modeling layered composites the simple way
TRANSCRIPT
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© 2011 ANSYS, Inc. All rights reserved. 1 ANSYS, Inc. Proprietary © 2011 ANSYS, Inc. All rights reserved. 1 ANSYS, Inc. Proprietary
Modeling
Layered
Composites
the Simple Way
Mark Swenson Lead Application Engineer ANSYS Mpls
Presented at the 2012 Confidence by Design Workshop Minneapolis, MN May 8, 2012
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© 2011 ANSYS, Inc. All rights reserved. 2 ANSYS, Inc. Proprietary
Agenda
Composites Overview ANSYS Solutions for Layered Composites Demonstration Q&A
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© 2011 ANSYS, Inc. All rights reserved. 3 ANSYS, Inc. Proprietary © 2011 ANSYS, Inc. All rights reserved. 3 ANSYS, Inc. Proprietary
“Modeling Layered Composites
the Simple Way“
Composites
Overview
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Composites offer
tremendous
weight savings,
increased
performance, and
design flexibility
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© 2011 ANSYS, Inc. All rights reserved. 5 ANSYS, Inc. Proprietary
The composites
market is a
relatively young,
fast growing and
technologically
evolving market
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Designing parts
with these
materials can be
challenging
without
appropriate tools
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ANSYS develops
tools to
thoroughly
investigate
composites
designs up to
advanced failure
analysis, with
unparalleled ease
of use.
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© 2011 ANSYS, Inc. All rights reserved. 8 ANSYS, Inc. Proprietary © 2011 ANSYS, Inc. All rights reserved. 8 ANSYS, Inc. Proprietary
“Modeling Layered Composites
the Simple Way“
ANSYS Solutions
for Layered
Composites
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• Minimize development, warranty & liability costs
• Innovative & higher-quality products
• Dramatic time-to-market improvement
Simulation Driven Product Development:
Developing & Delivering
Simulation Solutions
Paper taken from ERA Report 99-0808 ‘Safety on Offshore Installations - Conference Proceedings, 30 November - 1 December 1999, ISBN 0-7008-0700-4, available from ERA Technology Ltd, Cleeve Road, Leatherhead, Surrey,
KT21 7SA, UK. Details of the full proceedings are available at shop.era.co.uk
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Modeling Layered Composites
Efficiently
• Layered composites simulation requires: • Orthotropic material stiffness terms (E’s, G’s, nu’s) • Lamina (ply) thickness • Fiber Orientation – draping • Understanding of stacking sequence implications • Orthotropic strengths • Understanding of numerous potential modes of failure and the various
failure theories
What makes composites analysis challenging?
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Modeling Layered Composites
Efficiently
Solid-Shell
Layered Solid
Shell
Discrete/Smeared Reinforcement
ANSYS is not new to modeling composites: • Layered shell and solid elements for more than 2 decades
• Multi-material beams, with support for multiple layers and multiple section integrations
• Temp-Dep ortho material props with structural temps at each layer
• Composite PrepPost adds ease of use and results evaluation
• Integration into Workbench allows for rapid design studies
• VCCT and CZM, to characterize delamination and debonding for 7 years.
• Recent addition of progressive damage to characterize post first ply failure
Where does ANSYS stand with composite capabilities?
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Cohesive zone modeling to
simulate debonding or crack growth
Cohesive Zone Model – Exponential CZM Law
Debonding of a composite beam
The bilinear traction-separation law is used for contact elements
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VCCT is available to
compute fracture
mechanics parameters
Mat. 1
Mat. 2
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VCCT-Based Crack Growth
Simulation
VCCT Examples
Results from published paper
ANSYS R14
End Notched Flexure (ENF) Specimen
Reference: Progressive crack growth analysis using interface element based on the virtual crack closure technique by De Xiea and Sherrill B. Biggers Jr. Finite Elements in Analysis and Design 42 (2006) 977 – 984
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Progressive Damage Analysis available at 14.0
Start of damage (layer 1)
Progressed damage (layer 1)
Progressed damage (layer 3)
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Modeling Layered Composites
Efficiently
• Highlight several focus area for this discussion: • Allow for geometric design changes to model • Make changes to layup, ply locations, and orientations • Incorporate fluid/thermal loading directly from CFD • Incorporate loading from external data or other simulations • Solve structural simulations all off the same unified model
– Static (linear & non-linear) – Buckling (linear & non-linear) – Transient Dynamic – Linear Dynamics – Explicit (Bird Strike, Drop Test, Crash and Impact, etc.)
