Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
A review of various bulk metal forming processes that take into account influence of strain path changes on material flow is presented in this paper. Particular attention is put on computer aided design of innovative angular accumulative drawing (AAD) operation. Research in the area of development of metal forming processes taken advantage of strain path phenomena is conducted in many scientific laboratories as the strain patch change effect influences many crucial properties of the deformed material. As a result it provides a possibility of forming materials, which are e.g. difficult to form in a conventional manner. Advantages and limitations of the AAD process are summarized and presented in this work. Difficulties in development of the complex rheological model that takes in to account strain path changes in the deformed material are also presented and discussed.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
59--68
Opis fizyczny
Bibliogr. 16 poz., rys.
Twórcy
autor
- AGH University of Science and Technology, Mickiewicza 30, 30-059 Krakow, Poland
autor
- AGH University of Science and Technology, Mickiewicza 30, 30-059 Krakow, Poland
autor
- AGH University of Science and Technology, Mickiewicza 30, 30-059 Krakow, Poland
autor
- AGH University of Science and Technology, Mickiewicza 30, 30-059 Krakow, Poland
Bibliografia
- [1] GROSMAN F., PAWLICKI J., 2002, Apply concepts of materials controlled deformation in industrial processes, Polska Metalurgia w latach 1998-2002, ed, Swiatkowski K., 415-421, (in Polish).
- [2] GRONOSTAJSKI Z., MISIOŁEK N., 2004, Minor cyclic deformation of AlMg0.45 aluminum alloy, Steel-Grips, 3a, 547-554.
- [3] ZMUDZKI A., WEGLARCZYK S., PIETRZYK M., GROSMAN F., PAWLICKI J., 2006, Application of the numerical simulation for copper rheological model identification in strain path change process, Conf. Metalurgia, 613-618, (in Polish).
- [4] BOCHNIAK W, KORBEL A., 2003, KOBO type forming forging of metals under complex conditions of the process, Journal of Materials Processing Technology, 134, 120-134.
- [5] MADEJ L., WĘGLARCZYK S., GROSMAN F., 2009, Numerical modeling of bulk metal forming processes with induced strain path change, Computer Methods in Materials Science, 9, 234–240.
- [6] WĘGLARCZYK S., MADEJ L., HANARZ R., BOCHNIAK W., SZYNDLER R., KORBEL A., 2008, Validation of the numerical simulation of forging of gear-wheel in the reversible rotating die, Steel Research International, 79, 789–796.
- [7] WIELGUS M., MAJTA J., LUKSZA J., PACKO P., 2010, Effect of strain path on mechanical properties of wire drawing products, Steel Research International, 81, Spec. Ed., 490-493.
- [8] MUSZKA K., WIELGUS M., MAJTA J., DONIEC K., STEFANSKA-KADZIELA M., 2010, Influence of strain path changes on microstructure inhomogeneity and mechanical behavior of wire drawing products, Materials Science Forum, 654-656, 314-317.
- [9] MAJTA J., MUSZKA K., DYMEK S., DZIEDZIC D., KOPYSCIANSKI M., 2012, Study of the microstructure and properties of microalloyed steel wires fabricated by AAD (Angular Accumulative Drawing), Proceedings of the 14th International Conference on Metal Forming 2012, eds, Kusiak J, Majta J., Szeliga D, in: Steel Research International, Spec. Ed., 455-458.
- [10] MADEJ L., RAUCH L., PERZYNSKI K., CYBULKA P., 2011, Digital material representation as an efficient tool for strain inhomogeneities analysis at the micro scale level, Archives of Civil and Mechanical Engineering, 11, 661-679.
- [11] MUSZKA K., MADEJ L., 2013, Application of the three dimensional digital material representation approach to model microstructure inhomogeneity during processes involving strain path changes, Computer Methods in Material Science, 13, 258-263.
- [12] SIERADZKI L., MADEJ L., 2013, A perceptive comparison of the cellular automata and Monte Carlo techniques in application to static recrystallization modeling in polycrystalline materials, Computational Material Science, 67, 156–173.
- [13] LEMAITRE J.,CHABOCHE J.L., 1990, Mechanics of solid materials, Cambridge University Press.
- [14] SZELIGA D., MATUSZYK P., KUZIAK R., PIETRZYK M, 2002, Identification of rheological parameters on the basis of various types of plastometric tests, Journal of Materials Processing Technology, 125-126, 150-154.
- [15] MUSZKA K., 2013, Modelling of deformation inhomogeneity in the angular accumulative drawing process — multiscale approach, Materials Science and Engineering, A 559, 635-642.
- [16] MADEJ L., MUSZKA K., PERZYNSKI K., MAJTA J., PIETRZYK M., 2011, Computer aided development of the levelling technology for flat products, CIRP Annals - Manufacturing Technology, 60, 291-294.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-46bb651c-98c9-4686-9583-5c7714dd3123