Abstract
In this paper, the general concepts of multiphysical and multidisciplinary simulations are described. Concurrently, the neutral interface software tool set MpCCI is presented, which has been developed at Fraunhofer SCAI.
The main tool MpCCI CouplingEnvironment offers the possibility to simulate the bi-directional interaction between different physical phenomena or disciplines. It builds a neutral interface where specialized simulation tools from different vendors can be coupled at run-time. The capabilities of the tool are illustrated for typical application domains, starting from fluid-structure interactions, through vehicle dynamics modeling, automotive thermal management and up to electrical engineering.
The software MpCCI FSIMapper is a file-based tool, which allows to transfer data from a fluid dynamics or electromagnetic simulation result to a structural simulation. The mapped data serve as initial or boundary condition or as loading and thus lead to more realistic structural simulations.
The third tool MpCCI Mapper enables to consider the whole manufacturing history of a component in a final proof simulation. Local material properties induced by metal forming and their influence to a crash load case or the local fiber orientation in composites in consequence of draping and molding are presented amongst others.
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References
C. Brodbeck, P. Bayrasy, in Co-Simulationsmethoden für das thermische Management von Gesamtfahrzeugen bei Betrachtung dynamischer Fahrzyklen, VDI-Berichte 2279 (VDI-Verlag, Düsseldorf, 2016), pp. 31–43
J. Christl, S. Kunz, P. Bayrasy, I. Kalmykov, J. Kleinert, FEA-MBS-coupling-approach for vehicle dynamics, in Proceedings of 2nd European Conference on Coupled MBS-FE Applications (NAFEMS, Turin, 2015), pp. 29–32
G. Eichmüller, M. Meywerk, Stochastische simulation - versuchsabgleich der deformation eines vierkantrohres. NAFEMS Mag. 27, 75–87 (2013)
Fraunhofer Institute for Algorithms and Scientific Computing SCAI, MpCCI 4.4.1 Documentation, Part V User Manual (Fraunhofer Institute for Algorithms and Scientific Computing SCAI, Sankt Augustin, 2015)
Fraunhofer Institute for Algorithms and Scientific Computing SCAI, Automotive Thermal Management (2016), https://www.scai.fraunhofer.de/en/business-research-areas/multiphysics/application-areas/automotive-thermal-management.html
Fraunhofer Institute for Algorithms and Scientific Computing SCAI, Manufacturing processes and passive safety (2016), https://www.scai.fraunhofer.de/en/business-research-areas/multiphysics/application-areas/manufacturing-process-chains.html
Fraunhofer Institute for Algorithms and Scientific Computing SCAI, MpCCI - Electrical Components (2016), http://www.mpcci.de/en/application-areas/electrical-components.html
Fraunhofer Institute for Algorithms and Scientific Computing SCAI, MpCCI - Flexible Structures in Aerodynamics and Machinery Design (2016), http://www.mpcci.de/en/application-areas/flexible-structures-in-aerodynamics-and-machinery-design.html
Fraunhofer Institute for Algorithms and Scientific Computing SCAI, MpCCI - Manufacturing Processes and Passive Safety (2016), http://www.mpcci.de/en/application-areas/manufacturing-process-chains.html
Fraunhofer Institute for Algorithms and Scientific Computing SCAI, Mpcci couplingenvironment (2016), http://www.mpcci.de/en/mpcci-software/mpcci-couplingenvironment.html
Fraunhofer Institute for Algorithms and Scientific Computing SCAI, Turbomachinery applications (2016), https://www.scai.fraunhofer.de/en/business-research-areas/multiphysics/application-areas/turbomachinery-applications.html
M. Hunkel, UmCra - Werkstoffmodelle und Kennwertermittlung für die industrielle Anwendung der Umform- und Crash-Simulation unter Berücksichtigung der mechanischen und thermischen Vorgeschichte bei hochfesten Stählen (AiF379ZN). FAT-Schriftenreihe 273, 1–123 (2015)
L. Kärger, A. Bernath, F. Fritz, et al., Development and validation of a CAE chain for unidirectional fibre reinforced composite components, Compos. Struct. 132, 350–358 (2015)
P. Khapane, U. Ganeshwade, J. Senapathy, et al., Deep water wading simulation of automotive vehicles, in Proceedings of NAFEMS World Congress (NAFEMS, San Diego, 2015)
B. Landvogt, Coupled fluid-structure-interaction simulations for aero-elastic benchmark cases, in Proceedings NAFEMS European Conference on Multiphysics Simulation, Manchester, UK (2014)
B. Landvogt, L. Osiecki, T. Zawitowski, B. Zylinski, Numerical simulation of fluid-structure interaction in the design process for a new hydraulic axial pump, in ANSYS Automotive Simulation World Congress (2012)
F. Mendonca, Approaches to industrial FSI - an overview with case studies, in Proceedings of the 7th MpCCI User Forum (2006)
M. Meyer, A. Oeckerath, Simulation of local material characteristics at Faurecia. ATZ worldw. eMag. 113, 42–45 (2011)
L. Osiecki, P. Patrosz, B. Landvogt, et al., Simulation of fluid structure interaction in a novel design of high pressure axial piston hydraulic pump. Arch. Mech. Eng. 60, 509–529 (2013)
C. Pfeiffer, D. Assmann, R. Canti, et al., Gewichtseinsparungen im Automobil-Werkzeugbau durch Topologieoptimierung, in Tagungsband Deutsche Simulia-Konferenz, Bamberg (2011)
C. Rümpler, Low-voltage circuit breaker arc interruption – a multi-physics modeling challenge, in Proceedings NAFEMS European Conference on Multiphysics Simulation, Manchester, UK (2014)
M. Salari, P. Bayrasy, K. Wolf, Thermal analyis of a three-phase transformer with coupled simulation, in Proceedings of NAFEMS UK Conference, Oxford (2014)
C. Steinbeck-Behrens, T. Menke, J. Steinbeck, et al., Gemeinsamer FuE-Abschlussbericht des Verbundprojektes “Durchgängige Virtualisierung der Entwicklung und Produktion von Fahrzeugen (VIPROF)” (2011)
N. Wirth, Development of a micro-gas-turbine with ceramic impeller: SCAI tools for stress and vibration analyses, in Proceedings NAFEMS European Conference on Multiphysics Simulation, Manchester, UK (2014)
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Wolf, K., Bayrasy, P., Brodbeck, C., Kalmykov, I., Oeckerath, A., Wirth, N. (2017). MpCCI: Neutral Interfaces for Multiphysics Simulations. In: Griebel, M., Schüller, A., Schweitzer, M. (eds) Scientific Computing and Algorithms in Industrial Simulations. Springer, Cham. https://doi.org/10.1007/978-3-319-62458-7_7
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