• Ease of post-processing of composite results
What do we mean by Modeling Layered Composites Efficiently?
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Modeling Layered Composites
Efficiently
• Let’s start with the workflow in ANSYS Workbench for incorporating composites in a typical design:
How can recent advances in ANSYS facilitate composite simulations ?
Materials, Layups & Mesh B/Cs and Simulations
Composite Post-Processing Model/Cleanup
Design Studies
• Composite PrepPost integrated into Workbench workflow • Upstream changes in design propagate through to the results • In this example we might look at sensitivity of geometry size, shape or layups to deformation, natural frequencies, and failure margin
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Modeling Layered Composites
Efficiently
Composites PrepPost is used to define the layup. Here we see the part thickness, cross-sections, and fiber orientations
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Layup Material Data Fabrics/Stackups
Oriented Element Sets
Layup Area
Layup Direction
Reference Direction
Modeling Layered Composites
Efficiently Defining the layup with PrepPost
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Modeling Layered Composites
Efficiently
Make changes to layup, ply locations, orientations Here we change the width of the doubler shown in red
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Modeling Layered Composites
Efficiently
Make parametric changes to ply dimensions
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Modeling Layered Composites
Efficiently
Fiber orientation prediction and modification
• Use internal draping calculations
• Interface with Vistagy’s FiberSim
• Modify the fiber orientation to something that is actually observed on the manufacturing floor.
• For this we use multiple rosettes (local coordinate systems) specifying the angle to match the measured at known locations, and let PrepPost interpolate in between.
Green – parallel to rosette, Blue– draped prediction
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Modeling Layered Composites
Efficiently
Asymmetric laminate definitions
• Multiple overlapping oriented-element sets used to define asymmetric layups
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Modeling Layered Composites
Efficiently
Incorporate fluid/thermal loading directly from CFD (1-way and 2-way FSI)
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Modeling Layered Composites
Efficiently
Incorporate, transform, and validate loading from other simulations
Data Mapping •Pressure •Temperature •Heat Transfer •Thickness •Displacements
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Modeling Layered Composites
Efficiently
Solve structural simulations all off the same unified model Pressure loading, modal, and non-linear buckling example
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Modeling Layered Composites
Efficiently
Solve structural simulations all off the same unified model Pressure loading, modal, and tip load non-linear buckling
•Change spar chord location, wing taper, rib position, add stiffener plies to skin •Geometry, mesh, orientations, draping, properties, and results all updated
IRF - Distributed Pressure 2nd Natural Freq = 174 Hz IRF – 4” Tip Displacement
IRF - Distributed Pressure 2nd Natural Freq = 241 Hz IRF – 4” Tip Displacement
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Modeling Layered Composites
Efficiently
Perform what-if studies Here we look at how the tip deflection and 2nd natural frequency change with the 1st rib spanwise location.
Create response surfaces for optimization
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Modeling Layered Composites
Efficiently
Ease of post-processing of composite results
Results Interrogation •Worst case failure criteria over all layers shows •Hm (1) – Hashin matrix – Layer 1 •Pick element and see stress/strain and failure through the thickness
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Modeling Layered Composites
Efficiently
Explicit dynamic model uses same composite setup
•Bird-Strike, Drop Test, Crash and Impact, etc. •Simple setup for Eulerian mesh
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Modeling Layered Composites
Efficiently
Radome Case Study
Connections
Deformations from FSI
Failure Criteria
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Modeling Layered Composites
Efficiently
Radome Case Study – Bird Strike
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Summary
• Composites simulations with ANSYS
• Setup model one time, make changes to examine what if
• Look at sensitivities of design changes
• Investigate damage tolerance to flaws
• Investigate post first ply failure
• Simple “Drag-and-Drop” Multiphysics
• Easily incorporate thermal, fluids, and pressures
• Additional capability to import 3rd party data
• Improve design fidelity by optimization
• One single framework – ANSYS Workbench