Inventor training course allows the candidates to practice
3D design, validation, and documentation processes using a computer aided
software, Inventor, from Autodesk. On developing the basic skills, the course
focuses on enhanced productivity in creating assemblies and designing part
models. The participants also learn the techniques to streamline the design and
documentation process. Sheet metal design concepts along with stress analysis
simulation are also introduced in Inventor training classes.
AUTO
CAD INVENTOR training in India - All the knowledge and skill
imparted prepares the candidate to appear for the Autodesk Inventor Associate
Certification and the Autodesk Inventor Professional Certification. The
associate level certification is prerequisite for the professional level
certification.
Inventor training curriculum is composed of the following
six sections:
Autodesk Inventor Essential
Autodesk Inventor Advanced
Autodesk Inventor – Sheet Metal
Autodesk Inventor- Simulation
Autodesk Inventor Associate Preparation
Autodesk Inventor Professional Preparation
1.
Getting Started
· Understanding the User
Interface
· Designing Parametric Parts
· Using Project Files for
Part Design
2.
Sketching, Constraining & Dimensioning
· Creating 2D Sketches
· Constraining the Sketches
· Adding Dimensioning to
Sketches
3.
Creating and Editing Placed Features
· Creating and Editing
Sketched Features
· Intermediate Sketching
· Editing Parametric Parts
· Creating Work Features
· Creating Basic Swept
Shapes
· Creating Chamfers and
Fillets
· Creating Holes and Threads
· Patterning and Mirroring
Features
· Creating Thin-Walled Parts
4.
Creating and Editing Drawing Views
· Drawing Creation
Environment
· Creating Styles
· Setting Drawing Standards
· Drawing Sheet Preparation
· Creating Title Blocks and
Borders
· Base and Projected Views
· Section Views
· Detail Views
· Managing Views
5.
Creating and Documenting Assemblies
· Designing Assemblies
· Using Project Files for
Assembly Design
· Placing Existing
Components in an Assembly
· Constraining Components
· Placing Standard
Components Using the Content Center
· Basic Part Design in an
Assembly
· Identifying Parts in an
Assembly
· Analysis and Motion Tools
· Presenting Your Assembly
· Bill of Materials
· Creating and Customizing
Parts Lists
· Creating Balloons
6.
Dimensions, Annotations, and Tables
· Automated Dimensioning
Techniques
· Manual Dimensioning Techniques
· Annotating Holes and
Threads
· Creating Centerlines,
Symbols, and Leaders
· Creating Tables
Autodesk Inventor Advanced
1.
Getting Started
· Design Philosophies
· Sketching, Modeling,
Modification, Display Tips
2.
Multi-Body Tools
· Multi-body Part Modeling
3.
Advanced Work Features
·
User
Coordinate System
·
Grounded
Work Points
4.
Lofts & Loft Options
· Area Lofts
· Advanced Sweeps
· Coils
· Analyzing a Model
· Analysis Types, Analysis
Procedures
5.
Introduction to Surfacing
· Basic Surfaces
· Patch Surfaces
· Stitch Surfaces
· Sculpting with Surfaces
· Thickening and Offsetting
a Surface
· Extend and Trim Surface
· Replace Face
· Delete Face
· Copy Surface
· Importing Surfaces
· Repairing Imported
Surfaces
6.
Custom Sketches
· Create Sketch Symbols
· Place Sketched Symbols
· AutoCAD Blocks in Inventor
7.
Engineers Notebook
· Notes
8.
Effective Assembly Tools
· General Assembly Tips
· Constraint Tips
· Motion Constraints
· Transitional Constraints
9.
Introduction to Top-Down Design
· Top-Down Design
· Top-Down Design Technique
· Additional Top-Down Design
Tools
10.
Derived Components
· Derived Component
· Modifying Derived
Components
11.
Assembly Parts and Features
· Assembly Parts
· Assembly Features
12.
Associative Links and Adaptive Parts
· Associative Links
· Adaptive Assembly Parts
13.
Skeleton Models and Derived Components
· Working with Skeletons
14.
iFeatures & iParts
· Creating / Inserting /
Editing iFeatures
· Table-Driven iFeatures
· Creating / Inserting /
Editing iParts
· Table-Driven iParts
15.
Translation
· Import and Export Data
· Import Data Formats
· Importing Solids
16.
Drawing Tools
· Create Hole Tables
· Revision Tables and Tags
· Tables for Factory Members
· Surfaces in Drawing Views
17.
Design Accelerator
· Design Accelerator
· Generators
· Calculators
18.
Inventor Studio
· Introduction to Inventor
Studio
· Rendering
· Animation
· Creating a Standard Room
19.
iAssemblies
· Introduction
· Create Basic iAssemblies
· Create Multi-Level
iAssemblies
· Derived Components
· Modify Derived Components
20.
Applying Motion with Constraints
· Driving Constraints
· Motion Constraints
· Transitional Constraints
21.
Positional / Level of Detail Representations
· Introduction to Positional
representations
· Create and Edit Positional
representations
· Using a Positional
Representation
· Level of Detail Representations
· System-Defined Level of
Detail representations
· User-Defined Level of
Detail Representations
· Using Level of Detail
Representations
22.
