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Measurement of Molding Sand Elasticity

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The progressive mechanization and automation of industrial equipment is the driving force of progress, not only in the field of production but also in the measuring and control equipment. In mold production, the automation of processes such as forming molds and cores along with their assembly has led to increases in serial production, reductions in defects, and the shortening of molding times, among others. Thanks to automation in mold and core departments and the use of all sorts of manipulators, mold production in foundries has gained momentum. Unfortunately, in addition to the mentioned advantages, there are also new challenges as to the quality and properties of the molding and core sands used in highly automated foundries.This article presents recent research on molding sand elasticity. The topic was introduced as an attempt to answer the new needs of highly mechanized foundries. The article discusses a new method of measuring the resistance of molding materials to undergoing mechanical deformation (molding sand elasticity), with an additional analysis of the bending strengths of the tested samples. Precise measurements, test sample preparation, and interpretation of the received results are presented in the article.
Rocznik
Strony
38--44
Opis fizyczny
Bibliogr. 35 poz., fot., rys., wykr.
Twórcy
  • AGH University of Science and Technology, Faculty of Foundry Engineering, Department of Molding Materials, Mold Technology, and Cast Non-Ferrous Metals, Reymonta 23, 30-059 Krakow, Poland
  • AGH University of Science and Technology, Faculty of Foundry Engineering, Department of Molding Materials, Mold Technology, and Cast Non-Ferrous Metals, Reymonta 23, 30-059 Krakow, Poland
autor
  • AGH University of Science and Technology, Faculty of Foundry Engineering, Department of Molding Materials, Mold Technology, and Cast Non-Ferrous Metals, Reymonta 23, 30-059 Krakow, Poland
autor
  • AGH University of Science and Technology, Faculty of Foundry Engineering, Department of Molding Materials, Mold Technology, and Cast Non-Ferrous Metals, Reymonta 23, 30-059 Krakow, Poland
autor
  • MULTISERW-Morek Company, Marcyporęba 36, 34-114 Brzeźnica, Poland
autor
  • VŠB – Technical University of Ostrava, Faculty of Metallurgy and Material Engineering, Department of Metallurgy and Foundry Engineering, Ostrava, Czech Republic
Bibliografia
  • [1] Gröning P., Schreckenberg S. & Jenrich K. (2015). Herstellung von hochkomplexen Zylinderkurbelgehäusen (part 1). Giesserei, 102(01), 42–47.
  • [2] Gröning P., Schreckenberg S. & Jenrich K. (2015). Herstellung von hochkomplexen Zylinderkurbelgehäusen (part 2). Giesserei, 102(01), 48–53.
  • [3] Gröning P. & Serghini A. (2012). New cold-box systems and additives for serial production of castings. III Conference „Moulding and core materials – theory and practice”, 20–22 May. Zakopane, Hüttenes-Albertus Poland.
  • [4] Stauder B.J., Kerber H. & Schumacher P. (2016). Foundry sand core property assessment by 3-point bending test evaluation. Journal of Materials Processing Technology, 237, 188–196.
  • [5] Galina H. (1998). Fizykochemia polimerów. Rzeszów: Politechnika Rzeszowska.
  • [6] Przygocki W. (2001). Fizyka polimerów. Warszawa: Polskie Wydawnictwo Naukowe.
  • [7] Sperling L.H. (1992). Introduction to physical polymer science. New York: Wiley & Sons.
  • [8] Riande E., Díaz-Calleja R., Prolongo M.G., Masegosa R.M. & Salom K. (1999). Polymer Viscoelasticity: Stress and Strain in Practice. New York: CRC Press.
  • [9] Zych J. (2013). Bench Life (Work Time) of Moulding and Core Sands with Chemical Binders – a New, Ultrasound Investigation Method. Archives of Foundry Engineering, 13(4), 117–122. DOI 10.2478/afe-2013-0094.
  • [10] Zych J. (2007). Behaviour of moulding sands with hydrophilic binders in dry air. Archives of Foundry Engineering, 7(4), 189–192.
  • [11] Głuch S. (2016). The influence of hardening parameters on deformation of cores during resistance measurement on chosen moulding sands in cold-box technology. Engineering thesis. Kraków: Akademia Górniczo-Hutnicza.
  • [12] Hutera B., Lewandowski J.L. & Smyksy K. (1999). Wpływ temperatury na właściwości wybranych mas formierskich. Archives of Foundry Engineering, 6(20), 71–76.
  • [13] Grabarczyk A., Dobosz S.M., Major-Gabryś K., Jakubski J. & Morek J. (2015). Elastyczność – nowe kryterium oceny jakości mas formierskich. Archives of Foundry Engineering, 15(4), 39–42.
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  • [15] Morgan D. & Fashman E.W. (1975). The BCIRA Hot Distortion tester for quality in production of chemically bonded sands. AFS Transaction, 91, 73–80.
  • [16] Ramrattan S., Vellanki S., Jideaku I. & Huang C. (1997). Thermal distortion in process control of chemically-bonded sands. AFS Transaction, 125, 161–165.
  • [17] Rodriguez J., Keil M., Ramrattan S. & Krysiak M.B. (1989). Industry and academia collaboration for a thermal distortion tester for sand-binder systems. 1998 Annual Conference, 28 June 1989, Seattle, Washington, USA.
  • [18] Ignaszak Z. & Popielarski P. (2009). Heat Transfer During Hot Distortion Test of Ceramic Porous Material Bonded by Various Resins. Defect and Diffusion Forum, 283–286, 382–387.
  • [19] Ignaszak Z. (2008). Chosen aspects of thermo-mechanical phenomena in resin bonded sands by use of Hot Distortion tests. Archives of Foundry Engineering, 8(1), 137–142.
  • [20] Giese S.R., Roorda S.C. & Patterson M.A. (2009). Thermal Analysis of Phenolic Urethane Binder and Correlated Properties. AFS Transactions, 102, 355–366.
  • [21] Grabarczyk A., Dobosz S.M., Kusiński J. & Major-Gabryś K. (2018). The tendency of moulding sands to generate core cracks. Archives of Foundry Engineering, 18(1), 157–161.
  • [22] Hutera B. (2004). Wpływ wybranych parametrów fizykochemicznych na wytrzymałość mas formierskich. Archiwum Technologii Maszyn i Automatyzacji, 24(1), 115–122.
  • [23] Löchte K. (1998). Working with the Cold Box Process in the Coremaking Department of a Foundry. Hüttenes-Albertus Chemische Werke GmbH, July 1998, 1–21.
  • [24] Baliński A. (2017). Effect of the way of modification of hydrated sodium silicate on the effectiveness of the changes in the residual strength of a moulding sand. Transactions of Foundry Research Institute, 57(3), 161–168.
  • [25] Psimenos A.Ch. (2008). Core and molding production with nobake binder systems. Giesserei Praxis, 4, 111–119.
  • [26] Dobosz S.M., Grabarczyk A., Major-Gabryś K. & Bolibruchova D. (2017). Elasticity of cores manufactured in cold box technology. Archives of Metallurgy and Materials, 62(1), 351–354.
  • [27] Dobosz S. M., Grabarczyk A., Major-Gabryś K. & Morek J. (2016). Quality assessment of the moulding mixtures from the elasticity point of view. Technológ, 8(2), 19–23.
  • [28] Major-Gabryś K. (2015). Biodegradable materials as binders for IVth generation moulding sands. China Foundry, 12(5), 375–381.
  • [29] Huang R., Gao H., Tang Y. & Liu Q. (2011). Curing mechanism of furan resin modified with different agents and their thermal strength. China Foundry, 8(2), 161–165.
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  • [32] Dobosz S.M. (1990). Aktywacja cieplna piasków kwarcowych. Kraków: Wydawnictwo AGH.
  • [33] Dobosz S.M. (2006). Woda w masach formierskich. Rozprawa habilitacyjna. Zeszyty Naukowe AGH “Metalurgia i Odlewnictwo” (134), Kraków.
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  • [35] PrecOdlew – producers website. Retrieved January 24, 2018, from http://odlew.com.pl/zywice-i-utwardzacze-odlewnicze
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cf7052fe-a550-46c4-8374-a36a3e119ef6
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