Autodesk_algor_simulation_course_agenda Training Algor Simulation
2016-06-08
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Autodesk® Algor® Simulation – Course Agenda
© Copyright 2009 Autodesk, Inc. All rights reserved. Page 1 of 4
Autodesk® Algor® Simulation – Course Agenda
!Introduction
oCourse Overview
oOverview of Services and Support
!System Requirements
!Installing and Running Algor
!Algor User’s Guide
!My Account Area
!Tutorials
!Webcasts
!Web Courses
!Updates
!How to Receive Technical Support
oBackground of FEA
!What is Finite Element Analysis?
!Basic FEA Concepts
!How Does FEMPRO Work?
!The General Flow of an Analysis in FEMPRO
oStress and Strain Review
!Equations Used in the Solution
!Limits of Static Stress with Linear Material Models
!Mechanical Event Simulation (MES) Overcomes Limitations
!Hand-Calculated Example
oHeat Transfer Review
!Equations Used in the Solution
oLinear Dynamics Review
!Example Using FEMPRO (Linear Static Stress Analysis)
!Working with CAD Solid Models and Static Stress
oArchiving a Model
oTypes of Brick Elements
oGenerating Meshes for CAD Models
oTips for Modeling with CAD Solid Model Software for FEA
oLoading Options
!Load Cases
oConstraint Options
!Modeling Symmetry and Antisymmetry
oDesign Scenarios
oFEA Object Groups
oLocal Coordinate Systems
Autodesk® Algor® Simulation – Course Agenda
© Copyright 2009 Autodesk, Inc. All rights reserved. Page 2 of 4
oDefining Materials and Using the Material Library Manager
!Adding Material Libraries and Material Properties
oExamples of Loads and Constraints
!When to Use Displacement Boundary Elements
!Using Local Coordinate Systems
!Using Surface Variable Loads
oIndividual Exercise: Full to Quarter-Symmetry Model Comparison
!Results Evaluation and Presentation
oBackground on How Results are Calculated
oHow to Evaluate Results
!Displacement Results
!Stress Results
!Reaction Force Results
!Inquiring on the Results at a Node
!Graphing the Results
oPresentation Options
!Contour Plots
!Image File Creation
!Animating FEA Results
!Using the Configure Report Utility
oIndividual Exercise: Evaluation of Results and Generation of a Report
!Midplane Meshing and Plate Elements
oMeshing Options
oElement Options
!Plate Theory and Assumptions
oLoading Options
!Example of Defining the Element Normal Point
oResult Options
oIndividual Exercise: Midplane Meshing and Plate Element Orientation
!Meshing
oRefinement Options
!Automatic Refinement Points
!Global Refinement Options
oCreating Joints
oCreating Bolts
oMesh Convergence Testing
!Performing a Mesh Study
oIndividual Exercise
!Introduction to Contact
oUses for Contact
Autodesk® Algor® Simulation – Course Agenda
© Copyright 2009 Autodesk, Inc. All rights reserved. Page 3 of 4
oContact Options
!Setting up Contact Pairs
!Types of Contact
!Friction
!Surface Contact Direction
oContact Examples: How to Model Shrink Fits
oResult Options
oIndividual Exercise: Linear Contact
!Introduction to Linear Dynamics
oModal Analysis
oLumped Masses
oLoad Stiffening
oGroup Example: Natural Frequency (Modal) Analysis
oCritical Buckling Analysis
oResult Options
oOther Linear Dynamics Analyses (Self-Study)
oIndividual Exercise: Modal and Critical Buckling Analysis
!Steady-State Heat Transfer
oGroup Example
oMeshing Options
!Thermal Contact
oElement Options
!Rod Elements
!2-D Elements
!Plate Elements
!Brick and Tetrahedral Elements
oLoading Options
!Body-to-Body Radiation
!Controlling Nonlinear Iterations
oResult Options
oIndividual Exercise
!Transient Heat Transfer
oWhen to Use Transient Heat Transfer
oElement Options
oLoading Options
!Load Curves
!Controlling Nodal and Surface Applied Temperatures
oResult Options
oIndividual Exercise
!Thermal Stress
Autodesk® Algor® Simulation – Course Agenda
© Copyright 2009 Autodesk, Inc. All rights reserved. Page 4 of 4
oPerforming a Thermal Stress Analysis
oIndividual Exercise
!Self Study: Linear Dynamics Supplement
oOverview and Example of a Response Spectrum Analysis
oSelf-Study Exercise: Response Spectrum Analysis
oOverview and Example of Random Vibration Analysis
oSelf-Study Exercise: Random Vibration Analysis
oFrequency Response
oSelf-Study Exercise: Frequency Response
oTransient Stress (Modal Superposition) Analysis
oTransient Stress (Direct Integration)
oSelf-Study Exercise: Transient Stress (Direct Integration)
!Appendices
oFinite Element Method Using Hand Calculations
oAnalysis Types in FEMPRO
oLinear Loads and Constraints
oMaterial Model Options
