DURATION – COST – SKILL LEVEL
SELF-PACED AUTODESK INVENTOR TRAINING
Self-paced AUTODESK INVENTOR training is available whenever and wherever you need it. The duration of the AUTODESK INVENTOR training varies for each student. Some students complete the training in a few weeks, while others take a few months.
This AUTODESK INVENTOR class is available for you to access for one year from the date of your registration.
A COMPLETE AUTODESK INVENTOR SELF-PACED TRAINING CLASS – INCLUDES LECTURES, DEMONSTRATIONS, HANDS ON ACTIVITIES AND ASSESSMENT QUESTIONS
THIS FORMAT DOES NOT REQUIRE THE STUDENT TO COMPLETE EACH CHAPTER IN A PRE-DESIGNATED ORDER. THIS ALLOWS THE STUDENT TO LEARN ANY TOPIC AS THEY NEED THE SKILLS
DOES NOT INCLUDE A TRAINING CENTER CERTIFICATE OF COMPLETION UPON SUCCESSFUL COMPLETION –
ATTEND YOUR AUTODESK INVENTOR TRAINING ANYTIME AND ANYWHERE WITH AN INTERNET CONNECTION
100% SATISFACTION GUARANTEED
AVAILABLE FOR ONE YEAR FROM CLASS REGISTRATION
SUPPORT AVAILABLE VIA E-MAIL
AFFORDABLE PRICING
A COMPLETE SELF-PACED TRAINING CLASS – INCLUDES LECTURES, DEMONSTRATIONS, HANDS ON ACTIVITIES AND ASSESSMENT QUESTIONS
THIS FORMAT REQUIRES THE STUDENT TO COMPLETE EACH CHAPTER IN A PRE-DESIGNATED ORDER.
SUCCESSFULLY COMPLETING A CHAPTER BY PASSING THE ASSESSMENT WITH A MINIMUM SCORE OF 80% ALLOWS THE STUDENT TO PROGRESS TO THE NEXT LEVEL
INCLUDES A TRAINING CENTER CERTIFICATE OF COMPLETION UPON SUCCESSFUL COMPLETION
ATTEND YOUR TRAINING ANYTIME AND ANYWHERE
100% SATISFACTION GUARANTEED
AVAILABLE FOR ONE YEAR FROM THE DATE OF REGISTRATION
SUPPORT AVAILABLE VIA E-MAIL
AFFORDABLE PRICING
DESCRIPTION – OBJECTIVES – PREREQUISITES
AUTODESK INVENTOR – TRAINING OUTLINE
- General
- Interoperability
New – Parts and Sketching
- Part Modeling Updates
- Sheet Metal
- Changes to Sketching
New – Freeform Environment Updates
- Freeform Modeling
- Assemblies and Presentations
- Assembly Enhancements
- Presentation Enhancements
Introduction to Autodesk Inventor
- Getting Started with Autodesk Inventor
- Working with Drawing Display Tools
- Important Terms and Definitions
Drawing Sketches for Solid Models
- Understanding the Sketching Environment
- Drawing Sketched Entities I
- Drawing Sketched Entities II
- Fillets, Chamfers, and Splines
Adding Constraints and Dimensions to Sketches
- Working with Geometric Constraints
- Working with Dimensional Constraints
- Measuring Sketched Entities
Editing, Extruding and Revolving the Sketches
- Editing Sketched Entities
- Creating Patterns, Adding Text and Images
- Extruding, Revolving, Primitives and Freeforms
- Rotating the View and Controlling the Display
Other Sketching and Modeling Options
- Creating Work Planes
- Creating Work Axes and Points
- Other Extrusion and Revolution Options
Advanced Modeling Tools – I
- Creating Holes
- Creating Fillets and Chamfers
- Moving the Faces and Editing Features
- Project Entities in the Sketching Environment
Advanced Modeling Tools – II
- Sweeps, Lofts, Coils and Threads
- Shells, Drafts and Splits
- Editing Surfaces
- Editing without Using Sketches
Assembly Modeling – I
- Understanding Assembly Modeling
- Assembling Components using the Constrain Tool
- Applying Joints to the Assembly
- Relationships, Moving and Rotating Components
Assembly Modeling – II
- Editing Assembly Constraints and Components
- Modifying Components in An Assembly
- Analyzing Assemblies and Creating Representations
Working with Drawing Views
- Drawing Standards
- Dimension Styles
- Annotating the Drawing
Presentations
- The Presentation Module
- Animating An Assembly
Working with Special Design Tools
- Adaptive Parts and Defining Parameters
- iParts
- 3D Sketches
Working with Sheet Metal Components
- Understanding Sheet Metal
- Additional Sheet Metal Options
- Introduction to Weldments
Understanding Weldments
- Editing Weldments
- Adding the Finishing Touches
Miscellaneous Tools
- Sketches
- iMates
- Title Blocks
Introduction to Stress Analysis
- Introduction to Analysis
- More on Analysis
- Starting an Analysis
- Applying Constraints and Loads
Introduction to Plastic Mold Design
- Starting with Plastic Mold Design
- Adjusting the Model
- Generating the Core and Cavity
- Runners, Wells, and Channels