- 1.1. About These Tutorials
- 1.1.1. Preparing Your Screen
- 1.1.2. Formats and Conventions Used
- 1.1.3. Jobnames and Preferences
- 1.1.4. Choosing a Tutorial
- 1.2. Glossary
- 1.2.1. ANSYS ED Program
- 1.2.2. ANSYS Features Demonstrated
- 1.2.3. Analysis Options
- 1.2.4. Analysis Type
- 1.2.5. Applicable ANSYS Products
- 1.2.6. Applicable Help Available
- 1.2.7. Boolean Operations
- 1.2.8. Direct Element Generation
- 1.2.9. Discipline
- 1.2.10. Element Options
- 1.2.11. Element Types Used
- 1.2.12. Gaussian Distribution
- 1.2.13. Higher-Order Elements
- 1.2.14. Interactive Time Required
- 1.2.15. Jobname
- 1.2.16. Latin Hypercube Sampling
- 1.2.17. Level of Difficulty
- 1.2.18. Lognormal Distribution
- 1.2.19. Material Properties
- 1.2.20. Monte Carlo
- 1.2.21. Plane Stress
- 1.2.22. Postprocessing
- 1.2.23. Preferences
- 1.2.24. Preprocessing
- 1.2.25. Primitives
- 1.2.26. Probabilistic Analysis File
- 1.2.27. Probabilistic Design
- 1.2.28. Probabilistic Simulation
- 1.2.29. Random Input Variables
- 1.2.30. Random Output Parameters
- 1.2.31. Real Constants
- 1.2.32. Solution
- 1.2.33. Standard Deviation
- 1.2.34. Uniform Distribution
- 1.2.35. Working Plane (WP)
- 2.1. Static Analysis of a Corner Bracket
- 2.1.1. Problem Specification
- 2.1.2. Problem Description
- 2.1.3. Build Geometry
- 2.1.4. Define Materials
- 2.1.5. Generate Mesh
- 2.1.6. Apply Loads
- 2.1.7. Obtain Solution
- 2.1.8. Review Results
- 3.1. Solidification of a Casting
- 3.1.1. Problem Specification
- 3.1.2. Problem Description
- 3.1.3. Prepare for a Thermal Analysis
- 3.1.4. Input Geometry
- 3.1.5. Define Materials
- 3.1.6. Generate Mesh
- 3.1.7. Apply Loads
- 3.1.8. Obtain Solution
- 3.1.9. Review Results
- 4.1. Magnetic Analysis of a Solenoid Actuator
- 4.1.1. Problem Specification
- 4.1.2. Problem Description
- 4.1.3. Input Geometry
- 4.1.4. Define Materials
- 4.1.5. Generate Mesh
- 4.1.6. Apply Loads
- 4.1.7. Obtain Solution
- 4.1.8. Review Results
- 5.1. Laminar and Turbulent Flow Analyses in a 2-D Duct
- 5.1.1. Problem Specification
- 5.1.2. Problem Description
- 5.1.3. Preprocessing (Laminar Analysis)
- 5.1.4. Solution (Laminar Analysis)
- 5.1.5. Postprocessing (Laminar Analysis)
- 5.1.6. Solution (Laminar Analysis with Change in Inlet Velocity)
- 5.1.7. Postprocessing (Laminar Analysis Using New Inlet Velocity)
- 5.1.8. Preprocessing (Laminar Analysis with Increase in Duct Length)
- 5.1.9. Solution (Laminar Analysis Using New Duct Length)
- 5.1.10. Postprocessing (Laminar Analysis Using New Duct Length)
- 5.1.11. Solution (Turbulent Analysis)
- 5.1.12. Postprocessing (Turbulent Analysis)
- 6.1. Multiphysics Analysis of a Thermal Actuator
- 6.1.1. Problem Specification
- 6.1.2. Problem Description
- 6.1.3. Import Geometry
- 6.1.4. Define Materials
- 6.1.5. Generate Mesh
- 6.1.6. Apply Loads
- 6.1.7. Obtain Solution
- 6.1.8. Review Results
- 7.1. Drop Test of a Container (Explicit Dynamics)
- 7.1.1. Problem Specification
- 7.1.2. Problem Description
- 7.1.3. Define Analysis Type
- 7.1.4. Input Geometry
- 7.1.5. Define Element Type, Real Constants, Material Model Properties
- 7.1.6. Generate Mesh
- 7.1.7. Apply Loads
- 7.1.8. Obtain Solution
- 7.1.9. Review Results
- 8.1. Interference Fit and Pin Pull-Out Contact Analysis
- 8.1.1. Problem Specification
- 8.1.2. Problem Description
- 8.1.3. Input Geometry
- 8.1.4. Define Material Property and Element Type
- 8.1.5. Generate Mesh
- 8.1.6. Specify Solution Criteria
- 8.1.7. Load Step 1
- 8.1.8. Load Step 2
- 8.1.9. Postprocessing
- 9.1. Modal Analysis of a Model Airplane Wing
- 9.1.1. Problem Specification
- 9.1.2. Problem Description
- 9.1.3. Input Geometry
- 9.1.4. Define Materials
- 9.1.5. Generate Mesh
- 9.1.6. Apply Loads
- 9.1.7. Obtain Solution
- 9.1.8. Review Results
- 10.1. Probabilistic Design of a Simple Plate with a Single Force Load
- 10.1.1. Problem Specification
- 10.1.2. Problem Description
- 10.1.3. Specify Analysis File
- 10.1.4. Define Input and Output
- 10.1.5. Obtain Solution
- 10.1.6. Perform Postprocessing
- 10.1.7. Generate Report
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