AutoCAD Civil Draughtsman Bundle(EL-CD-CAD-ACAD)
Recommended Learning Duration: 32 Hrs
Overview: Through this AutoCAD Civil Draughtsman Bundle course, the user will be able to learn:
AutoCAD Civil 2D Drafting
AutoCAD Civil 3D Modelling
On completion of this course, user will be able to:
Understand the GUI of AutoCAD 2D and use various Draw and Modify tools to create different models
Work with AutoCAD 3D interface and use various 3D commands
Course Structure:
AutoCAD Civil 2D Drafting
Understand GUI of AutoCAD
Learn the use of various Draw and Modify commands
Add Annotations and Dimensions to drawing
Understand Blocks and Layers concept
Draw Foundation, Door and Stair models
Draw Plan, Section and Elevation of building plan
Import PDFs and images to AutoCAD file
Create and Import Title blocks
Learn Print and Plot settings
AutoCAD Civil 3D Modelling
Understand the GUI of AutoCAD 3D Modelling
Create 3D models of basic shapes and complex objects
Convert Solids, Meshes and Surfaces
Create a model of building
Apply Materials for various building components
Produce images using Camera command, Render images/views and create animated walk through video of a building
Create the Documentation
Pre-requisite: User should be a Civil Engineer/Architect. The recommended version for AutoCAD practice exercises is AutoCAD 2018 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 290 Mins
Downloadable Exercises: 8
Recommended Practice Hours: 22 Hrs
AutoCAD Civil Draughtsman Bundle(EL-CD-CAD-ACAD)

Overview: Through this AutoCAD Civil Draughtsman Bundle course, the user will be able to learn:AutoCAD Civil 2D DraftingAutoCAD Civil 3D ModellingOn completion of this course, user will be able to: Understand the GUI of AutoCAD 2D and use various Draw and Modify tools to create different modelsWork with AutoCAD 3D interface and use various 3D commands: 22 Hrs

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32 Hrs $150
Revit Architectural Designer Bundle(EL-AD-CAD-RVT)
Recommended Learning Duration: 56 Hrs
Overview: Through this Revit Architectural Designer Bundle course, the user will be able to learn:
AutoCAD Civil 2D Drafting
AutoCAD Civil 3D Modelling
Revit Architecture Essentials
On completion of this course, user will be able to:
Understand the GUI of AutoCAD 2D and use various Draw and Modify tools to create different models
Work with AutoCAD 3D interface and use various 3D commands
Understand the user interface of Revit Architecture and create 3D model of building plan, apply Materials, create Rendered images and add Annotations
Course Structure:
AutoCAD Civil 2D Drafting
Understand GUI of AutoCAD
Learn the use of various Draw and Modify commands
Add Annotations and Dimensions to drawing
Understand Blocks and Layers concept
Draw Foundation, Door and Stair models
Draw Plan, Section and Elevation of building plan
Import PDFs and images to AutoCAD file
Create and Import Title blocks
Learn Print and Plot settings
AutoCAD Civil 3D Modelling
Understand the GUI of AutoCAD 3D Modelling
Create 3D models of basic shapes and complex objects
Convert Solids, Meshes and Surfaces
Create a model of building
Apply Materials for various building components
Produce images using Camera command, Render images/views and create animated walk through video of a building
Create the Documentation
Revit Architecture Essentials
Understand the GUI and tools of Revit Architecture
Learn to create and modify primary components in building design
Create documentation
Pre-requisite: User should be an Architect/Civil Engineer. The recommended version for AutoCAD practice exercises is AutoCAD 2018 and above and Revit practice exercises is Revit 2019 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 410 Mins
Downloadable Exercises: 11
Recommended Practice Hours: 38 Hrs
Revit Architectural Designer Bundle(EL-AD-CAD-RVT)

Overview: Through this Revit Architectural Designer Bundle course, the user will be able to learn:AutoCAD Civil 2D DraftingAutoCAD Civil 3D ModellingRevit Architecture EssentialsOn completion of this course, user will be able to: Understand the GUI of AutoCAD 2D and use various Draw and Modify tools to create different modelsWork with AutoCAD 3D interface and use various 3D commandsUnderstand the user interface of Revit Architecture and create 3D model of building plan, apply Materials, create Rendered images and add Annotations: 38 Hrs

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56 Hrs $275
Revit Civil Engineer Bundle(EL-CE-CAD-RVT)
Recommended Learning Duration: 92 Hrs
Overview: Through this Revit Civil Engineer Bundle course, the user will be able to learn:
AutoCAD Civil 2D Drafting
AutoCAD Civil 3D Modelling
Revit Architecture Essentials
Revit Structure
Revit MEP Essentials
On completion of this course, user will be able to:
Understand the GUI of AutoCAD 2D and use various Draw and Modify tools to create different models
Work with AutoCAD 3D interface and use various 3D commands
Understand the user interface of Revit Architecture and create 3D model of building plan, apply Materials, create Rendered images and add Annotations
Setup Levels and Grids and place various structural elements, add Reinforcement, work with imported AutoCAD files and add Trusses
Work with Revit MEP interface and create HVAC systems, Electrical Power Systems, Water Piping System and Fire Protection System and create Documentation
Course Structure:
AutoCAD Civil 2D Drafting
Understand GUI of AutoCAD
Learn the use of various Draw and Modify commands
Add Annotations and Dimensions to drawing
Understand Blocks and Layers concept
Draw Foundation, Door and Stair models
Draw Plan, Section and Elevation of building plan
Import PDFs and images to AutoCAD file
Create and Import Title blocks
Learn Print and Plot settings
AutoCAD Civil 3D Modelling
Understand the GUI of AutoCAD 3D Modelling
Create 3D models of basic shapes and complex objects
Convert Solids, Meshes and Surfaces
Create a model of building
Apply Materials for various building components
Produce images using Camera command, Render images/views and create animated walk through video of a building
Create the Documentation
Revit Architecture Essentials
Understand the GUI and tools of Revit Architecture
Learn to create and modify primary components in building design
Create documentation
Revit Structure
Create Levels, Grids lines, Columns, Beams, Footings, Floor slabs and other structural elements
Add Reinforcement to Structural Elements
About Detailing and creating Schedules for models
Import AutoCAD files to Revit project files
Revit MEP Essentials
Understand the GUI of Revit MEP
Create Spaces and Zones
Learn to create HVAC Systems
Generate Heating and Cooling Load Calculation Report
Create Hydronic Piping System
Create Electrical Systems and Electrical Panel Schedules
Create Plumbing and Fire Protection System
Create Documentation
Pre-requisite: User should be a Civil Engineer. The recommended version for AutoCAD practice exercises is AutoCAD 2018 and above and Revit practice exercises is Revit 2019 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 580 Mins
Downloadable Exercises: 30
Recommended Practice Hours: 72 Hrs
Revit Civil Engineer Bundle(EL-CE-CAD-RVT)

Overview: Through this Revit Civil Engineer Bundle course, the user will be able to learn:AutoCAD Civil 2D DraftingAutoCAD Civil 3D ModellingRevit Architecture EssentialsRevit StructureRevit MEP EssentialsOn completion of this course, user will be able to: Understand the GUI of AutoCAD 2D and use various Draw and Modify tools to create different modelsWork with AutoCAD 3D interface and use various 3D commandsUnderstand the user interface of Revit Architecture and create 3D model of building plan, apply Materials, create Rendered images and add AnnotationsSetup Levels and Grids and place various structural elements, add Reinforcement, work with imported AutoCAD files and add TrussesWork with Revit MEP interface and create HVAC systems, Electrical Power Systems, Water Piping System and Fire Protection System and create Documentation: 72 Hrs

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92 Hrs $475
CATIA V5 Mechanical Design Engineer Bundle(EL-MDE-CAD-CV5)
Recommended Learning Duration: 70 Hrs
Overview: Through this Mechanical Design Engineer Bundle course, the user will be able to learn:
CATIA V5 Part Design
CATIA V5 Assembly Design
CATIA V5 Drafting
CATIA V5 Surface Design
CATIA V5 Sheet Metal Design
CATIA V5 Functional Tolerance and Annotations
Fundamentals of CATIA V5 Automation
On completion of this course, user will be able to:
Use different feature-based tools to build 3D model
Create and position product structure
Create part and product detailed drawing
Create wireframes and surfaces
Create Sheet Metal part using the standard features
Annotate 3D part and create 3D views
Understand VBA programming concepts
Course Structure:
CATIA V5 Part Design
Perform various options of Sketcher environment
GUI of Part Design workbench
Create and Constrain 2D sketches
Create Sketch Based Features like Pad, Pocket, Revolve and Hole
Apply Dress-Up Features like Edge Fillets, Chamfer, Draft and Shell
Perform Transformation Features like Mirror, Symmetry and Rectangular Pattern
Create advanced Sketch-Based Features
Create 3D models using Reference Elements
Create Parameters and Formulas in 3D model
Review and edit features
Apply Boolean Operations
CATIA V5 Assembly Design
Approaches of Assembly Design
GUI of Assembly Design workbench
Create New Product and add components
Insert Existing Components with positioning
Move components within product by positioning them using Manipulation Part tool
Apply Engineering Connections like Coincidence, Contact, Offset and Fix
Concept and importance of Contextual Design and Publications
Assemble components using Publications
Modify Existing Product Structure
Analyze Interferences between parts
Generate exploded view
Generate Bill of Materials and Balloon
CATIA V5 Drafting
Introduction to Drafting
Customize the settings
GUI of Drafting workbench
Generate Primary Views like Front, Top, Bottom, Side and Isometric Views
Position Views on drawing sheet
Generate Secondary Views like Section, Offset Section, Clipping and Detailed Views
Generate Dimensions using various methods
Create Frame and Title Block of Drawing Sheet
Create Text with Leader
Generate Bill of Materials
CATIA V5 Surface Design
Introduction to Surface Design and concept of Hybrid Design
GUI of Surface Design workbench
Create Curves and Wireframes using 3D Lines, Points, Planes and Spline
Create 3D Corner and Projection Curves
Create surfaces based on wireframe geometry using Extrude, Revolve, Multi-Sections and Fill surfaces
Create advanced Swept Surfaces and Blend features
Create wireframe features using existing curves and surfaces
Assemble, Re-limit and connect surfaces smoothly using Split, Trim, Join and Disassemble
Convert Surface to Solid
CATIA V5 Sheet Metal Design
Introduction to Sheet Metal Design
Terminology and Design process for creating Sheet Metal part
GUI of Sheet Metal Design workbench
Define and manage Sheet Metal Parameters
Create Sheet Metal part using Wall, User Flange, Hole and Rectangular Pattern
Create Sheet Metal part using Wall On Edge with Bend, Corner Relief, Louver, Bead, Bridge and Flanged Cutout
Create Sheet Metal part using Extrusion, Cylindrical Bend and Cutout
Create Stamped features
Manage Folded and Unfolded Views
CATIA V5 Functional Tolerance and Annotations
Introduction to Functional Tolerance and Annotations
Define various GD&T options
Create Annotation Planes
Add and manage 3D Annotations on these planes
Create 3D Views
Manage and position Annotations
Manage 3D Geometry associated with 3D Annotations
Add Dimensions with Tolerances
Create Datum and Datum features
Create Text and Flag Notes
CATIA V5 Automation
Introduction to Automation
Advantages of Automation and Scripting
Understand VBA programming concepts
Edit and Record Macro
Create CATVba Library and New macro
About types and use of variables
Write program in VBA
Understand the concept and use of inputbox
Work with String data and usage of String functions
Understand the concept and write If-Else statement
Export and save program file
Pre-requisite: User should be a Mechanical Engineer. The recommended version for practice exercises is CATIA V5 R21 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 520 Mins
Downloadable Exercises: 45
Recommended Practice Hours: 50 Hrs
CATIA V5 Mechanical Design Engineer Bundle(EL-MDE-CAD-CV5)

Overview: Through this Mechanical Design Engineer Bundle course, the user will be able to learn:CATIA V5 Part DesignCATIA V5 Assembly DesignCATIA V5 DraftingCATIA V5 Surface DesignCATIA V5 Sheet Metal DesignCATIA V5 Functional Tolerance and AnnotationsFundamentals of CATIA V5 AutomationOn completion of this course, user will be able to: Use different feature-based tools to build 3D modelCreate and
position product structureCreate part and product detailed drawingCreate wireframes and surfacesCreate Sheet Metal part using the standard featuresAnnotate 3D part and create 3D viewsUnderstand VBA programming concepts: 50 Hrs

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70 Hrs $750
SOLIDWORKS Mechanical Design Engineer Bundle(EL-MDE-CAD-SW)
Recommended Learning Duration: 64 Hrs
Overview: Through this Mechanical Design Engineer Bundle course, the user will be able to learn:
SOLIDWORKS Part Design
SOLIDWORKS Assembly Design
SOLIDWORKS Drafting
SOLIDWORKS Sheet Metal Design
SOLIDWORKS Model Based Definition
SOLIDWORKS Surface Design
On completion of this course, user will be able to:
Create 3D model using various feature-based tools
Learn to assemble parts using different mates
Generate views and apply dimension
Create sheet metal using Flanges and views
Apply annotations on 3D parts and products
Create Wireframe and generate the Surface
Course Structure:
SOLIDWORKS Part Design
GUI of SOLIDWORKS application
Create 2D sketches and apply Constraint
Create 3D models in SOLIDWORKS Part design
About Sketcher workbench
Learn Sketch Based Features
Apply Dress-up Features
Create configuration at part level
Create parts using Boolean operations
SOLIDWORKS Assembly Design
About basic Assembly Constraints
Create SOLIDWORKS Assembly Design Constraints
Use advanced commands to create assembly
Customize the settings to work with large assemblies
SOLIDWORKS Drafting
GUI of Drafting workbench
Generate different views
Apply dimension and customize dimension styles
Generate Sectional and Auxiliary views
Generate BOM and modify table
SOLIDWORKS Sheet Metal Design
GUI of Sheet Metal workbench
Create Base Flange
Convert Solid body into Sheet Metal
Different types of Flanges
Create Forming tool
Understand the Fold, Unfold and Flatten views
SOLIDWORKS Model Based Definition
Importance of MBD
Learn the various GD&T options in SOLIDWORKS
Apply annotations on 3D parts and products
Capture 3D views and publish drawings to 3D PDF
Generate e-drawings and convert them to various file formats
SOLIDWORKS Surface Design
Introduction to GUI of Surface Design workbench
Create Curves and Wireframes using 3D Lines, Points, Planes and Splines
Learn to use Extruded, Revolved and Lofted commands
Create Boundary, Fill, Freeform, Planar surface and Knit surface
Use of Delete, Extend and Replace commands
Create 3D Corner and Projection Curves
Create Swept surfaces and Blend features
Connect surfaces using Split, Trim and Join commands
Add thickness to surface
Pre-requisite: User should be a Mechanical Engineer. The recommended version for practice exercises is SOLIDWORKS 2019 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 400 Mins
Downloadable Exercises: 11
Recommended Practice Hours: 52 Hrs
SOLIDWORKS Mechanical Design Engineer Bundle(EL-MDE-CAD-SW)

Overview: Through this Mechanical Design Engineer Bundle course, the user will be able to learn:SOLIDWORKS Part DesignSOLIDWORKS Assembly DesignSOLIDWORKS DraftingSOLIDWORKS Sheet Metal DesignSOLIDWORKS Model Based DefinitionSOLIDWORKS Surface DesignOn completion of this course, user will be able to: Create 3D model using various feature-based toolsLearn to assemble parts using different matesGenerate views and apply dimensionCreate sheet metal using Flanges and viewsApply annotations on 3D parts and productsCreate Wireframe and generate the Surface: 52 Hrs

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64 Hrs $400
Inventor Mechanical Design Engineer Bundle(EL-MDE-CAD-ACAD)
Recommended Learning Duration: 84 Hrs
Overview: Through this Mechanical Design Engineer Bundle course, the user will be able to learn:
AutoCAD 3D Modelling
Autodesk Inventor Part Design
Autodesk Inventor Assembly Design
Autodesk Inventor Drafting
Autodesk Inventor Sheet Metal Design
Autodesk Inventor Model Based Definition
On completion of this course, user will be able to:
Navigate to AutoCAD 3D Interface, work on various options to create different models
Create 3D models in Inventor Part Design workbench and understand Sketcher workbench
About Assembly Approaches, apply basic Constraints and create Relationships
Create different views and generate various Dimension methods
Understand the settings of Sheet Metal Defaults, Create and Modify 3D models
Define various GD&T option, publishing GD&T and Annotation into 3D PDF
Course Structure:
AutoCAD 3D Modelling
About the GUI of AutoCAD 3D
Explore different Views of object and Change Views and Visual Styles
Navigate to AutoCAD 3D
Absolute and Dynamic Coordinate System
Use of Draw and Boolean and Polar Ray command
Use of Extrude, Fillet and Press pull commands
Work on various options of Solid Modelling and 3D Surface Modelling
Edit and create different Views
Project and place different Views of model
Add Annotations and Dimensions
Import Template to create 2D views
Autodesk Inventor Part Design
Importance of Part design and benefits of 3D modelling over 2D modelling
Create 3D models in Inventor Part Design workbench
Understand the Sketcher workbench and create sketch using various commands
Constrain Sketch by using commands Coincide, Tangent, Symmetry, Horizontal and Vertical Constrains
Understand the Sketch-Based Features like Extrude, Revolve and Loft
Create Dress-up Features like Draft, Fillet and Chamfer
Modify the profile using Move, