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SILABUS DE ANSYS MECHANICAL APPLICATION INTRODUCTORY TRAINING COURSE R14.0 Día 1– 8:00 – 9:00 Lecture – Introduction
A. About ANSYS, Inc.B. ANSYS EKMC. ANSYS Customer PortalD. ANSYS Workbench OverviewE. Mechanical OverviewF. Starting MechanicalG. The Workbench EnvironmentH. Workbench File ManagementI. Working with UnitsJ. License Preference
9:00 – 10:00 Lecture – Chapter 2: Mechanical Basics
A. Basic Analysis ProcedureB. The Mechanical InterfaceC. MenusD. ToolbarsE. Graphics Control and SelectionF. Outline Tree and DetailsG. Graphics WindowH. The Mechanical Application WizardI. Scoping Loads and SupportsJ. The Engineering Data Application
10:00 – 10:20 Workshop 2.1 – ANSYS Mechanical Basics
10:45 – 11:15 Lecture – Chapter 3: General PreprocessingA. Geometry BranchB. ContactC. Remote Boundary Conditions
11:15 – 12:00 Workshop 3.1 – Contact Control– 2D Gear and Rack Analysis
12:00 – 12:30 Lecture – Chapter 3, continuedA. Coordinate SystemsB. Named SelectionsC. Selection Information
12:30 – 13:00 Workshop 3.2 – Contact Control
13:00 – 13:45 Lecture – Chapter 4: Meshing in MechanicalA. Global Meshing ControlsB. Local Meshing ControlsC. Meshing TroubleshootingD. Virtual Topology
13:45 – 14:15 Workshop 4.1 – Meshing Control
13 de Mayo Día 2 - 8:00 – 9:30 Lecture – Chapter 5: Static Structural Analysis (beginning)A. Basics of Static Structural AnalysisB. GeometryC. Material PropertiesD. ContactE. Analysis Settings F. LoadsG. SupportsH. Nodal Loads and SupportsI. Solving the ModelJ. Workshop 5.1 – Linear Structural AnalysisK. Results and Postprocessing
09:30 – 10:00 Workshop 5.2 – Using Beam Connections 2D Structural Analysis
10:00 – 10:30 Lecture – Chapter 6: Vibration AnalysisA. Basics of Free Vibration B. Geometry C. Contact D. Solution Setup E. Modal Results F. Vibration With Prestress
10:30 – 11:00 Workshop 6.1 – Free Vibration Analysis
11:00 – 12:15 Lecture – Chapter 7: Thermal AnalysisA. Basics of Steady State Heat Transfer
B. Geometry C. Material Properties D. Thermal Contact E. Thermal Boundary Conditions F. Solution Options G. Results and Postprocessing
12:15 – 14:00 Workshop 7.1 – Steady State Thermal Analysis
Día 3- 8:00 – 09:15 Lecture – Chapter 8: Results and PostprocessingA. Viewing Results B. Scoping Results C. Exporting Results D. Coordinates Systems E. Error Estimation F. Convergence G. Stress Singularities H. Convergence and Scoping
27 de Mayo
03 de Junio
9:15 – 9:45 Workshop 8.1 – Results and Postprocessing
9:45 – 10:15 Lecture – Chapter 9: CAD & ParametersA. CAD Import B. Defining Parameters in Workbench C. Using the Parameter Workspace D. Updating CAD Parameters
10:15 – 11:00 Workshop 9.1 – Parameter Management
11:00 – 11:20 Lecture – Appendix A: Linear Buckling Analysis
11:20 11:40 Workshop 7.2 – Linear Buckling Analysis
11:40 – 12:40 Brainstorm - Appendix B: Optional User Workshop
12:40 – 13:10 Lecture1 – Introduction
13:10 – 13:40 Lecture 2 – Advanced Named SelectionsA. Named Selection Basics B. Direct Named Selections C. Criteria Named Selections D. Named Selection Summary
13:40 – 14:00 Workshop 2 – Advanced Named Selections
Día 4 - 8:00 – 8:30 Lecture 3 – Remote Boundary ConditionsA. Definitions B. Remote Points C. Behavior Controls D. Pinball Control E. Remote Point Sharing F. Display Options
8:30 – 8:50 Workshop 3 – Remote Boundary Conditions
8:50 – 09:30 Lecture 4 – Joints, Beams and SpringsA. The Joint Feature B. Joint Definitions C. Joint Coordinate Systems D. Joint Configuration E. Modifying Joint Coordinate Systems F. Joint Stops and Locks G. Springs and Beams
09:30 – 10:00 Workshop 4 – Using Joints
10:00 – 10:20 Lecture 5 – Virtual TopologyA. Virtual Topology B. Defining Virtual Topology C. Virtual Split Entities D. Virtual Hard Vertices E. Editing Virtual Topology F. Meshing Implications
17 de Junio
10:20 – 10:45 Lecture 6 – Rigid BodiesA. Rigid Body Motives B. Boundary Conditions C. Rigid Bodies and Contact D. Rigid Body Example E. Postprocessing
10:45 – 11:00 Lecture 7 – Constraint EquationsA. Constraint Equations B. Constraint Equation Worksheet C. Example
11:00 – 11:20 Workshop 7 – Constraint Equations
11:35 – 12:00 Lecture 8 – Multistep AnalysisA. Multistep Analysis B. Multistep Setup C. Multistep Controls D. Multistep LoadsE. Multistep Postprocessing F. Solutions Combinations G. Solution Combination Setup H. Using Solution Combinations
12:00 – 12:20 Workshop 8 – Multistep Analysis
12:20 – 13:00 Lecture 9 – Contact and Mesh ConnectionsA. Contact Review B. Contact Utilities C. Automatic Contact Detection D. Contact Symmetry E. Contact Control F. The Contact Pinball G. Spot Welds H. Contact Results I. Mesh Connections
13:00 – 14:00 Workshop 9 – Contact Offset Control