Details

Title

Research on Assessment of the Applicability of Malted Barley Binder in Moulding Sand Technology

Journal title

Archives of Foundry Engineering

Yearbook

2021

Volume

vo. 21

Issue

No 1

Authors

Affiliation

Samociuk, B. : Department of Foundry Engineering, Plastics and Automation, Wroclaw University of Technology, ul. Smoluchowskiego 25, 50-372 Wrocław, Poland ; Gal, B. : Department of Foundry Engineering, Plastics and Automation, Wroclaw University of Technology, ul. Smoluchowskiego 25, 50-372 Wrocław, Poland ; Nowak, D. : Department of Foundry Engineering, Plastics and Automation, Wroclaw University of Technology, ul. Smoluchowskiego 25, 50-372 Wrocław, Poland

Keywords

Innovative foundry technologies and materials ; Mechanical properties ; Moulding and core sand ; Organic binder ; Malted barley

Divisions of PAS

Nauki Techniczne

Coverage

74-80

Publisher

The Katowice Branch of the Polish Academy of Sciences

Bibliography

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[2] Czerwinski, F., Mir, M. & Kasprzak, W. (2015). Application of cores and binders in metalcasting. International Journal of Cast Metals Research. 28(3), 129-139. DOI: 10.1179/1743133614Y.0000000140.
[3] Ferreira, S. H. G. da, J. C. E., Kumar, V. & Garza-Reyes, J. A. (2020). Benchmarking of cleaner production in sand mould casting companies. Management of Environmental Quality: An International Journal. 31(5), 1407-1435. DOI: 10.1108/MEQ-12-2019-0272.
[4] Fayomi, O.S.I. (2016). Hybrid effect of selected local binders on the moulding properties of river niger silica sand for industrial application. Journal of Nanoscience with Advanced Technology. 1(4), 19-23. DOI: 10.24218/jnat.2016.19.
[5] Yaro, S.A. & Suleiman, M.U. (2006), Cassava/guinea corn starches and soybean oil as core binders in sand casting of aluminium silicon (Al-Si)lloy. Journal of Engineering and Technology. 1(1), 47-55.
[6] Grabowska, B. & others. (2018). Influence of carbon fibers addition on selected properties of microwave-cured moulding sand bonded with BioCo2 binder. Archives of Foundry Engineering. 18(3), 152-160. DOI: 10.24425/123618.
[7] Chowdhury, S.I. Rashid, H. & Mumtaz, G.R. (2016) Comparison and CFD verification of binder effects in sand mould casting of aluminum alloy. ANNALS of Faculty Engineering Hunedoara - International Journal of Engineering. 14(1), 143-146.
[8] Manley, D. (2000). 9 - Meals, grits, flours and starches (other than wheat). Technology of Biscuits, Crackers and Cookies (Third Edition). (104–111). Red. Woodhead Publishing.
[9] Yu, W., Quek, W., Li, C., Gilbert, R. & Fox, G. (2018) Effects of the starch molecular structures in barley malts and rice adjuncts on brewing performance. Fermentation. 4(4), 103-124. DOI: 10.3390/fermentation4040103.
[10] Fox, G.P. (2009). Chemical composition in barley grains and malt quality. Genetics and Improvement of Barley Malt Quality. (63-98). Zhang G. & C. Li, Red. Berlin, Heidelberg: Springer Berlin Heidelberg. [11] Pezarski, F., Izdebska-Szanda I., Smoluchowska, E., Świder, R. & Pysz, A. (2011). Application of moulding sands with geopolymer binder in the manufacture of castings from aluminium alloys. Prace Instytutu Odlewnictwa. 51(2), 23-34. (in Polish).
[12] Stachowicz, M. Granat, K. & Nowak, D. (2012). Bending strength measurement as a method of binder quality assessment on the example of water-glass containing moulding sands. Archives of Foundry Engineering. 12(1), 175-178. (in Polish).
[13] Stachowicz, M., Granat, K. & Nowak, D. (2010). Studies on the possibility of more effective use of water glass thanks to application of selected methods of hardening. Archives of Foundry Engineering. 10 (spec.2), 135-140.
[14] Szymański, A., (2007). Soil mechanics. Warszawa: Wydawnictwo SGGW. (in Polish).
[15] Ochulorl, E.F., Ugboaja, J.O. & Olowomeye, O.A. (2019). Performance of kaolin and cassava starch as replacements for bentonite in moulding sand used in thin wall ductile iron castings. Nigerian Journal of Technology. 38(4), 947-956. DOI: 10.4314/njt.v38i4.18.
[16] Popoola, A.P.I., Abdulwahab, M. & Fayomi, O.S.I. (2012). Synergetic performance of palm oil (Elaeis guineensis) and pine oil (Pinus sylvestris) as binders on foundry core strength. International Journal of the Physical Sciences. 7(24), 3062-3066. DOI: 10.5897/IJPS12.347.
[17] Atanda, P.O., Akinlosotu, O.C. & Oluwole, O.O. (2014). Effect of some polysaccharide starch extracts on binding characteristics of foundry moulding sand. International Journal of Scientific & Engineering Research. 5(3), 362-367.
[18] Pezarski, F., Maniowski, Z., Izdebska-Szanda, I. & Smoluchowska, E. (2006). Investigations of moulding and core sands made with a new geopolymer binder assigned for production of steel castings. Archives of Foundry. 6(20), 65-70. (in Polish).
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[20] Jaworski, J. (2006). Research of stability of preparation system of circulating moulding sands. Archives of Foundry Engineering. 6(18), 495-500. (in Polish).
[21] Michta-Stawiarska, T. (2000). The selected iron castings defects as the effect of the sandmix quality. Solidification of Metais and Alloys. 2(43), 345-347. (in Polish).
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[23] Bobrowski, A. (2018). The phenomenon of dehydroxylation of selected mineral materials from the aluminosilicates group as the determinant factor of the knock-out improvement of moulding and core sands with inorganic binder. Wydawnictwo Archives of Foundry Engineering, Komisja Odlewnictwa PAN Katowice. (in Polish).
[24] Paduchowicz, P., Stachowicz, M. & Granat, K. (2017). Effect of Microwave Heating on Moulding Sand Properties with Gypsum Binder. Archives of Foundry Engineering. 17(3), 97-102.
[25] Sakwa, W., Wachelko, T. (1981). Foundry materials for molds and foundry cores. Katowice: Śląsk Publisher. (in Polish).
[26] Zhoua, X. , Yang J. & Quc. G. (2007). Study on synthesis and properties of modified starch binder for foundry. Journal of Materials Processing Technology. 183. 407-411.
[27] Aramide, F. O., Aribo, S. & Folorunso, D.O. (2011). Optimizing the moulding properties of recycled ilaro silica sand. Leonardo Journal of Sciences. 19, 93-102.
[28] Jordan, G., Eulenkamp, C., Calzada, E., Schillinger, B., Hoelzel, M., Gigler, A., Stanjek, H. & Schmahl, W.W. (2013). Quantitative in situ study of the dehydration of bentonite-bonded molding sands. Clays and Clay Minerals. 61(2), 133-140.
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Date

2021.03.10

Type

Ahead of print

Identifier

DOI: 10.24425/afe.2021.136081

Source

Archives of Foundry Engineering; 2021; vo. 21; No 1; 74-80
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