Autodesk Inventor Practice Exam
Autodesk Inventor Practice Exam
About Autodesk Inventor Exam
The Autodesk Inventor Exam evaluates your proficiency in 3D mechanical design, simulation, visualization, and documentation using Autodesk Inventor. As a professional-grade CAD application for mechanical design, Inventor enables engineers and designers to produce accurate digital prototypes. This exam is ideal for professionals working in product design, engineering, and manufacturing industries who wish to validate their ability to create, modify, and manage parametric models and assemblies.
Who should take the Exam?
This exam is ideal for:
- Mechanical engineers and designers
- CAD professionals and draftsmen
- Product designers and developers
- Manufacturing and industrial engineers
- Students in mechanical or design engineering programs
Skills Required
- Basic understanding of mechanical design principles
- Familiarity with CAD tools
- Knowledge of 2D/3D modeling concepts
- Attention to detail and spatial visualization
Knowledge Gained
- 3D part modeling and assembly design
- Drawing creation and documentation
- Design automation using iLogic
- Sheet metal design and welding environments
- Stress analysis and design optimization
Course Outline
The Autodesk Inventor Exam covers the following topics -
Domain 1 – Introduction to Autodesk Inventor
- Overview of the interface and navigation
- Project setup and file management
- Template customization and units setup
Domain 2 – Part Modeling
- Sketching techniques and constraints
- Feature creation (extrude, revolve, sweep)
- Work planes, axes, and points
Domain 3 – Assembly Design
- Component insertion and constraints
- Assembly joints and motion
- Managing large assemblies
Domain 4 – Drawing and Documentation
- Creating detailed 2D drawings from models
- Dimensioning and annotation
- Bill of Materials (BOM) and parts lists
Domain 5 – Advanced Design Techniques
- Sheet metal tools and workflows
- Weldment design and annotations
- iLogic rules for design automation
Domain 6 – Simulation and Analysis
- Stress and modal analysis
- Design optimization and interference checking
- Simulation environments and report generation
