Autodesk Simulation Torben Christensen Niels Riis Christensen NTI CADCenter A/S
Why Autodesk Simulation? A Comprehensive Portfolio of Solutions Mechanical Computational Fluid Dynamics Structural Plastics Composites
Why Autodesk Simulation? A Comprehensive Portfolio of Solutions Plastics CFD Composites Mechanical Structural
Autodesk Simulation What happens when temperature changes? When will it fail? Will my part fail? How will failure occur? What happens if I drop it? How do parts interact? Will it overheat? How strong does it need to be? Will it handle the fluid pressure? How light can I make it? Can I produce parts faster? Will it have defects?
Simulation early and often Changing your process effectively 1 2 Simulation 4 3 1 2 Ability to affect functional capabilities Cost of design changes 3 4 Traditional design process Preferred design process Conceptualization Design and engineering Testing Manufacturing Field Time
Simulation early and often Right tool, right time, right user
Simulation Investments in technology An investment in excess of half a billion dollars! 2005 2007 2008 2009 2011 2013 Nastran
Demo
Demo
Integration between CAD and CFD Autodesk Simulation is a generic CFD system, which works together with a wide variety of cad systems. In this small presentation I use Autodesk Inventor.
Integration between CAD and CFD The cad geometry is transferd to the CFD system
Automatic generated water volume
Materials
Materials
Materials
Materials
Materials
Boundary Conditions
Mesh
Solve
Solve
Result-Demo
Volume Flow
Transfer CFD reaction to FEA
Transfer CFD reaction to FEA
Boundary Conditions
Digital Prototyping Forum 2014 Differentiering via innovation Den 8. oktober 2014 i Horsens Den 9. oktober 2014 i Roskilde Tilmelding: