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The Study of the Effect of Alternate Intermittent Deformation on the Bauschinger Effect in a Zirconium-Based Alloy

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Języki publikacji
EN
Abstrakty
EN
The article reports the results of research on the influence of the alternate intermittent deformation of specimens by a torsion method on the Bauschinger effect in the Zr-1%Nb zirconium-based alloy. Tests were carried out using an STD 812 torsion plasto-meter. Based on the tests carried out, diagrams have been plotted, which represent the influence of the pre-deformation magnitude, the temperature of heat treatment prior to deformation, and deformation rate on the variation in the values of the flow stress and yield strength of the alloy under study. Conditions have been defined, in which larger magnitudes of plastic deformation of Zr-1Nb% alloy material can be used during its cold plastic working.
Twórcy
autor
  • Metal Forming Institute, 14 Jana Pawła II Av, 61-139 Poznan, Poland
autor
  • Czestochowa University of Technology, Faculty of Production Engineering and Materials Technology, Institute for Plastic Working and Safety Engineering, 19 Armii Krajowej Av, 42-200 Czestochowa, Poland
autor
  • Czestochowa University of Technology, Faculty of Production Engineering and Materials Technology, Institute for Plastic Working and Safety Engineering, 19 Armii Krajowej Av, 42-200 Czestochowa, Poland
autor
  • Czestochowa University of Technology, Faculty of Production Engineering and Materials Technology, Institute for Plastic Working and Safety Engineering, 19 Armii Krajowej Av, 42-200 Czestochowa, Poland
Bibliografia
  • [1] R. Melechow, K. Tubielewicz, Materiały stosowane w energetyce jądrowej [Materials used in nuclear energy], Politechnika Częstochowska, seria Monografie 86, 229 (2002), In Polish.
  • [2] A. S. Zajmovskij, A. V. Nikulina, N. G. Reshetnikov, Cirkonievye splavy v yadernoj ehnergetike [Zirconium alloys in nuclear power], Energoatomizdat, Moskva, 256, (1994), In Russian.
  • [3] H. Dyja, A. Kawałek, A. M. Galkin, K. V. Ozhmegov, S. Sawicki, Physical modelling of the multi-pass forging of zirconium alloy blanks, Metal 2014. 23 rd International Conference on Metallurgy and Materials, Brno, 402-406 (2014).
  • [4] H. Dyja, A. Kawalek, K. Ozhmegov, S. Sawicki, K. Laber, Physi-cal modelling of the zirconium alloy tube pilger rolling process, METAL 2017 - 26th International Conference on Metallurgy and Materials, Conference Proceedings, Brno, 1701-1707 (2017).
  • [5] V. F. Frolov, V. N. Danchenko, Ja. V. Frolov, Cholodnaja pilgernaja prokatka trub [Cold pilger rolling tube], Porogi, Dnepropetrovsk, 260 (2005), In Russian.
  • [6] A. V. Schedrin, V. V. Ul`yanov, V. M. Skoromnov, A. A. Bekaev, Ispol’zovanie effekta Baushingera v kombinirovannyh meto-dah prokata [Use of Bauschinger effect during calculating the combined methods of rolled products processing], Proizvodstvo prokata 9, 27-29 (2007), In Russian.
  • [7] N. G. Kolbasnikov, O. G. Zotov, I. S. Martyashov, R. V. Sulyagin, Issledovanie effekta Baushingera, fizicheskoe modelirovanie formirovaniya svojstv mikrolegirovannoj stali v processe izgotovleniya trub [Investigation of the Bauschinger effect, physical modeling of the properties formation of micro-alloyed steel in the pipe manufacturing process], Stal’ 8, 56-60 (2012), In Russian.
  • [8] A. M. Bragov, A. YU. Konstantinov, A. K. Lomunov, Opredelenie effekta Baushingera metodom pryamogo udara [Determination Baushinger effect by a direct hit], Pis’ma v ZHTF 36 (15), 22-25 (2010), In Russian.
  • [9] A. Kawałek, H. Dyja, A. M. Galkin, K. V. Ozhmegov, M. Knapiński, Physical modelling of the plastic working processes of modified Zr-Nb zirconium alloy bars and tubes, Metalurgija 54 (1), 79-82 (2015).
  • [10] K. Tsay, A. Arbuz, N. Gusseynov, R. Nemkaeva, N. Ospanov, I. Krupenkin, Refinement of the microstructure of steel by cross rolling, Journal of Chemical Technology and Metallurgy 51 (4), 385-392 (2016).
  • [11] S. V. Grachev, I. D. Kazyaeva, D. A. Pumpyanskij, Kinetika ter-micheskoj ustojchivosti ehffekta Baushingera v holodnodeformi-rovannoj stali [Kinetics of thermal stability of the Bauschinger effect in cold-rolled steel], Fizika metallov i metallovedenie 97(2), 104-107, (2004), In Russian.
  • [12] X. Lemoine, A. Aouafi, Bauschinger effect correspondence of experimental tests. International Journal of Material Forming 1 (1), supp l, 241-244 (2008).
  • [13] P. I. Stoev, V. N. Voyevodin, I. I. Papirov, N. P. Vyugov, Effect of hydrogenation on the anisotropy of mechanical properties of the fuel elements pipes of an alloy Zr-1%Nb, PAST 2 (102), 38-45 (2016).
  • [14] A. Gryc, T. Bajor, H. Dyja, S. Sawicki, K. Laber, Physical model-ling of plastic deformation conditions for the rolling process of AZ31 bars in a three high skew rolling mill, Metalurgija (Metal-lurgy) 53 (4), 489-492 (2014).
  • [15] Yoon-Soo Lim, Hyun-Gil Kim, Yong-Hwan Jeong, Recrystalliza-tion Bechavior of Zr-xNb Alloys, Materials Transactions 49 (7), 1702-1705 (2008).
  • [16] Hideaki Abe, Munekatsu Furugen, Method of Evaluting Work-ability in Cold Pilgering of Zirconium Alloy Tube, Materials Transactions 51 (7), 1200-1205 (2010)
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c8c6a522-75c7-453d-beb1-6c4fc642e219
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