Effect of the Friction and Reduction Angle on the Accuracy of Cold Drawing Steel Tubes STL Model Based on FEM Analysis

[1] KOUTELIERIS, A., KIOUPI, K., HARALAMPOUS, O., KITSAKIS, K., VAXEVANIDIS, N., KECHAGIAS, J. 2017. Simulation of extrusion of high density polyethylene tubes. In: MATEC Web of Conferences. 21st Innovative Manufacturing Engineering & Energy International Conference: Romania, Iasi10.1051/matecconf/201711204004Search in Google Scholar

[2] BERE, P., DUDESCU, M. C., BALC, N., BERCE, P., IURIAN, A. M., NEMES, O. 2014. Design and Analysis of Carbon/epoxy Composite Bicycle Handlebar. Materiale Plastice,51(2), 145-149. Print ISSN : 0025-5289. Online ISSN: 2668-8220Search in Google Scholar

[3] CECLAN, V. A., GROZAV, S. D., KURIC, I. 2017. Research on inner surface of hydroformed tubes. Advances in Science and Technology – Research Journal,11(4), 311-317. ISSN 2299-862410.12913/22998624/80900Search in Google Scholar

[4] BELLA, P., BUČEK, P., RIDZOŇ, M., MOJŽIŠ, M., PARILÁK, L. 2016. Influence of die geometry on drawing force in cold drawing of steel tubes using numerical simulation. Key Engineering Materials, 716, 708–712. ISSN 1662-979510.4028/www.scientific.net/KEM.716.708Search in Google Scholar

[5] MISHRA, G. K., SINGH, P. 2015. Simulation of Seamless Tube Cold Drawing Process using Finite Element Analysis. International Journal for Scientific Research & Development, 3(4), 1285–1291. ISSN 2321-0613Search in Google Scholar

[6] PATIL, M., SINGH, V., SIMHACHALAM B., SRINIVAS, K. 2019. Effect of lubrication technique in tube drawing. Materials Today: Procceedings, 28, 426–431. ISSN 2214-785310.1016/j.matpr.2019.10.027Search in Google Scholar

[7] KAPUSTOVÁ, M., SOBOTA, R. 2019. The Research of Influence of Strain Rate in Steel Tube Cold Drawing Processes Using FEM Simulation. Materials Science Forum, 952, 235–242. ISSN 1662-975210.4028/www.scientific.net/MSF.952.235Search in Google Scholar

[8] KUMAR, P., AGNIHOTRI, G. 2013. Cold Drawing Process – A Review. International Journal of Engineering Research and Applications (IJERA), 3(3), 988–994. ISSN 2248-9622Search in Google Scholar

[9] GATTMAH, J., OZTURK, F., ORHAN, S. 2020. A new development of measurement technique for residual stresses generated by the cold tube drawing process with a fixed mandrel. nternational Journal of Advanced Manufacturing Technology,108(11–12), 3675–3687. ISSN 1433-301510.1007/s00170-020-05645-8Search in Google Scholar

[10] SHEU, J. J., LIN, S. Y., YU, C. H. 2014. Optimum die design for single pass steel tube drawing with large strain deformation. In: Procedia Engineering. 11th International Conference on Technology of Plasticity, ICTP: Japan, Nagoya Congress Center, Nagoya, pp. 688–693. ISSN 1877-705810.1016/j.proeng.2014.10.061Search in Google Scholar

[11] BÉLAND, J. F., FAFARD, M., RAHEM, A., D’AMOURS, G., CÔTÉ, T. 2011. Optimization on the cold drawing process of 6063 aluminium tubes. Applied Mathematical Modelling,35(11), 5302–5313. ISSN 0307-904X10.1016/j.apm.2011.04.025Search in Google Scholar

[12] NECPAL, M., MARTINKOVIČ, M., VÁCLAV, Š. 2018. Determination of the Coefficient of Friction Under Cold Tube Drawing Using FEM Simulation and Drawing Force Measurement. Research Papers Faculty of Materials Science and Technology Slovak University of Technology in Bratislava, 26(42), 29–34. ISSN 1338-053210.2478/rput-2018-0003Search in Google Scholar

[13] PALENGAT, M., GUIRAUD, O., MILLET, C., CHAGNON, G., FAVIER, D. 2007. Tube Drawing Process Modelling By A Finite Element Analysis. In: Materials & Processes for Medical Devices Conference. United States, Palm Desert, CA, pp. 65–72. hal-0197897610.1063/1.2740893Search in Google Scholar

[14] PALENGAT, M., CHAGNON, G., FAVIER, D., LOUCHE, H., LINARDON, C., PLAIDEAU, C. 2013. Cold drawing of 316L stainless steel thin-walled tubes: Experiments and finite element analysis. International Journal of Mechanical Sciences, 70, 69–78. ISSN 0020-740310.1016/j.ijmecsci.2013.02.003Search in Google Scholar

[15] ORHAN, S., ÖZTÜRK, F., GATTMAH, J. 2016. Effects of the semi die/plug angles on cold tube drawing with a fixed plug by FEM for AISI 1010 steel tube, In: 4th International Symposium on Innovative Technologies in Engineering and Science. ISITES2016: Turkey, Antalya, pp. 1065–1074. ISSN 1301-404810.16984/saufenbilder.291270Search in Google Scholar

[16] NEVES, F. O., BUTTON, S. T., CAMINAGA, C., GENTILE, F. C. 2005. Numerical and experimental analysis of tube drawing with fixed plug. ournal of the Brazilian Society of Mechanical Sciences and Engineering,27(4), 426–431. ISSN 1678-587810.1590/S1678-58782005000400011Search in Google Scholar

[17] KARNEZIS, P., FARRUGIA, D. C. J. 1998. Study of cold tube drawing by finite-element modelling. Journal of Materials Processing Technology, 80–81, 690–694. ISSN 0924-0136.10.1016/S0924-0136(98)00127-7Search in Google Scholar

[18] www.deform.com, DEFORM-3D [Online]. [Accessed: 09-2020]. Available at https://www.deform.com/products/deform-3d/Search in Google Scholar

[19] POČTA, B. 1963. Ocelové trubky - I. díl – Bezešvé trubky. (Steel tubes – part I. – Seamless tubes.) 2nd ed. Prague: Státní nakladatelství technické literatury. Slovenské vydavateľstvo technickej literatúry. SNTL.SVTL, 416 p.Search in Google Scholar