composite modeling with fibersim -...
TRANSCRIPT
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Innovation Intelligence
Composite Modeling with FiberSim
April 10 2012
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Composites Overview within HyperWorks
HyperMesh Modern Ply Based
Composites Pre-Processing
Visualizations Visually Verify the Math Model
OptiStruct/RADIOSS Composites
Design Optimization & Analysis
HyperView Composites
Post-Processing & Failure Analysis
HyperLaminate Solver Classical Lamination Theory
Realizations Export Ply Based Models to
Solver Zone Based Models
HyperWorks Partners Detailed Compoiste Material
Modeling & Structural Modeling
CAD & Mfg Interoperability
Geometry
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Process of FiberSim- Hypermesh interoperability
Read CAD part ,surface from Catia , UG etc ,geometry etc. Import CAD model
Geometry clean up on imported CAD model
Mesh the part ,check element quality etc. Create mesh
Extract composite data - Ply, stacking , material info , system definition
Drape data , triangulation data (ply shapes ) etc as table in HM .
Import Equivalent Fibersim model
Realize geometric shapes to FE ply shapes - Two methods , simple , advanced
Extract elements for each Ply.
Do result Map, result interpolation
Correct the drape angles
Geometric ply shape realization
Contains additional FE required for design/analysis but not required for manufacturing/documentation Template properties
Defines the stacking sequence direction and the reference material orientation Stack & Material
orientation
Visually verify math model via 3D visualizations (Ply shapes/orientation/thickness, Stacking sequence) Review & Modify
Conversion of ply to zone based modeling
Laminate realization.
Ply based model realization
Export to any supported solver Export & Solve
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
Step 1: CAD geometry import
Basic CAD model geometry for the part is imported
HM support all the major CAD systems and Neutral formats
CATIA V5, V4
UG-Nx
PTC
Parasolid
IGEs
STEP
At this stage, we import the geometry data only
Ply or Composite data is not imported
Use Optistruct Use profile in Hypermesh
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
Import CAD geometry
Do not us this composite data
toggle for Fibersim
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
STEP 2: Mesh the CAD Geometry
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
STEP 3: Import FiberSim Composite Data ( HDF5 file *.h5)
Use File/ Import /Geometry
Select FiberSim file filter
Import the HDF5 file *.h5
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
FimberSim Model import.
This process will import and
populate HM data base with
Laminate data ( ply book ply
stacking data,
Composite Material data
Each ply data (triangular elements
spanning a single ply)
Master Rosette ( coordinate system
for the model ) for stacking direction
If the Ply is woven / fabrics HM
create additional plies for each
direction (P003_1 , P003_2) two
plies
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
Imported FiberSim Data----Laminate Table.
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
SETP3 Correction of Element Normals
Based on the Stacking direction ( Rosette Z direction), element
normal's are changed to match the Z direction
Use tools/Normal panel in HM to reverse the normal/ or correct the
flipped few elements Red color is in the positive normal direction
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
STEP4 Realize FibersSIm Geometry plies in FE
Plies .. (PLY-> Realize)
This step converts the FiberSim Ply entities to Finite element Mesh
created in HM.
This process takes each FiberSim Ply date and finds the FE elements which are
bounded by the ply boundaries and transfer the ply directions, draping data, ply
orientation into FE elements. Geometry plies are converted to FE plies.
HM uses two mapping approaches..
Simple mapping Based on proximity checks of the FE elements to ply.
Advance Mapping Use correct interpolation to fine the FE element for a ply and transfer
the data.
Right Mouse click on the Ply entity on the Browser to activate the realize
dialog box
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FiberSIM HM integration
Ply realization ( converting geom representation to Fe representation) .
Derive ply boundary from triangulations mesh data.
Project the ply boundary /region on the actual mesh in HM .
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What is draping data ?
Corrections to thickness and fiber direction of every element within a
Ply.
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Mapping Fibersim Draping data to HM.
N1 N2
N3 N4
Material Direction
Theta on element
Ply Fiber Direction
Final fiber Direction from Fibersim
Vector provided by
Fibersim on every
element.
Corrected Theta for OS
interface as Drape card
Element Material/local axis
From N1-N2
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Results of realization Transfer FiberSim composite data to
FE based data in HM STEP4 results
Create FE plies from the mesh model
Elements inside a ply boundary is grouped into individual FE plies
Draping table is created
Each ply FE element will contain the Drape data
The change in ply thickness due to draping ( scale factor)
Change in fiber angle due to draping
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STEP 4 -- results
Ply sets are created.. Set containing FE elements for each plies
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STEP 5: Verification of FE plies, thickness and orientation in
HM
First step is to create Ply property PCOMPP
HM support ply based model as default ( not Zone based model)
Assign this property to all the FE elements
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
STEP5 -- Ply Visualization
Set the display to By Property
Set the Visualization mode to
Hide/ show each ply from the
Browser
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STEP 5 Ply angle Visualization on FE model
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
STEP5 --- Ply thickness visualization -3D representation
Turn on 3D representation Mode
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Copyright 2012 Altair Engineering, Inc. Proprietary and Confidential. All rights reserved.
STEP 6: Exporting into Solver Specific Zone models..
Altair solvers Optistruct / Radioss supports Ply based models
Nastran ( 11.0.130)/ Abaqus (11.0.140 only) and other solvers support
Zone Based models
The following step Laminate Realize shall convert Ply based model to
Zone base model
This will create PCOMPG for Nastran
Or *SHELLSECTION_COMPOSITE cards for Abaqus.(11.0.140)