Title : Multiphysics Analysis of Composite Impact



Project Lead : Moatamedi Moji From : Narvik University College (None)

Dates : from -- to 2014-01-22 15:11:30

Description :

Motivation and objectives :
Collaboration between Salford and Narvik Simulation and Visualisation

Teams :
High North Technology Centre, Norway Mission Statement To address and resolve the technical issues relevant to high north environment by delivering experimental capabilities and modeling techniques which can reliably represent applied sciences and industrial engineering applications. The High North is one of Norways most important strategic priority areas. The Norwegian Governments overall objective is to create sustainable growth and development in the area through more extensive international cooperation on the use of natural resources, environmental management and research. In line with this strategy, High North Technology Centre is established to address the technological aspects of the above determined objective.

Dates :
starting date : 09 July, 2012
ending date : 20 July, 2012

Facilities descriptions :
http://visionair-browser.g-scop.grenoble-inp.fr/visionair/Browser/Catalogs/THINKLAB.UK.html

Recordings & Results :
All problems arising from natural phenomena are in three dimensions of space and one dimension of time or at least our senses perceive information in these dimensions. It happens often in Multiphysics simulations that results are visualized in two dimensions for easier interpretation. This sometimes results in concealing vital information which may be the key to explain the physical phenomenon Therefore; its been realized that it is essential to develop visualization technique to completely understand the Multiphysics simulation in three dimensions.

Conclusions :
Three dimensional visualisation platform of the multiphysics problem of composite impact. Improvement of the scientific knowledge of multiphysics simulation in 3D.




Project Images :

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VISIONAIR / Grenoble INP / 46 avenue Felix Viallet / F-38 031 Grenoble cedex 1 / FRANCE
Project funded by the European Commission under grant agreement 262044