Partitioned solution strategies for electro-thermo-mechanical problems applied to the field-assisted sintering technology
Erscheinungsdatum: 06.07.2016
Reihe: 18
Band Nummer: 345
Autor: M. Sc. Dipl.-Ing. (FH) Patrick Erbts
Ort: Hamburg
ISBN: 978-3-18-334518-2
ISSN: 0178-9457
Erscheinungsjahr: 2016
Anzahl Seiten: 216
Anzahl Abbildungen: 69
Anzahl Tabellen: 29
Produktart: Buch (paperback, DINA5)
Produktbeschreibung
Dedicated to engineers and scientists in the field of coupled problems and computational mechanics, this thesis addresses partitioned solution strategies for electro-thermo-mechanically coupled problems applied to the field-assisted sintering technology (FAST). By simultaneously applying uniaxial pressure and an electric current to generate high heating rates, the FAST process offers short production cycles for sintering materials. To approach the process conditions at high temperatures in a realistic and holistic way radiative heat transfer is numerically treated as an additional field. Finally, a fully coupled four-field problem is composed where for the electric, thermal and mechanical fields the finite element method is applied while solving the radiation field using computational fluid dynamic (CFD) solvers. The numerical results are compared to experiments. Moreover, an in-depth study of coupling algorithms is carried out to improve the convergence of the partitioned solution procedure.
Keywords: Field-assisted sintering technology, Multi-field simulation, Partitioned coupling algorithm, Electro-thermo-mechanical modeling, Radiative heat transfer, Numerical thermal radiation, Convergence acceleration, Fluid-structure interaction, Coupled problems, Field-assisted sintering technology, Multi-field simulation, Partitioned coupling algorithm, Electro-thermo-mechanical modeling, Radiative heat transfer, Numerical thermal radiation, Convergence acceleration, Fluid-structure interaction, Coupled problems
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