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PTC CREO SIMULATE ROADMAP
Jose Coronado Product Manager
March 2016
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1. PTC Creo Simulate positioning
2. PTC Creo Simulate 4.0 Enhancements
• Simulation-driven lattice feature for Additive Mfg.
• Pre-processing
• Mesh/Feature/Geometry
• Post-Processing
3. Creo Simulate 5.0 +
4. Remarks
PTC CREO SIMULATE ROADMAP
Forward looking information subject to change without notice © 2016 PTC
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1 PTC CREO SIMULATE POSITIONING
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PTC CREO SIMULATE ROADMAP THE LANDSCAPE (SCOPE) OF SIMULATION
Examples of automotive simulations (partial list)
Model Complexity
Mo
de
l S
ize
Crash – Explicit
Dynamics
CFD
Explicit
Transient
Dynamics
Coupled physics
Eulerian-Lagrangian
Full system linear dynamics
Designer
Forward looking information subject to change without notice © 2016 PTC
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2 PTC CREO SIMULATE 4.0 ENHANCEMENTS
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Definition:
• A process of joining materials to make physical objects from 3D CAD model, usually layer upon layer, as opposed to subtractive manufacturing or molding/casting technologies.
PTC CREO SIMULATE ROADMAP WHAT IS ADDITIVE MANUFACTURING/3D PRINTING?
The 3rd Industrial Revolution
Forward looking information subject to change without notice © 2016 PTC
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• Create light weight designs without compromising stress and displacement requirements
– Integrated design-analysis process cycle
• Simulate using additive manufacturing material properties
• Simplify assemblies – Part consolidation, more functions in each part
• Design to have self-supporting geometries – Or minimize supports
• Apply conformal channels/pipes/routing
• …
• Biomimetics
PTC CREO SIMULATE ROADMAP SIMULATION-DRIVEN LATTICE FEATURE FOR ADDITIVE MANUFACTURING
Designing for Additive Manufacturing
“Beast” (2010), Museum of Science, Boston. Neri Oxman
Forward looking information subject to change without notice © 2016 PTC
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PTC CREO SIMULATE ROADMAP SIMULATION-DRIVEN LATTICE FEATURE FOR ADDITIVE MANUFACTURING
2 ½ D and 3D Lattices
Create light weight designs for additive manufacturing
• Single feature in Creo Parametric
• Parametric control over all aspects of the lattice structure
• Full b-rep geometry
• Additive manufacturing enabler
Forward looking information subject to change without notice © 2016 PTC
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Lattices optimization
Integrated design-analysis process cycle
• Integrated into Creo Simulate – Full b-rep Geometry
– Idealized elements for faster analysis
– Analysis results
• Wait there’s more….
• Optimization
PTC CREO SIMULATE ROADMAP SIMULATION-DRIVEN LATTICE FEATURE FOR ADDITIVE MANUFACTURING
• Original Design – Material: Titanium
– Tensile Yield Stress: 139.96 MPa
– Tensile Ultimate Stress: 219.94 MPa
– Mass: 6.09 kg
• Simulation Results – Max Stress (Von Mises): 36.23 MPa
– Max Displacement: 0.044 mm
• Initial Design – Mass: 6.02 kg
• Optimized Design – Mass: 3.28 kg
• Reduction – 46.21%
Forward looking information subject to change without notice © 2016 PTC
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• Filtering diagnostic option to show only relevant analysis information
• Revised diagnostic details
• Dynamic analysis status showing the elapsed time and activity
• Expanding panel to show the analysis run status and convergence plot
PTC CREO SIMULATE ROADMAP PRE-PROCESSING
Overhaul the Analysis and Design Study Experience
Improved productivity with a modern look and feel
Forward looking information subject to change without notice © 2016 PTC
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• Indications of changes/issues
• Single access-point to quickly identify common model
issues
• Support both Simulate objects and features
PTC CREO SIMULATE ROADMAP PRE-PROCESSING
Notification support for Creo Simulate
Easier way to identify, locate and fix design issues
Forward looking information subject to change without notice © 2016 PTC
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• Over 50 standard materials within the standard install
• Easy assignment of materials through a new Material
node
