Sadeghifar, M. Javidikia, V. Songmene, M. Jahazi, Simul. Model Pract. Theory 104, 102-141 (2020).
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-ea37ba00-9557-475d-a48b-652bf4fd5faf