Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The paper presents experimental- model research results on the process of cross-wedge rolling of an axially-symmetrical element (stepped shaft). During research plastic mass on the basis of waxes in black and white colour was used. The aim of this experimental research was to determine the best option of forming in terms of values obtained and the course of forces. Physical examination was carried out using specialist machines, i.e. model and a laboratory cross-wedge rolling mill. Experimental analysis was carried out using billets with the temperature of 15°C, whereas the actual process was carried out for billet from C45 carbon steel of temperature 1150°C. The study compared the dimensions of the components obtained during rolling tests and forming forces obtained in the result of physical modeling with forces obtained during real tests.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
60--67
Opis fizyczny
Bibliogr. 21 poz., fig., tab.
Twórcy
autor
- Lublin University of Technology, Mechanical Engineering Faculty, Nadbystrzycka 36, 20-618 Lublin, Poland
autor
- Lublin University of Technology, Mechanical Engineering Faculty, Nadbystrzycka 36, 20-618 Lublin, Poland
Bibliografia
- 1.Asswmpour A., Razi S. Physical modeling of extrusion process. Journal of Mechanical Ennineering, 4, 2003, 61–69.
- 2.Balasundar I., Sudhakara M., Raghu T. Equal channel angular pressing die to extrude a variety of materials. Materials and Design, 30, 2009, 1050–1059.
- 3.Chitkara N.R., Johnson W., Uttley J.R.S. Ball rolling: a literature survey and some experimental results. Proceedings of the Fifteenth International Machine Tool Design and Research Conference,1975, 497–506.
- 4.Gontarz A., Łukasik K., Pater Z. Technologia kształtowania i modelowania nowego procesu wytwarzania wkrętów szynowych. Lublin, 2003.
- 5.Gontarz A., Winiarski G. Numerical and experimental study of producing flanges on hollow parts by extrusion with a movable sleeve. Archives of Metallurgy and Materials, 60, 2015, 1917–1921.
- 6.Komori K., Mizuno K. Study on plastic deformation in cone type rotary piercing using model piercing mill for modelling clay. Journal of Material Processing Technology, 209, 2009, 4994–5001.
- 7.Kowalczyk L. Modelowanie fizykalne procesów obróbki plastycznej. Radom ,1995.
- 8.Mandic V., Stefanovic M., Physical modelling and FEM simulation of the hot bulk forming processes. Journal for Technology of Plasticity, 27, 2002, 41–53.
- 9.Miresaeidi M., Biglari F.R., Nikbin K., Moazami E., Bagherzadeh S. Optimum Forging Preform Shape Design by Interpolation of Boundary Nodes. Proceedings of the World Congress on Engineering, 2, 2009.
- 10.Pater Z. Walcowanie poprzeczno-klinowe. Lublin, 2009
- 11.Pater Z., Samołyk G. Podstawy technologii obróbki plastycznej metali. Lublin, 2013.
- 12.Pertence A.E.M., Cetlin P.R. Analysis of a new model material for the physical simulation of metal forming. Journal of Materials Processing Technology, 84,1998, 261–267.
- 13.Segawa A., Kawanami T., Rolling-deformation characteristics of clad materials determined by model experiment and numerical simulation: experimental rolling tests using plasticine. Journal of Material Processing Technology, 47, 1995, 375–384.
- 14.Shih C., Hung C. Experimental and numerical analyses on three-roll planetary rolling process. Journal of Material Processing Technology, 142, 2003, 702–709.
- 15.Shih C., Hung C., Hsu R. The finite element analysis of planetary rolling process. Journal of Material Processing Technology, 113, 2001, 115–123.
- 16.Sofuoglu H., Rasty J. Flow behavior of Plasticine used in physical modeling of metal forming processes. Tribology International, 33, 2000, 523–529.
- 17.Świątkowski K. Analiza badań modelowych zużyciem materiałów modelowych z użyciem materiałów woskowych. Obróbka Plastyczna Metali, 5, 1994, 5–14.
- 18.Świątkowski K. Własności mechaniczne woskowych materiałów modelowych. Obróbka Plastyczna, 5, 1994, 15–21.
- 19.Vazquez V., Altan T. New Concepts in die design – physical and computer modeling applications. Journal of Materials Processing Technology, 98, 2000, 212–223.
- 20.Wong S.F., Hodgson P.D., Chong C.J., Thomson P.F. Physical modelling with application to metal working especially to hot rolling. Journal of Material Processing Technology, 62, 1996, 260–274.
- 21.M.Zhan, Y.Liu, H.Yang, Physical modelling of the forging of a blade with a zdamper platform using plasticine, Journal of Material Processing Technology, 117, 2001, 62–65.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f14fc26b-2ef1-4a7f-9f18-68ceb01af8fc