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3D Multiphysics finite element model of a highly nonlinear glass forming process

 
: Janya-anurak, Chettapong; Birkhofer, Hannes; Bernard, Thomas

:
Volltext urn:nbn:de:0011-n-2722277 (382 KByte PDF)
MD5 Fingerprint: ee0dbad158da949ec65a0b1813e7bdbd
Erstellt am: 19.12.2013


National Agency for Finite Element Methods and Standards -NAFEMS-, East Kilbride:
A world of engineering simulation. 14th NAFEMS world congress, NWC 2013 : 1st International Conference on Simulation Process & Data Management, SPDM; Salzburg, 9 - 12 June 2013
Knutsford: NAFEMS, 2013
10 S.
National Agency for Finite Element Methods and Standards (NAFEMS World Congress) <14, 2013, Salzburg>
International Conference on Simulation Process & Data Management (SPDM) <1, 2013, Salzburg>
Englisch
Konferenzbeitrag, Elektronische Publikation
Fraunhofer IOSB ()
nonlinear finite element model; multiphysics; free surface flow; glass forming process

Abstract
This paper addresses the modelling of a complex glass forming process as an example of a complex, nonlinear distributed parameter system. The system is modelled by a fluid dynamics approach, which means that the forming is regarded as a fluid with free surfaces. Here, the coupling of the forming process with the heat flow is considered. The influence of crucial model parameters (e.g., dynamic viscosity) to the shape of the glass tube and the dynamic behaviour is investigated by means of simulation results. In detail, with the 3D model of the glass forming process the impact of asymmetries of furnace properties to the produced glass tubes have been investigated.

: http://publica.fraunhofer.de/dokumente/N-272227.html