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Tytuł artykułu

Mechanical properties and fracture analysis of AlCu4MgSi alloy ingots obtained by horizontal continuous casting

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Języki publikacji
EN
Abstrakty
EN
The article presents the results of research concerning AlCu4MgSi alloy ingots produced using horizontal continuous casting process under variable conditions of casting speed and cooling liquid flow through the crystallizer. The mechanical properties and structure of the obtained ingots were correlated with the process parameters. On the basis of the obtained results, it has been shown that depending on the cooling rate and the intensity of convection during solidification, significant differences in the mechanical properties and structure and of the ingots can occur. The research has shown that, as the casting speed and the flow rate of the cooling liquid increase, the hardness of the test samples decreases, while their elongation increases, which is related to the increase of the average grain size. Also, the morphology of the intermetallic phases precipitations lattice, as well as the centerline porosity and dendrite expansion, significantly affect the tensile strength and fracture mechanism of the tested ingots.
Twórcy
  • Silesian University of Technology, Faculty of Mechanical Engineering, Institute of Engineering Materials and Biomaterials, 18a Konarskiego Str., 44-100 Gliwice, Poland
autor
  • Silesian University of Technology, Faculty of Mechanical Engineering, Department of Foundry Engineering, 7 Towarowa Str., 44-100 Gliwice, Poland
Bibliografia
  • [1] K. Poznański, J. Sozański, M. Suchowolec, J. Szafraniak, Intelligent innovation in aluminum industry - conference report (in Polish), Warsaw (2017).
  • [2] A. Zaki (ed.), Aluminium Alloys - New Trends in Fabrication and Applications, InTech, Rijeka (2012).
  • [3] T. Kvačkaj, R. Bidulskỳ (ed.), Aluminium Alloys, Theory and Applications, InTech, Rijeka (2011).
  • [4] A. Śliwa, W. Kwaśny, M. Sroka, R. Dziwis, Metalurgija 56 (3-4), 422-424 (2017).
  • [5] B. Tomiczek, M. Kujawa, G. Matula, M. Kremzer, T. Tański, L.A. Dobrzański, Materialwiss. Werkst. 46 (4-5), 368-376 (2015). (DOI: 10.1002/mawe.201500411).
  • [6] T. Wróbel, J. Szajnar, 22nd International Conference on Metallurgy and Materials (METAL) 15-17 May 2013, Brno, Czech Republic, 1177-1182.
  • [7] H. F. Schrewe, Continous Casting of Steel, Fundamental Principles and Practice, Stahl und Eisen, Dusseldorf (1991).
  • [8] W. Sebzda, J. Szajnar, 22nd International Conference on Metallurgy and Materials (METAL) 15-17 May 2013, Brno, Czech Republic, 178-184.
  • [9] P. M. Nuckowski, T. Wróbel, Arch. Foundry Eng. 18 (1), 196-202 (2018). (DOI: 10.24425/118837).
  • [10] T. Wróbel, P. M. Nuckowski, P. Jurczyk, Arch. Foundry Eng. 18 (2), 181-186 (2018). (DOI: 10.24425/122525).
  • [11] J. Huang, L. Xia, Y. Znang, S. Li, Case Studies in Engineering Failure Analysis, 2 (1), 15-24 (2014).
  • [12] J. Campbell, Complete Casting Handbook: Metal Casting Processes, Metallurgy, Techniques and Design: Second Edition, Elsevier, Oxford (2015).
  • [13] ASM International: Casting Desing and Performance, ASM International, Ohio (2009).
  • [14] M. Stawarz, Arch. Foundry Eng. 18 (2), 100-104 (2018). (DOI: 10.24425/122509).
  • [15] A. Dulska, C. Baron, J. Szajnar, 25th Anniversary International Conference on Metallurgy and Materials (METAL) 25-27 May 2016, Brno, Czech Republic, 110-115.
Uwagi
EN
1. This publication was financed by the Ministry of Science and Higher Education of Poland as the statutory financial grant of the Faculty of Mechanical Engineering, Silesian University of Technology.
PL
2. 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-4d0df706-0baa-4a09-a19c-e9a7501004c7
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