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Abstrakty
The paper presents changes in the production volume of castings made of non-ferrous alloys on the background of changes in total production of casting over the 2000-2019 period, both on a global scale and in Poland. It was found that the dynamics of increase in the production volume of castings made of non-ferrous alloys was distinctly greater than the dynamics of increase in the total production volume of castings over the considered period of time. Insofar as the share of production of the non-ferrous castings in the total production of castings was less than 16% during the first two years of the considered period, it reached the level of 20% in the last four years analysed. This share, when it comes to Poland, increased even to the greater degree; it grew from about 10% of domestic production of castings to over 33% within the regarded 2000-2019 period. The greatest average annual growth rate of production, both on a global scale and in Poland, was recorded for aluminium alloys as compared with other basic non-ferrous alloys. This growth rate for all the world was 4.08%, and for Poland 10.6% over the 2000-2019 period. The value of the average annual growth rate of the production of aluminium castings in Poland was close to the results achieved by China (12%), India (10.3%) and the South Korea (15.4%) over the same period of time. In 2019, the total production of castings in the world was equal to about 109 million tonnes, including over 21 million tonnes of castings made of non-ferrous alloys. The corresponding data with respect to Poland are about 1 million tonnes and about 350 thousand tonnes, respectively. In the same year, the production of castings made of aluminium alloys was equal to about 17.2 million tonnes in the world, and about 340 thousand tonnes in Poland.
Czasopismo
Rocznik
Tom
Strony
33--42
Opis fizyczny
Bibliogra. 41 poz., tab., wykr.
Twórcy
autor
- The Jacob of Paradies University in Gorzów Wielkopolski, Gorzów Wielkopolski, Poland
autor
- The Jacob of Paradies University in Gorzów Wielkopolski, Gorzów Wielkopolski, Poland
Bibliografia
- [1] Wübbenhorst, H. (1984). 5000 Jahre Giessen von Metallen. Ed. VDG Giesserei-Verlag GmbH, Düsseldorf.
- [2] Orłowicz, A.W., Mróz, M., Tupaj, M. & Trytek, A. (2015). Materials used in the automotive industry. Archives of Foundry Engineering. 15(2), 75-78.
- [3] Cygan, B., Stawarz, M. & Jezierski, J. (2018) Heat treatment of the SiMo iron castings – case study in the automotive foundry. Archives of Foundry Engineering. 18(4), 103-109.
- [4] Bolat, C. & Goksenli, A. (2020) Fabrication optimization of Al 7075/Expanded glass syntactic foam by cold chamber die casting. Archives of Foundry Engineering. 20(3), 112-118.
- [5] Orłowicz, A.W., Mróz, M., Wnuk, G., Markowska, O., Homik, W. & Kolbusz, B. (2016). Coefficient of friction of a brake disc-brake pad friction couple. Archives of Foundry Engineering. 16(4), 196-200.
- [6] Kmita, A. & Roczniak, A. (2017). Implementation of nanoparticles in materials applied in foundry engineering. Archives of Foundry Engineering. 17(3), 205-209.
- [7] Jemielewski, J. (1970). Casting of non-ferrous metals. Warsaw: Ed. WNT. (In Polish).
- [8] Perzyk, M., Waszkiewicz, S., Kaczorowski, M., Jopkiewicz, A. (2000). Casting. Warsaw: Ed. WNT. (In Polish).
- [9] Kozana, J., Piękoś, M., Maj, M., Garbacz-Klempka, A. & Żak, P.L. (2020). Analysis of the microstructure, properties and machinability of Al-Cu-Si alloys. Archives of Foundry Engineering. 20(4), 145-153.
- [10] Matejka, M., Bolibruchová, D. & Kuriš, M. (2021). Crystallization of the structural components of multiple remelted AlSi9Cu3 alloy. Archives of Foundry Engineering. 21(2), 41-45.
- [11] Łągiewka, M. & Konopka, Z. (2012). The influence of material of mould and modification on the structure of AlSi11 alloy. Archives of Foundry Engineering. 12(1), 67-70.
- [12] Ščur, J., Brůna, M., Bolibruchová, D. & Pastirčák, R. (2017). Effect of technological parameters on the alsi12 alloy microstructure during crystallization under pressure. Archives of Foundry Engineering. 17(2), 75-78.
- [13] Deev, V., Prusov, E., Prikhodko, O., Ri, E., Kutsenko, A. & Smetanyuk, S. (2020). crystallization behavior and properties of hypereutectic Al-Si alloys with different iron content. Archives of Foundry Engineering. 20(4), 101-107.
