ArticleName |
Study the influence of anisotropy of the drawing cylindrical part |
ArticleAuthorData |
Bauman State Technical University (Moscow, Russia):
V. A. Demin, Dr. Eng., Prof., e-mail: va_demin@bk.ru
A. A. Rizkova, Post-graduate, Mechanical Engineer, MT6 Department
Tula State University (Tula, Russia): S. N. Larin, Dr. Eng., Prof., Deputy Director on Research and Development, Polytechnic Institute, e-mail: mpf-tula@rambler.ru
3 Technical University of Munich (Munich, Germany): R. V. Riskin, Master student |
Abstract |
An investigation was carried out about the possibility of increasing the material utilization coefficient by excluding the flange rimming operation after the first drawing process. The dependency of the earing height on the drawing ratio and anisotropy was determined by means of the «AutoForm» simulation tool. The simulation results allow one to determine the necessity of cutting the flange depending on the required tolerance for the drawn part. Sensible anisotropic parameters, which take essential influence on the materials earing behavior, are determined. Furthermore, connections between the earing height and anisotropic parameters are built. |
References |
1. Dmitriev A. M., Demin V. A. The science of materials pressure in the combination with the related sciences. Naukoemkie tekhnologii v mashinostroenii. 2013. No. 4 (2). pp. 16–19. 2. Demin V. A. Innovation technology for the production of billets by pressure treatment. Naukoemkie tekhnologii v mashinostroenii. 2014. No. 8 (38). pp. 3–5. 3. Demin V. A. Improving the quality of blanks in the production method of pressure. Naukoemkie tekhnologii v mashinostroenii. 2015. No. 8 (50). pp. 3–5. 4. Grechnikov F. V. Deformation of anisotropic materials. Moscow : Mashinostroenie. 1998. 448 p. ISBN 5-217-02892-0. 5. Junsong Jin, Xinyun Wang Lei, Deng Jiancheng Luo A singlestep hot stamping-forging process for the aluminum alloy shell with nonuniform thickness. Journal of Materials Processing Technology. 2016. Vol. 228. February. pp. 170–178. 6. Zarkov V. A. Methodology of Computer Designing of Technological Processes with Respect to Anisotropy of the Material Being Formed. Part 1. Kuznechno-shtampovochnoe proizvodstvo. Obrabotka materialov davleniem. 2007. No. 1. pp. 30–42. 7. Zarkov V. A. Methodology of Computer Designing of Technological Processes with Respect to Anisotropy of the Material Being Formed. Part 2. Kuznechno-shtampovochnoe proizvodstvo. Obrabotka materialov davleniem. 2007. No. 2. pp. 32–37. 8. Zarkov V. A. Methodology of Computer Designing of Technological Processes with Respect to Anisotropy of the Material Being Formed. Part 3. Kuznechno-shtampovochnoe proizvodstvo. Obrabotka materialov davleniem. 2008. No. 6. pp. 36–38. 9. Betsofen S. Ya., Kostykova O. S., Slavov V. I., Matsnev V. N. Texture and anisotropy of a plastic flow in low-carbon deepdrawing steels. Russian metallurgy (Metally). 2004. No. 5. pp. 484–488.
10. Nepershin R. I. Simulation of Axisymmetric Drawing of Thin-Walled Shells by a Punch of Complex Shape with Respect to Normal Anisotropy and Hardening of Preform Material. Kuznechno-shtampovochnoe proizvodstvo. Obrabotka materialov davleniem. 2009. No. 3. pp. 33–37. 11. Mousavia A., Kunzeb T., Rochb T., Lasagnib A., Brosius A. Deep drawing process without lubrication — an adapted tool for a stable, economic and environmentally friendly process. Procedia Engineering. 2017. Vol. 207. pp. 48–53. 12. Travin V. Y., Platonov V. I., Pasynkov A.A. Limit Deformable in the First Step Dome Rotationally Symmetric Parts Anisotropic Materials. Izvestiya Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki. 2015. Vol. 8-1. pp. 23–29. 13. Romanovsky V. P. Reference book on cold stamping. Leningrad : Mashinostroenie. 1979. 520 p. 14. Zhelezkov O. S., Malakanov S. A., Platov S. I. Stress-strained state and forming in drawing of hexagonal sections from a round billet. Chernye metally. 2016. No. 12. pp. 31–35. 15. Filippov A. A., Pachurin G. V., Kuzmin N. A., Matveev Yu. I. The method of forming the structural and mechanical properties of rolled steel for heading of core products. Chernye metally. 2018. No. 4. pp. 36–40. 16. Korchunov A. G., Gun G. S., Shiryaev O. P., Pivovarova K. G. Study of structural transformation of hot-rolled carbon billets for high-strength ropes for responsible applications via the method of thermal analysis. CIS Iron and Steel Review. 2017. Vol. 13. pp. 39–42. 17. Tennera J., Andreasa K., Radiusa A., Merklein M. Numerical and experimental inves-tigation of a dry drawing of aluminum alloys with conventional and coated tool surfaces. Procedia Engineering. 2017. Vol. 207. pp. 2245–2250 18. Senyong Chena, Yi Qina, Chenb J. G., Chee-Mun Choy. A forging method for reducing process in the formation of automotive fasteners. International Journal of Mechanical Sciences. 29 December 2017. 19. Dongbin Wei, Liang Luo, Hideki Satoc ZhengyiJiang, Kenichi Manabec Simulations of hydro-mechanical deep drawing using Voronoi model and real microstructure model. Procedia Engineering. 2017. Vol. 207. pp. 1033–1038. 20. Weiqin Tang, Shiyao Huang, Dayong Li, Yinghong Peng Mechanical anisotropy and deep drawing behaviors of AZ31 magnesium alloy produced by unidirectional and cross rolling. Journal of Materials Processing Technology. 2015. Volume 226. January. pp. 320–326. 21. GOST 9045-93. Thin sheet cold-rolled material from lowcarbon special steel for cold stamping. |