Autodesk Inventor® 2013
Sheet Metal Design

Master Inventor!

More than just sheet metal!

The Autodesk Inventor 2013: Sheet Metal Design course shows you the details about all the sheet metal commands. The key is to understand how k-factors and bend allowances are applied to sheet metal rules. In fact, this course comes with a K-Factor calculator.

Once you master these concepts you’ll be able to unfold any sheet metal part whether you’ve constructed it with sheet metal commands or standard 3D modeling commands. This also unlocks your ability to create multi-body sheet metal assemblies. Once you gain this skill level you will fully understand how sheet metal parts and assemblies work within Autodesk Inventor.

This course also shows you how to use the Frame Generator in the Weldment environment. You will weld a frame containing custom tubing you design yourself. The frame is design to fit sheet metal parts you design, and all the steps are shown to you in simple to understand steps. You’ll also learn a multitude of tips and tricks that will help you go beyond the commands.

72 Lessons (Listed Below)
8.2 Hours

The Autodesk Inventor 2013 courses above install on your computer and never expire. Purchase it one time and have the training for life.

You can also purchase a subscription to our Autodesk Inventor Online Training. This training can be accessed from your phone, tablet, or computer. It also expires when your subscription ends.  Subscriptions are not auto-renewed. We will send you a reminder when it’s about to expire.

Autodesk Inventor® 2013:
Sheet Metal Design
Download

Permanent license installs on your computer

Autodesk Inventor® 2013:
Sheet Metal Design
Download + USB

Permanent license installs on your computer

What to Buy

Download

Download plus USB

Autodesk Inventor®
Online Training

Watch lessons from your phone, tablet, or computer. Visit our Autodesk Inventor Online Training to learn more.

Inventor 2013: Sheet Metal Design

Introduction
The Sheet Metal Environment
Styles and Templates
K-Factors
Creating Bend Tables
The Flange Command
Bend Reliefs and Remnants
Bend and Sheet Metal Styles
Unfold Methods
Corner Seams
Corner Seam Reliefs
Bend Transitions and Flat Patterns
Custom Sheet Metal Templates
The Contour Flange Command
Looped Contour Flanges
Shells and Ripped Seams
Editing Flat Patterns
Using the Hem Command
Multiple Plates in Assemblies I
Multiple Plates in Assemblies II
Extended Surfaces
Using the Punch Tool
Custom Punches
Flat Pattern Punch Representations
Custom Extruded Louver Punch
Dangling Geometry in Punches
Custom Extruded Dimple Punch I
Custom Extruded Dimple Punch II
Custom Revolved Dimple Punch
Sheet Metal Commands and Punches
Surfaces
G2 Fillets
Tabs
Double Bends and Bend Allowances
Applying Bend Allowances
Knockouts
Flat Patterns on Drawings
Custom Sweep Punches
Complex Shapes

Sheet Metal Cone
Contour Roll Unrolling Unfolding
Press Break Lofted Flanges
Square to Round Transitions
Adding Flanges to Lofted Flanges
Editing with Unfold and Refold
Lofted and Rolled Part Strategies
Formed Punches and Features
Custom Structural Shapes I
Custom Structural Shapes II
Removing External Dependencies
Publishing Multiple Shapes
Frame Skeletons
Generating Custom Shape Frames I
Generating Custom Shape Frames II
Generating Custom Shape Frames III
Generating Custom Shape Frames IV
Trimming Members
Model Frame Skeletons
More Frame Generator Concepts
Editing Frames
Preparations and Welds
Fillet and Post Weld Operations
Multi-Body Sheet Metal Modeling
Features on Multi-Body Sheets
Multi-Body Sheet Metal Bends
More Multi-Body Practice
Multi-Body Sheet Metal Assembly
Modifying Multi-Body Components
Finalizing the Design
Convert to Sheet Metal Parts
Sheet Metal Drawings
Conclusion