2-D computer simulation of rapid solidification

Z. S. Nikolić, M. Yoshimura, Sh Araki

Research output: Chapter in Book/Report/Conference proceedingConference contribution

3 Citations (Scopus)

Abstract

Two-dimensional numerical model is adopted to analyze the heat transfer process during solidification of the sample melted in an Arc-image furnace. Numerical solution of this complex problem enabled us to calculate the temperature distribution in both sample and substrate, including the phase change phenomena. Also, the effects of process parameters on the solidification of the sample melted on substrate that is cooled by water can be investigated numerically. The parameters include sample size, contact area size between the sample and the substrate, and degree of undercooling associated with rapid phase change and moving interface. The results obtained reveal that these parameters have strong effect on temperature distribution during solidification.

Original languageEnglish
Title of host publicationCurrent Research in Advanced Materials and Processes, YUCOMAT VI - Proceedings of the 6th Conference of the Yugoslav Materials Research Society
Pages381-386
Number of pages6
DOIs
Publication statusPublished - 2005 Dec 1
Event6th Conference of the Yugoslav Materials Research Society, YUCOMAT VI: Current Research in Advanced Materials and Processes - Herceg Novi, Serbia
Duration: 2004 Sep 132004 Sep 17

Publication series

NameMaterials Science Forum
Volume494
ISSN (Print)0255-5476

Conference

Conference6th Conference of the Yugoslav Materials Research Society, YUCOMAT VI: Current Research in Advanced Materials and Processes
CountrySerbia
CityHerceg Novi
Period04-09-1304-09-17

Fingerprint

rapid solidification
Rapid solidification
Solidification
computerized simulation
solidification
Computer simulation
Temperature distribution
Substrates
Undercooling
temperature distribution
image furnaces
Numerical models
Furnaces
Heat transfer
supercooling
Water
arcs
heat transfer
water

All Science Journal Classification (ASJC) codes

  • Materials Science(all)
  • Condensed Matter Physics
  • Mechanics of Materials
  • Mechanical Engineering

Cite this

Nikolić, Z. S., Yoshimura, M., & Araki, S. (2005). 2-D computer simulation of rapid solidification. In Current Research in Advanced Materials and Processes, YUCOMAT VI - Proceedings of the 6th Conference of the Yugoslav Materials Research Society (pp. 381-386). (Materials Science Forum; Vol. 494). https://doi.org/10.4028/0-87849-971-7.381
Nikolić, Z. S. ; Yoshimura, M. ; Araki, Sh. / 2-D computer simulation of rapid solidification. Current Research in Advanced Materials and Processes, YUCOMAT VI - Proceedings of the 6th Conference of the Yugoslav Materials Research Society. 2005. pp. 381-386 (Materials Science Forum).
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Nikolić, ZS, Yoshimura, M & Araki, S 2005, 2-D computer simulation of rapid solidification. in Current Research in Advanced Materials and Processes, YUCOMAT VI - Proceedings of the 6th Conference of the Yugoslav Materials Research Society. Materials Science Forum, vol. 494, pp. 381-386, 6th Conference of the Yugoslav Materials Research Society, YUCOMAT VI: Current Research in Advanced Materials and Processes, Herceg Novi, Serbia, 04-09-13. https://doi.org/10.4028/0-87849-971-7.381

2-D computer simulation of rapid solidification. / Nikolić, Z. S.; Yoshimura, M.; Araki, Sh.

Current Research in Advanced Materials and Processes, YUCOMAT VI - Proceedings of the 6th Conference of the Yugoslav Materials Research Society. 2005. p. 381-386 (Materials Science Forum; Vol. 494).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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AB - Two-dimensional numerical model is adopted to analyze the heat transfer process during solidification of the sample melted in an Arc-image furnace. Numerical solution of this complex problem enabled us to calculate the temperature distribution in both sample and substrate, including the phase change phenomena. Also, the effects of process parameters on the solidification of the sample melted on substrate that is cooled by water can be investigated numerically. The parameters include sample size, contact area size between the sample and the substrate, and degree of undercooling associated with rapid phase change and moving interface. The results obtained reveal that these parameters have strong effect on temperature distribution during solidification.

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Nikolić ZS, Yoshimura M, Araki S. 2-D computer simulation of rapid solidification. In Current Research in Advanced Materials and Processes, YUCOMAT VI - Proceedings of the 6th Conference of the Yugoslav Materials Research Society. 2005. p. 381-386. (Materials Science Forum). https://doi.org/10.4028/0-87849-971-7.381