Linear Dynamics with Abaqus

Course objectives:

In this course you will learn how to:

• Extract eigenmodes about a certain frequency
• Maximize the convergence rate during eigenvalue extraction
• Determine whether the number of extracted eigenmodes is sufficient to represent the structure’s response adequately
• Perform transient, steady-state, response spectrum and random response analyses using the eigenmodes
• Use multiple base motions
• Apply damping in linear problems

The workshops reinforce the fundamental concepts presented in the lectures.

About:

• Lesson 1:Introduction to Linear Dynamics in Abaqus
• Lesson 2: Modal-Based Solutions
• Lesson 3: Extracting Real Eigenvalues
• Workshop 1: Eigenvalue Natural Frequency Extraction
• Lesson 4: Damping
• Lesson 5: Base Motion Excitation
• Lesson 6: Modal Transient Dynamics
• Workshop: 2 Modal Transient Dynamics of a Layered Beam
• Lesson 7: Response Spectrum Analysis
• Workshop 3: Response Spectrum Analyses of a Layered Beam and Stowage Rack
• Lesson 8: Steady-State Dynamics
• Workshop 4: Steady-State Dynamics of a Mounted Circuit Board
• Lesson 9: Complex Eigenvalue Analysis
• Lesson 10: Introduction to Random Response
• Workshop 5: Random Response Analysis of a Mounted Circuit Board
• Appendix 1: Introduction to Nonlinear Dynamics
• Appendix 2: Nonlinear Dynamics: Abaqus Usage
• Appendix 3: Nonlinear Dynamics Examples

Course dates available:

• 9.11.2022 – 10.11.2022  – location: Ljubljana with the possibility of online participation
• 16.11.2022 – 17.11.2022 – location: Ljubljana with the possibility of online participation