Examples of Model Validation for Foundry Processes Virtual Prototyping

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Periodical:

Materials Science Forum (Volumes 455-456)

Edited by:

Rodrigo Martins, Elvira Fortunator, Isabel Ferreira, Carlos Dias

Pages:

681-684

Citation:

Z. Ignaszak, "Examples of Model Validation for Foundry Processes Virtual Prototyping", Materials Science Forum, Vols. 455-456, pp. 681-684, 2004

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May 2004

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[2] Z. Ignaszak: La conductivité thermique substitutive du moule. Une nouvelle méthode de mesure pour la simulation de la solidification des pièces, Fonderie � Fondeur d'Aujourd'hui, 1993, 121, janvier.

[3] N. Hueber, Z. Ignaszak: Water effects and thermal behavior of a sand, thermal properties identification by optimization tools, Proceedings of VIII Conference Modelling of Casting, Welding and Advanced Solidification Processes, San Diego (USA) (1998).

[4] Z. Ignaszak: Thermophysical parameters of insulating materials applied to design of casting feeding and to simulation of its solidification. (in polish). Solidification of Metals and Alloys, 1999, Vol. 1, Book No. 40, p.125–131.

[5] Z. Ignaszak: Simulation model sensivity to quality of material properties. Solidification of Metals and Alloys, 1999, vol. 1, Book no 40, p.25–36.

[6] Sten Farre: Private communication during Symposium „Computer Aided Design (Virtual Prototyping) in the Foundry using NovaFlow&Solid system. Poznan; 2. 04. (2003).

[7] Z. Ignaszak: Virtual Prototyping in the Foundry. Data bases and validation. (in polish). Edition of Poznan University of technology. Poznan 2002. p.294.

[8] Z. Ignaszak: Thermophysical parameters of materials needed to computer simulation systems in the foundry. Studies, validation, optimisation. Non published work sponsored by KBN : grant no T08B 041 19 (Polish National Research Committee). Poznan 2002. TEMPERATURE, 0–1600 °C 2000 4000 6000 8000 2000 4000 6000 8000 TIME, 0–10000 sec TEMPERATURE, 0–1300 °C TIME, 0–10000.