Ansys Mechanical Topology Optimization
This course is designed to provide knowledge about the optimization workflow in Ansys Workbench. The complete end-to-end procedure is shown from the original CAD to the final calculation of the optimized shape.
Description
The course includes information about the optimization methods and the general theory. It shows the basic as well as the advanced definitions of optimization for static applications. The optimization in dynamics is also covered in this course.
A part of this course focuses on the geometry tools used in SpaceClaim to prepare and repair the STL files.
The materials include an application example that can be treated as a workshop/discussion time to review the general workflow for optimisation.
Agenda
Course Topics Include:
- Workflow Description
- Optimization Theory
- STL preparation in SpaceClaim
- Reconstruction of the optimized structure
- Basic response and manufacturing constraints
- Load cases consideration
- Response and manufacturing constraints in dynamics
Each course chapter is followed by “hands-on” workshops and exercises
Sessions
Session 1
- Module 01: Material along the load path
- Workshop 01.1: Michell Structure
- Workshop 01.2: STL Transfer
- Module 02: Basic Definition in Steady-State Applications
- Workshop 02.1: Basic Static
- Workshop 02.2: Load Cases
- Module 03: Design Validation
- Workshop 03.1: Design Validation Workflow
Session 2
- Module 04: Reverse Engineering (Optional)
- Workshop 04.1: Possibilities of Geometry Conversion
- Module 05: Example: Pitch arm of a helicopter rotor head
Session 3
- Module 06: Advanced definitions in static applications
- Module 07: Topology optimization in dynamics
- Workshop 07.1: Dynamics
Session 4
- Module 08: Topology optimization in applications for statics and dynamics
- Workshop 08.1: Deriving a Homogenized Model from a Lattice Optimization Result
Prerequisites
A technical education and a background in the fundamentals of finite element analysis are recommended.