finite element analysis using abaqus
TRANSCRIPT
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Abaqus Basics
SimulationAbaqus/Standard
Output file:Job.odb, job.dat
PostprocessingAbaqus/CAE
PreprocessingAbaqus/CAE Interactive
Mode
Analysis Input file
Input file (text):Job.inp
FEM Solver
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Methods of Analysis in ABAQUS• Interactive mode
– Create an FE model and analysis using GUI– Advantage: Automatic discretization and no need to
remember commands– Disadvantage: No automatic procedures for changing model
or parameters
• Python script– All GUI user actions will be saved as Python script– Advantage: Users can repeat the same command procedure– Disadvantage: Need to learn Python script language
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Methods of Analysis in ABAQUS• Analysis input file
– ABAQUS solver reads an analysis input file– Possible to manually create an analysis input file – Advantage: Users can change model directly without GUI– Disadvantage: Users have to discretize model and learn
ABAQUS input file grammar
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Components in ABAQUS Model• Geometry modeling (define geometry)• Creating nodes and elements (discretization)• Element section properties (area, moment of inertia,
etc)• Material data (linear/nonlinear, elastic/plastic,
isotropic/orthotropic, etc)• Loads and boundary conditions (nodal force, pressure,
gravity, fixed displacement, joint, relation, etc)• Analysis type (linear/nonlinear, static/dynamic, etc)• Output requests
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FEM Modeling
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FEM Modeling
Pressure
• Which analysis type?• Which element type?
– Section properties– Material properties– Loads and boundary conditions– Output requests
Beam element
Solid element
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Line (Beam element)- Assign section properties (area,
moment of inertia) - Assign material properties
Volume (Solid element)- Assign section properties- Assign material properties
FEM Modeling
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FEM Modeling
Line (Beam element)- Apply distributed load “on the line”- Apply fixed BC “at the point”
Volume (Solid element)- Apply distribution load “on the
surface”- Apply fixed BC “on the surface”
fixed BC
fixed BC
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FEM Modeling
Line (Beam element)- Discretized geometry with beam
element- Discretized BC and load on nodes
Volume (Solid element)- Discretized geometry with solid
element- Discretized BC and load on nodes
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Start Abaqus/CAE• Startup window
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Example: Overhead Hoist
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Units
Quantity SI SI (mm) US Unit (ft) US Unit (inch)Length m mm ft in
Force N N lbf lbf
Mass kg tonne (103 kg) slug lbf s2/in
Time s s s s
Stress Pa (N/m2) MPa (N/mm2) lbf/ft2 psi (lbf/in2)
Energy J mJ (10–3 J) ft lbf in lbf
Density kg/m3 tonne/mm3 slug/ft3 lbf s2/in4
• Abaqus does not have built-in units• Users must use consistent units
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Create Part• Parts
– Create 2D Planar, Deformable, Wire, Approx size = 4.0– Provide complete constrains and dimensions– Merge duplicate points
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Geometry Constraint• Define exact geometry
– Add constraints
– Add dimension– Over constraint warning
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Geometry Modification• Modify geometry modeling
1. Go back to the sketch 2. Update geometry
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Define Material Properties• Materials
– Name: Steel– Mechanical
ElasticityElastic
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Define Section Properties• Calculate cross-sectional area using CLI (diameter =
5mm)• Sections
– Name: Circular_Section– Beam, Truss– Choose material (Steel)– Write area
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Define Section Properties• Assign the section to the part
– Section Assignments
– Select all wires– Assign Circular_Section
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Assembly and Analysis Step• Different parts can be assembled in a model• Single assembly per model• Assembly
– Instances: Choose the frame wireframe• Analysis Step
– Configuring analysis procedure• Steps
– Name: Apply Load– Type: Linear perturbation– Choose Static, Linear perturbation
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Assembly and Analysis Step• Examine Field Output Request (automatically
requested)• User can change the request
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Boundary Conditions• Boundary conditions: Displacements or rotations are
known• BCs
– Name: Fixed– Step: Initial– Category: Mechanical– Type: Displacement/Rotation– Choose lower-left point– Select U1 and U2
• Repeat for lower-right corner– Fix U2 only
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Applied Loads• Loads
– Name: Force– Step: Applied Load– Category: Mechanical– Type: Concentrated force
• Choose lower-center point• CF2 = -10000.0
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Meshing the Model• Parts
– Part-1, Mesh• Menu Mesh, Element Types (side menu )• Select all wireframes• Library: Standard• Order: Linear• Family: Truss• T2D2: 2-node linear
2-D truss
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Meshing the Model• Seed a mesh
– Control how to mesh (element size, etc)• Menu Seed, Part (side menu )
– Global size = 1.0• Menu Mesh, Part, Yes (side menu )• Menu View, Part Display Option
– Label on
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Mesh Modification• Menu Seed, Part (side menu )
– Change the seed size (Global size) 1.0 to 0.5– Delete the previous mesh
• Menu Mesh, Part, Yes (side menu )
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Creating an Analysis Job• Jobs• Jobs, Truss
– Data Check– Monitor– Continue (or, submit)
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Postprocessing• Change “Model” tab to “Results” tab• Menu File, Open Job.odb file• Common Plot Option (side menu ), click on the
Labels tab(Show element labels, Show node labels)
Set Font for All Model Labels…
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Postprocessing• Deformation scale• Common Plot Option (side menu ), click on the Basic
tab, Deformation Scale Factor area
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Postprocessing• Tools, XY Data, Manager
– Position: Integration Point– Stress components, S11 (Try
with displacements and reaction)
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Postprocessing– Click on the Elements/Nodes tab– Select Element/Nodes you want
to see result and save– Click Edit… to see the result
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Postprocessing• Report, Field Output
– Position: Integration Point– Stress components, S11 (Try
with displacements and reaction)
– Default report file name is “abaqus.rpt”
– The report file is generated in “C:\temp” folder
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Save• Save job.cae file• Menu, File, Save As…
- job.cae file is saved- job.jnl file is saved as well (user action history, python code)