• Material Dialog update to show a dynamic properties
panel
PTC CREO SIMULATE ROADMAP PRE-PROCESSING
Material Enhancements
Access to standard materials within PTC Creo
Forward looking information subject to change without notice © 2016 PTC
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• Auto-detect to detect contacts within a component
• New collector for contact auto-detect when in assembly
• Control contact properties from Model Setup
PTC CREO SIMULATE ROADMAP PRE-PROCESSING
Contact Interface Improvements
Reduces the need to manually create multiple contacts
Forward looking information subject to change without notice © 2016 PTC
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• Access to additional commands via RMB
• Create new analysis via RMB on the Analyses node
• Updated icons representing the status of a given
analysis
PTC CREO SIMULATE ROADMAP PRE-PROCESSING
Analysis Node in Model Tree Enhancements
Reduce menu and picks to create, run or review an analysis
Forward looking information subject to change without notice © 2016 PTC
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• Relocate tolerance details when in Creo Simulate to avoid
overlapping with Simulate Csys
– Located tolerance to the left of the Csys while in
Creo Simulate
– Move tolerance back to the right corner when in
Creo Parametric
PTC CREO SIMULATE ROADMAP PRE-PROCESSING
Current Display
Updated Display
Graphic Display Improvements
Improved graphic display when tolerances are enabled
Forward looking information subject to change without notice © 2016 PTC
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• Access to frequently performed actions
(Loads/Constraints)
• When selecting geometry, hovering over or RMB on
geometry (Surfaces/Edges)
• Customize the Toolbar to your needs
PTC CREO SIMULATE ROADMAP PRE-PROCESSING
Loads
Constraints
Mini-Toolbar support
Easily apply and edit entities without needing to pick from the ribbon
Forward looking information subject to change without notice © 2016 PTC
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• Auto-detect and create thin solid mesh control options
• Enable mapped mesh control option on solid surfaces in
FEM mode
PTC CREO SIMULATE ROADMAP MESH/FEATURE/GEOMETRY
Mesh Robustness Improvements
Reduce the need to manual fix the poor import geometry
Forward looking information subject to change without notice © 2016 PTC
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PTC CREO SIMULATE ROADMAP MESH/FEATURE/GEOMETRY
Data Simplification Improvements
Explore additional design scenarios easily based on found results
• Access to Flexible Modeling tools within Creo Simulate
– Requires an active license of FMX
– As a Simulation Feature in the model tree
– Promote FM features to PMA
• New Remove feature to help simplify the analysis model
– Does not require a license of FMX
Forward looking information subject to change without notice © 2016 PTC
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PTC CREO SIMULATE ROADMAP MESH/FEATURE/GEOMETRY
Weld Connection Improvements
Automated process for creating solid welds
• Enable auto-detection of weld features in the model
• Support solid welds in Creo Simulate
– Analyze the new weld feature as solid geometry
versus surfaces
– Support the following types of solid welds: Fillet
Welds, Plug/Slot Welds, Butt Welds, Spot Welds.
Forward looking information subject to change without notice © 2016 PTC
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PTC CREO SIMULATE ROADMAP POST-PROCESSING
Data Exchange Improvements
Improve the ability to store and archive results in Windchill
• Standardized File menu and actions consistent with PMA
• Improved process for saving results to Windchill
– Publish Creo View file as secondary content for
results (*.mrs) and HTML report (*.mrp)
– Ability to vault information to the workspace unlinked
from the stored model directly from Simulate Results
• Improve exchange of information with Creo View
Forward looking information subject to change without notice © 2016 PTC
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• Synchronize and lock the orientation of a series of
results windows to the active window
PTC CREO SIMULATE ROADMAP POST-PROCESSING
Synchronize Orientation Control
Improved results display
Forward looking information subject to change without notice © 2016 PTC
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