Assembly Duplication Options
· Pattern Components
· Mirror Components
· Copy Components
23.
Assembly Bill of Materials
· Create Virtual Components
· Create Bill of Materials
· Frame Generator
· Frame Generator
· Structural Shape Author
Autodesk Inventor – Sheet Metal
1.
Understanding Sheet Metal Modeling
· Sheet Metal Concepts
· Sheet Metal Terminology
· Sheet Metal Environment
· Sheet Metal Design Process
· Working With Sheet Metal
Rules
· Sheet, Bend and Corner Tab
Options
· Bend Tables
2.
Creating Sheet Metal Features
· Applying Existing Sheet
Metal Defaults
· Creating a Face as a Base
Feature
· Creating a Contour Flange
as a Base Feature
· Creating a Contour Roll as
a Base Feature
· Sheet Metal Parameters
· Bend Relief Shapes
· Faces as Secondary
Features
· Contour Flanges as
Secondary Features
· Contour Rolls as Secondary
Features
3.
Working with Flanges and Rips
· Creating Flanges
· Corner Relief Options
· Lofted Flanges
· Rips
4.
Bending Sheet Metal
· Hems
· Folds
· Bend Features
5.
Sheet Metal Cuts
· Creating Cut Features
· Creating Straight Holes
· Using Punch Tool Features
· Cuts Using Surfaces
6.
Flat Pattern Environment
· Creating Flat Patterns
· Orienting Flat Patterns
· Punch Representations
· Bend Angle
· Flat Pattern Cleanup
· Exporting to DXF/DWG
7.
Documentation
· Documentation and
Annotation
· Sheet Metal Drawing
Terminology
· Creating Sheet Metal
Drawings
· Bend and Punch Notes
· Bend Tables
· Punch Tables
· Bend Order
· Cosmetic Centerlines
8.
Converting Parts to Sheet Metal
· Converting Solid Model to
Sheet Metal
· Non-Ruled Surfaces
9.
Corner Rounds, Chamfers and Seams
· Creating Corner Rounds
· Creating Corner Chamfers
· Creating Corner Seams and
Miters
· Creating Corner Rips
· Using Corner Seams and
Bends
Autodesk Inventor- Simulation
1.
Introduction to Engineering Analysis
· Stress Analysis Overview
2.
Stress Analysis
· Preparing and Running a
Simulation
· Viewing Results
· Analyzing Assemblies
· Performing a Parametric
Design Study
· Mesh Control and
Convergence
· Performing a Modal
Analysis
3.
Engineering Problems and Solution
· Solving Design Problems
Autodesk Inventor Associate Preparation
1.
User Interface
· Describe how to use the
heads up display (HUD) to create and edit features
· Identify how to use visual
styles to control the appearance of a model
2.
Project Files
· Describe the options for
controlling a project file
3.
Sketching
· Recall the function of
each sketch constraint
· Demonstrate how to create
dynamic input dimensions
4.
Part Modeling
· Create extrude features
· Create fillet features
· Create hole features
· Create a pattern of
features
· Describe how to use the
Project Geometry and Project Cut Edges commands
· Create revolve features
· Create a shell feature
· Create work features and a
UCS
5.
Drawing
· Explain how to edit a base
and
· projected views
· Describe how to create a
slice view in a drawing
· Demonstrate how to create
and edit dimensions in a drawing
· Describe how to edit a
hole table
· Describe how to modify a
parts list
· Demonstrate how to edit a
section view
6.
Assembly Modeling
· Describe the process of
finding the minimum distance between parts and components
· Describe the function of
the different assembly constraints
· Describe how to modify a
bill of materials
· Explain the method of
creating a frame using the frame generator command
· Identify uses for surfaces
in the modeling process
7.
Presentation Files
· Describe how to animate a
presentation file
8.
Advanced Modeling
· Describe the procress to
emboss text and a profile
· Create and constrain
sketch blocks
· Describe the process of
creating an iAssembly
· Describe the process to
create an iPart
9.
Sheet Metal
· Demonstrate how to create
and edit a sheet metal flat pattern
· Describe the different
types of sheet metal flanges that Inventor can create
· Demonstrate how to
annotate a sheet metal part in a drawing
Autodesk Inventor Professional Preparation
1.
Part Modeling
· Create extrude features
· Create hole features
2.
Drawing
· Demonstrate how to edit a
section view
· Create a slice view in a
drawing
· Demonstrate how to modify
a style in a drawing
3.
Assembly Modeling
· Apply assembly constraints
· Create a part in the
context of an assembly
· Create components using
the Design
· Accelerator commands
· Create and edit a frame
using the Frame
· Generator command
· Create a level of detail
· Create a positional
representation
4.
Advanced Modeling
· Create a 3D path using the
Intersection Curve and the Project to Surface commands
· Create a multi-body part
· Create a part using
surfaces
· Create an iPart
· Create a loft feature
· Create plastic part
features
· Create a sweep feature
5.
Sheet Metal
· Create flanges using the
Flange, Contour Flange, and Lofted Flange commands
6.
Weldments
· Create a weldment
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