Core Functionality of Autodesk Inventor-Getting started
Course overview
()
Get the software
Tips for the exam
()
Core functionality of Autodesk Inventor resources
Core Functionality of Autodesk Inventor-Autodesk Certified Professional: Inventor for Mechanical Design Exam Prep pre-assessment
See where you stand
Core Functionality of Autodesk Inventor-About your classmates
About the discussion forum
More learning resources and online communities from Autodesk
Core Functionality of Autodesk Inventor-Configuration and Administration
Configure project files
()
Configure document settings
()
Improve application options
()
Create and modify styles in documents
()
Core Functionality of Autodesk Inventor-Standard Part Modeling
Describe the characteristics of models that fulfill design intent
()
Demonstrate the effective use of feature patterns on parts in assemblies
()
Identify advanced uses of work features
()
Identify scenarios in which to use Direct Edit
()
Create and modify complex sketches
()
Analyze the implications of adaptive parts
()
Core Functionality of Autodesk Inventor-Advanced Part Modeling
Create 3D sketches
()
Apply 3D features
()
Create and use multibody parts
()
Create and edit surfaces
()
Develop free-form models
()
Apply topology optimization principles
()
Core Functionality of Autodesk Inventor-Week 1: practice exercise 1
Practice exercise 1 instructions
Practice exercise 1 solution
()
Core Functionality of Autodesk Inventor-Week 1: practice exercise 2
Practice exercise 2 instructions
Practice exercise 2 solution
()
Core Functionality of Autodesk Inventor-Week 1: practice exercise 3
Practice exercise 3 instructions
Practice exercise 3 solution
()
Core Functionality of Autodesk Inventor-Untitled Lesson
Practice exercise 4 instructions
Practice exercise 4 solution
()
Core Functionality of Autodesk Inventor-Week 1: Challenge assignment
Week 1 challenge assignments
Specialized tools, assemblies, and documentation.-Getting started
Specialized tools, assemblies, and documentation resources
Specialized tools, assemblies, and documentation.-Sheet Metal
Use the Sheet Metal environment to create features
()
Specialized tools, assemblies, and documentation.-Assembly Modeling
Modify the Bill of Materials in the BOM Editor
()
Import, link, and export files or point clouds
()
Describe and use Shrinkwrap
()
Optimize component relationships in an assembly
()
Create and manage representations
()
Restructure components and views in the browser
()
Understand the key workflows for large assembly management
()
Specialized tools, assemblies, and documentation.-Weldments
Create models and deliverables in the Weldment environment
()
Specialized tools, assemblies, and documentation.-Deliverables
Use breakout and overlay views, and GD&T to create 2D documentation
()
Generate files and views for collaboration and digital fabrication
()
Specialized tools, assemblies, and documentation.-Design Automation Techniques
Simplify workflow by using iParts, iFeatures, iMates, and iAssemblies
()
Use Frame Generator to create and edit frames
()
Describe the benefits of using Design Accelerators to create bolted connections
()
Specialized tools, assemblies, and documentation.-Week 2: Practice exercise 1
Practice exercise 1 instructions
Practice exercise 1 solution
()
Specialized tools, assemblies, and documentation.-Week 2: Practice exercise 2
Practice exercise 2 instructions
Practice exercise 2 solution
()
Specialized tools, assemblies, and documentation.-Week 2: Practice exercise 3
Practice exercise 3 instructions
Practice exercise 3 solution
()
Specialized tools, assemblies, and documentation.-Untitled Lesson
Practice exercise 4 instructions
Practice exercise 4 solution
()
Specialized tools, assemblies, and documentation.-Week 2: Challenge assignment
Week 2 challenge assignments
Specialized tools, assemblies, and documentation.-Course assessment
Course final assessment