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Tytuł artykułu

Casting of Aluminium Foam with Defined Porosity Using DoE

Tytuł czasopisma

Archives of Foundry Engineering

Rocznik

2025

Wolumin

vol. 25

Numer

No 1

Autorzy

Kopanica, Z. ; Herman, A. ; Kříž, A.

Afiliacje

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

Słowa kluczowe

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

Wydział PAN

Nauki Techniczne

Zakres

17-22

Wydawca

The Katowice Branch of the Polish Academy of Sciences

Bibliografia

  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.

Data

03.02.2025

Typ

Article

Identyfikator

DOI: 10.24425/afe.2025.153770 ; eISSN 2299-2944
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