- [14] Piątkowski, J. & Czerepak, M. (2020). The crystallization of the AlSi9 alloy designed for the alfin processing of ring supports in engine pistons. Archives of Foundry Engineering. 20(2), 65-70.
- [15] Tupaj, M., Orłowicz, A.W., Trytek, A. & Mróz, M. (2019). Improvement of Al-Si alloy fatigue strength by means of refining and modification. Archives of Foundry Engineering. 19(4), 61-66.
- [16] Soiński M.S., Jakubus A. (2020). Changes in the production of ferrous castings in Poland and in the world in the XXI century. Scientific and Technical Conference ‘Technologies of the Future’. Ed. of the Jacob of Paradies University in Gorzów Wielkopolski. Gorzów Wielkopolski, 25.09.2020. Forthcoming.
- [17] Soiński M.S., Jakubus A. (2019). Structure of foundry production in Poland against the world trends in XXI century. in: Industry 4.0. Algorithmization of problems and digitalization of processes and devices. Ed. of the Jacob of Paradies University in Gorzów Wielkopolski. 2019. pp. 113-124. ISBN 978-83-65466-55-6.
- [18] Soiński M.S, Jakubus A.(2019). Production of castings in Poland and in the world over the years 2000-2017. in: Industry 4.0. Algorithmization of problems and digitalization of processes and devices 2019. Conference 2018. Ed. of the Jacob of Paradies University in Gorzów Wielkopolski. pp. 73-92. ISBN 978-83-65466-90-7.
- [19] Soiński, M.S., Skurka, K., Jakubus, A. & Kordas, P. (2015). Structure of foundry production in the world and in Poland over the 1974-2013 Period. Archives of Foundry Engineering. 15(spec.2), 69-76.
- [20] Soiński, M.S., Skurka, K., Jakubus, A. (2015). Changes in the production of castings in Poland in the past half century in comparison with world trends”. in: Selected problems of process technologies in the industry. Częstochowa. Ed. Faculty of Production Engineering and Materials Technology of the Częstochowa University of Technology, 2015. Monograph. pp.71-79. ISBN: 978-83-63989-30-9.
- [21] Soiński, M.S., Jakubus, A., Kordas, P. & Skurka, K. (2015). Production of castings in the world and in selected countries from 1999 to 2013. Archives of Foundry Engineering. 15(spec.1), 103-110. DOI: 10.1515/afe-2016-0017.
- [22] Modern Casting. 35th Census of World Casting Production. December 2001. 38-39.
- [23] Modern Casting. 36th Census of World Casting Production. December 2002. 22-24.
- [24] Modern Casting. 37th Census of World Casting Production. December 2003. 23-25.
- [25] Modern Casting. 38th Census of World Casting Production. December 2004. 25-27.
- [26] Modern Casting. 39th Census of World Casting Production. December 2005. 27-29.
- [27] Modern Casting. 40th Census of World Casting Production. December 2006. 28-31.
- [28] Modern Casting. 41st Census of World Casting Production. December 2007. 22-25.
- [29] Modern Casting. 42nd Census of World Casting Production. December 2008. 24-27
- [30] Modern Casting. 43rd Census of World Casting Production. December 2009. 17-21.
- [31] Modern Casting. 44th Census of World Casting Production. December 2010. 23-27.
- [32] Modern Casting. 45th Census of World Casting Production. December 2011. 16-19.
- [33] Modern Casting. 46th Census of World Casting Production. December 2012. 25-29.
- [34] Modern Casting. 47th Census of World Casting Production. Dividing up the Global Market. December 2013. 18-23.
- [35] Modern Casting. 48th Census of World Casting Production. Steady Growth in Global Output. December 2014. 17-21.
- [36] Modern Casting. 49th Census of World Casting Production. Modest Growth in Worldwide Casting Market. December 2015. 26-31
- [37] Modern Casting. 50th Census of World Casting Production. Global Casting Production Stagnant. December 2016. 25-29.
- [38] Modern Casting. Census of World Casting Production. Global Casting Production Growth Stalls. December 2017. 24-28.
- [39] Modern Casting. Census of World Casting Production. Global Casting Production Expands. December 2018. 23-26.
- [40] Modern Casting. Census of World Casting Production. Total Casting Tons. Hits 112 Million. December 2019. 22-25.
- [41] Modern Casting. Census of World Casting Production Total Casting Tons Dip in 2019. January 2021. 28-30.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2953ef80-12f5-4c2e-9b1c-fa9804eb821a