Comparing the Effectiveness of Cast Iron Spheroidization by the Traditional Method and Using a Reaction Chamber (Reactor) Placed in Foundry Mould

Stefański, Z.; Kamińska, J.; Pamuła, E.; Angrecki, M.; Palma, A.

doi:10.24425/118836

Artykuł - szczegóły

Tytuł artykułu

Comparing the Effectiveness of Cast Iron Spheroidization by the Traditional Method and Using a Reaction Chamber (Reactor) Placed in Foundry Mould

Autorzy

Stefański Z. , Kamińska J. , Pamuła E. , Angrecki M. , Palma A.

Treść / Zawartość

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Identyfikatory

DOI

10.24425/118836

Warianty tytułu

Języki publikacji

Abstrakty

The effectiveness of cast iron spheroidization with FeSiMg master alloy by the traditional method and using a reaction chamber placed in the cavity of foundry mould was compared. The method of cast iron treatment in mould cavity using a reaction chamber is an innovative technology developed by the Foundry Research Institute in Krakow. The effectiveness of the spheroidization process carried out by both methods was checked on a series of test castings. The article also presents the results of metallographic examinations and mechanical testing, including the discussion of magnesium yield and its assimilation rate.

Słowa kluczowe

ductile iron spheroidization methods magnesium alloy evaluation of effectiveness

żeliwo sferoidalne metody sferoidyzacji stop magnezu skuteczność sferoidyzacji ocena skuteczności

Wydawca

Komisja Odlewnictwa Polskiej Akademii Nauk Oddział w Katowicach

Czasopismo

Archives of Foundry Engineering

Rocznik

2018

Tom

Vol. 18, iss. 1

Strony

191--195

Opis fizyczny

Bibliogr. 16 poz., rys., tab.

Twórcy

autor

Stefański Z.

Foundry Research Institute, Department of Technology, Cracow, Poland

autor

Kamińska J.

jadwiga.kaminska@iod.krakow.pl

Foundry Research Institute, Department of Technology, Cracow, Poland

autor

Pamuła E.

Foundry Research Institute, Department of Technology, Cracow, Poland

autor

Angrecki M.

Foundry Research Institute, Department of Technology, Cracow, Poland

autor

Palma A.

Foundry Research Institute, Department of Technology, Cracow, Poland

Bibliografia

[1] Guzik, E. (1998). Structure and properties of spheroidal cast iron obtained by PE technique. Solidification of Metals and Alloys. 36, 57-62. (in Polish).
[2] Tabor, A. & Rączka, J.S. (2005). Optimization of chemical composition and technology for the production of austenitic nodular iron. Archives of Foundry. 5(17), 333-340. DOI: 10.1515. (in Polish).
[3] Kinal, G. (2011). The effects of laser treatment on the abrasive wear resistance of selected iron machine parts – assessment. Journal of Research and Applications in Agricultural Engineering. 56(2), 72-77.
[4] Stawarz, M. (2004). Comprehensive quality assessment of nodular cast iron. Eksploatacja i niezawodność. 2, 55-58. DOI: 10,17531. (in Polish).
[5] Souza, T., Nogueira, R., Franco, F., Aguilar, M. & Cetlin, P. (2014). Mechanical and microstructural characterization of nodular cast iron (NCI) with niobium additions. Material Research. 17(5), 1167-1172. DOI: 10.3740/MRSK.2017.27.3.127.
[6] Olejarczyk-Wożeńska, I., Adrian, A., Adrian, H. & Mrzygłód, B. (2011). Parametric representation of TTT diagrams of ADI cast iron. Archives of Metallurgy and Materials. 57(2), 613-617. DOI: 10.2478/amm.
[7] Kluska-Nawarecka, S., Górny, Z. & Wilk-Kołodziejczyk, D. (2007). The logic of plausible reasoning in the diagnosis of castings defects. Archives of Metallurgy and Materials. 52(3), 375-380. DOI: 10.2478/amm.
[8] Kluska-Nawarecka, S., Wilk-Kołodziejczyk, D. & Regulski, K. (2011). Rough Sets Applied to the RoughCast System for Steel Castings. Intelligent Information And Database Systems. 6592, 52-61. DOI : 10.1007/978-3-642-20042-7.
[9] Myszka, D. & Babul, T. (2010). Manufacture of austenitic spheroidal cast iron in a vacuum oven with gas cooling. Archiwum Technologii Maszyn i Automatyzacji. 30(3), 35- 42. (in Polish).
[10] Kostrzewski, Ł., Kołodziej, R. & Szajnar, J. (2013). A method of evaluating the effectiveness of cast iron spheroidization using a simplified formula for magnesium yield. Archives of Foundry Engineering. 13(spec.3), 79-82. DOI: 10.1515. (in Polish).
[11] Guzik, E. (2001). Processes for refining cast iron. Selected Issues. Monograph Nr 1. Katowice-Gliwice: Wyd. Archives of Foundry. Komisja Odlewnictwa PAN. (in Polish).
[12] Warchala, T. (1995). Metallurgy and foundry. Częstochowa: Wydawnictwo Politechniki Częstochowskiej. (in Polish).
[13] Smalley, O. (1975). Treatment of Nodular-graphite Iron by teh Inmould Process. Foundry Trade Journal. 139(3068), 423-430.
[14] Ohide, T. (2000). Hybrid control of graphite cast iron structure by partial melt treatment process. International Journal of Cast Metals Research. 12(5), 277-282.
[15] Ohide, T., Kishida, M., Kimura, T. & Takemoto, Y. (1997). Formation of Alteration Morphology of Graphite Structure by Modified Inmould Process and Observation of Fluid Flow by Water Model. Journal of Japan Foundry Engineering Society,. 16(1), 27-34.
[16] Stefański, Z., Pytel, A. (2015). Patent PL 220357 B1. Urząd Patentowy Rzeczpospolitej Polskiej. (in Polish).

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018)

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-275e2e9a-f3eb-4002-8d1d-5f8e603de436