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The paper presents research results on the selection of parameters for the asymmetric rolling process of bimetallic plates 10CrMo9-10+X2CrNiMo17-12-2. They consisted in determining the optimum parameters of the process, which would be ensured to obtain straight bands. Such deformation method introduces in the band the deformations resulting from shear stress, which affect changes in the microstructure. But their effect on the structure is more complicated than in the case of homogeneous materials. It has been shown that the introduction of asymmetric conditions into the rolling process results in greater grain refinement in the so-called hard layer. There was no negative effect on the structural changes in the soft layer observed.
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Tom
Strony
1495--1501
Opis fizyczny
Bibliogr. 19 poz., fot., rys., tab., wzory
Twórcy
autor
- Czestochowa University of Technology, Faculty of Production Engineering and Materials, 19 Armii Krajowej Av., 42-200 Częstochowa, Poland
autor
- Czestochowa University of Technology, Faculty of Production Engineering and Materials, 19 Armii Krajowej Av., 42-200 Częstochowa, Poland
autor
- Czestochowa University of Technology, Faculty of Production Engineering and Materials, 19 Armii Krajowej Av., 42-200 Częstochowa, Poland
autor
- Czestochowa University of Technology, Faculty of Production Engineering and Materials, 19 Armii Krajowej Av., 42-200 Częstochowa, Poland
autor
- Czestochowa University of Technology, Faculty of Production Engineering and Materials, 19 Armii Krajowej Av., 42-200 Częstochowa, Poland
Bibliografia
- [1] S. Mroz, G. Stradomski, H. Dyja, A. Galka, Using the explosive cladding method for production of Mg-Al bimetallic bars, Archives of Civil and Mechanical Engineering 15 (2), 317-323 (2015).
- [2] S. Mroz, P. Szota, A. Stefanik, S. Wasek, G. Stradomski, Analysis of Al-Cu bimetallic bars properties after explosive welding and rolling in modified passes, Archives of Metallurgy and Materials 60 (1), 427-432 (2015).
- [3] G. Stradomski, D. Rydz, H. Dyja, Bimetal plate St3S+Cu, Metalurgija 44 (2), 147-150 (2005).
- [4] Discover the Possibilities with Bimetallic Products, LTV Copperweld, 2000.
- [5] N. Zhang, W. Wang, X. Cao, J. Wu, The effect of annealing on the interface microstructure and mechanical characteristics of AZ31B/AA6061 composite plates fabricated by explosive welding, Materials and Design 65, 1100-1109 (2015).
- [6] K. Rheea, W. Hanb, H. Park, S. Kimc, Fabrication of aluminum/copper clad composite using hot hydrostatic extrusion process and its material characteristics, Materials Science and Engineering A 384 (1-2), 70-76 (2004).
- [7] H. Dyja: Odkształcenie warstw blachy platerowanej wstępnie połączonej wybuchem w procesie walcowania, Hutnik 47, 8-9, 322-329 (1980).
- [8] H. Dyja, Symetryczny i asymetryczny proces walcowania dwuwarstwowych wyrobów płaskich, seria monografie nr 12, Politechnika Częstochowska, Częstochowa 1990.
- [9] H. Dyja, K. Wilk, Asymetryczne walcowanie blach i taśm, seria: Metalurgia, Częstochowa 1998.
- [10] G. Niewielski, Zmiany struktury i właściwości stali austenitycznej odkształcanej na gorąco, Zeszyty Naukowe Politechniki Śląskiej, Hutnictwo z. 58, Gliwice 2000.
- [11] R. Kuziak, Modelowanie zmian struktury i przemian fazowych zachodzących w procesach obróbki cieplno-plastycznej stali. IMŻ, Gliwice 2005.
- [12] Ch. H. Choi, The Effect of Shear Texture Development on the Formability in Rolled Aluminum Alloys Sheets, Materials Science Forum 391, 273-275 (1998).
- [13] E. Siebel, The theory of rolling process between unequally driven rolls, Archip. fur Eisenhuttenwesen 15, 9, 125-128 (1941).
- [14] K. Kittner, C. Binotsch, B. Awiszus, Models for determination of interface strength and quality of aluminum-magnesium compounds, Steel Research International 81 (9), 454-457 (2010).
- [15] Yan, Tao, Qin, Na, Zhao, Shuo, et al., Deformation analysis of asymmetric break-down rolling of hollow steel. World Journal of Engineering 14 (6) (2017).
- [16] W. J. Kim, K. E. Lee, S. H. Choi, Mechanical properties and microstructure of ultra-fine-grained copper prepared by a high-speed-ratio differential speed rolling, Materials Science and Engineering A 506, 71-79 (2009).
- [17] S. Mróz, P. Szota, A. Stefanik, The theoretical and experimental analysis of the possibility of employing the groove rolling process for the manufacture of Mg/Al bimetallic bars, Metalurgija 55 (4), 628-630 (2016).
- [18] J. Wypart, D. Rydz, G. Stradomski, H. Dyja, Analysis of bimetallic plate rolling after explosive welding joining. XII International Symposium on Explosive Production of New Materials: Science, Technology, and Innovations, Ed. by: A. A. Deribas, Yu. B. Scheck, Cracow 1571-1573, 2014.
- [19] C. Mapelli, S. Barella, D. Mombelli, C. Baldizzone, A. Gruttadauria, Comparison between symmetric and asymmetric hot rolling techniques performed on duplex stainless steel 2205, International Journal of Material Forming 6, 327-339 (2013).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-096c7ab3-4cba-4eeb-823c-2ee04650fef7