Effect of Zeolite Addition on the Production of a Cast Porous Composite Based on AC-AlSi11 Silumin

Borowiecka-Jamrozek, J.M.; Kargul, M.

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Title

Effect of Zeolite Addition on the Production of a Cast Porous Composite Based on AC-AlSi11 Silumin

Journal title

Archives of Foundry Engineering

Yearbook

2022

Volume

vol. 22

Issue

No 4

Affiliation

Borowiecka-Jamrozek, J.M. : The Kielce University of Technology, Poland ; Kargul, M. : The Kielce University of Technology, Poland

Authors

Borowiecka-Jamrozek, J.M. ; Kargul, M.

Keywords

metal matrix composites ; casting ; zeolite ; Syntactic foam ; Aluminium alloy

Divisions of PAS

Nauki Techniczne

Coverage

96-101

Publisher

The Katowice Branch of the Polish Academy of Sciences

Bibliography

[1] Dyga, R. (2017). Metal foams as structural packing in the construction of process equipment. Technical Transactions Mechanics. 4, 165-178. DOI: 10.4467/2353737XCT.17.057.6368.
[2] Gupta, N. (2007). A functionally graded syntactic foam material for high energy absorption under compression. Materials Letters. 61(4-5), 979-982. https://doi.org/10.1016/j.matlet.2006.06.033.
[3] Taherishargh, M., Sulong, M.A., Belova, I.V. & Murch, G.E. (2015). On the particle size effect in expanded perlite aluminum syntactic foam. Materials and Design. 66(A), 294-303. https://doi.org/10.1016/j.matdes.2014.10.073.
[4] Borowiecka- Jamrozek, J., Depczyński, W. (2017). The effect of the addition of zeolite on the properties of a sintered copper-matrix composite. Metal 2017: 26rd international conference on metallurgy and materials (pp. 1652-1657).
[5] Gottardi, G. & Galli, E. (1985). Natural zeolites, mineral and rocks. Minerals. 18, 256-284. ISBN 3 540 13939 7.
[6] Nanbin, H., Dianyue, G., Bekkum, H. (2001). Introduction to zeolite science and practice. 2nd Completely revised and expanded edition, 137, (pp. 54-59).
[7] Gil, A. (1998). Analysis of the micropore structure of various microporous materials from nitrogen adsorption at 77 K. Adsorption, 4, 197-206.
[8] Jaroniec, M. & Choma, J. (1987). Characterization of activated carbons by distribution function of adsorption potential and micropore dimension. Materials Chemistry and Physics. 18(1-20, 103-117. https://doi.org/10.1016/0254-0584(87)90115-5.
[9] Brunauer, S., Emmett, P.H. & Teller, E. (1938). Adsorption of gases in multimolecular layers. Journal of the American Chemical Society. 60(2), 309-319. https://doi.org/10.1021/ ja01269a023.
[10] Gregg, S.J., Sing, K.S.W. (1982). Adsorption, Surface Area and Porosity. 2 Auglage. London: Academic Press.
[11] Kruk, M., Jaroniec, M. & Gadkaree, K.P. (1997). Nitrogen adsorption studies of novel synthetic active carbons. Journal of Colloid and Interface Science. 192(1), 250-256. DOI: 10.1006/jcis.1997.5009.
[12] Kruk, M., Jaroniec, M. & Sayari, A. (1997). Application of large pore MCM-41 molecular sieves to improve pore size analysis using nitrogen adsorption measurements. Langmuir. 13(23), 6267-6273. https://doi.org/10.1021/la970776m.
[13] Barrett, E.P., Joyner, L.G. & Halenda, P.P. (1951) The determination of pore volume and area distribution in porous substances. I. Computations from nitrogen isotherms. Journal of the American Chemical Society. 73(1), 373-380. https://doi.org/10.1021/ja01145a126

Date

2022.12.16

Type

Article

Identifier

DOI: 10.24425/afe.2022.143956