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Title

Casting of Aluminium Foam with Defined Porosity Using DoE

Journal title

Archives of Foundry Engineering

Yearbook

2025

Volume

Accepted articles

Authors

Kopanica, Z. ; Herman, A. ; Kříž, A.

Affiliation

Kopanica, Z. : Czech Technical University in Prague, Faculty of Mechanical Engineering, Czech Republic ; Herman, A. : Czech Technical University in Prague, Faculty of Mechanical Engineering, Czech Republic ; Kříž, A. : Czech Technical University in Prague, Faculty of Mechanical Engineering, Czech Republic

Keywords

Metal foams ; Aluminium foam ; Design of experiment ; Powder foaming agent ; Aluminium foam production

Divisions of PAS

Nauki Techniczne

Publisher

The Katowice Branch of the Polish Academy of Sciences

Bibliography

  1. Rajak, D.K., Gupta, M. (2020). An insight into metal based foams. In Advanced Structured Materials (978-981). Singapore: Springer Singapore.
  2. Costanza, G., Solaiyappan, D. & Tata, M.E. (2023). Properties, applications and recent developments of cellular solid materials: a review. Materials. 16(22), 7076, 1-16. ISSN 1996-1944. DOI:10.3390/ma16227076.
  3. Bhuvanesh, M., Costanza, G. & Tata, M.E. (2023). Research progress on mechanical behavior of closed-cell al foams influenced by different TiH2 and SiC additions and correlation porosity-mechanical properties. Applied Sciences. 13(11), 6755, 1-13. DOI:10.3390/app13116755.
  4. Miyoshi, T., Itoh, M., Akiyama S. & Kitahara, A. (1998). Aluminum foam, “Alporas”: the production process, properties and applications. MRS Proceedings. 521, 133.  ISSN 0272-9172. DOI:10.1557/PROC-521-133.
  5. Ashby, M., Evans, A.G., Flack, N., Gibson, L.J. (2000). Properties of metal foams. In Metal Foams (pp. 40-54). Elsevier. DOI:10.1016/B978-075067219-1/50006-4.
  6. Simancik, F., Rajner W. & Rainhard, LAAG. (2000). Alulight - aluminum foam for lightweight construction. SAE technical paper series. 2000-03-06. DOI:10.4271/2000-01-0337.
  7. Kriszt, B., Kraft, O. & Clemens, H. (2000). Mikrostruktureigenschaften von Alporas Schaum in Abhängigkeit von thermisch mechanischer Belastung. Materialwissenschaft und Werkstofftechnik. 31(6), 478-480. ISSN 0933-5137. DOI:/10.1002/1521-4052(200006)31:6478::AID-MAWE4783.0.CO;2-0.
  8. Kulshreshtha, A. & Dhakad, S.K. (2020). Preparation of metal foam by different methods: a review. Materials Today: Proceedings. 26, 1784-1790. ISSN 22147853. DOI:10.1016/j.matpr.2020.02.375.
  9. Lefebvre, L.P., Banhart J. & Dunard, D.C. (2007). Porous Metals and Metallic Foams. DEStech Publications. ISBN 978-1-932078-28-2.
  10. Rajak, D.K., Gupta, M. (2020). Manufacturing Methods of Metal FoamsAn Insight Into Metal Based Foams: Processing, Properties and Applications. DOI:10.1007/978-981-15-9069-6_3.
  11. Banhart, J. (2001). Manufacture, characterisation and application of cellular metals and metal foams. Progress in Materials Science. 46(6), 559-632. DOI:10.1016/S0079-6425(00)00002-5.
  12. Byakova, A., Gnyloskurenko, S., Vlasov, A., Yevych Y. & Semenov, N. (2022). The mechanical performance of aluminum foam fabricated by melt processing with different foaming agents: a comparative analysis. Metals. 12(8), 1384, 1-10. ISSN 2075-4701. DOI:10.3390/met12081384.
  13. Durakovic, B. (2017). Design of experiments application, concepts, examples: State of the art. Periodicals of Engineering and Natural Sciences (PEN). 5(3). DOI:10.21533/pen.v5i3.145.
  14. Uy, M. & Telford, J.K. (2009). Optimization by Design of Experiment techniques. In 2009 IEEE Aerospace conference proceedings, 7-14 March 2009 (pp. 1-10). DOI:10.1109/AERO.2009.4839625.

Date

03.02.2025

Type

Article

Identifier

DOI: 10.24425/afe.2025.153770
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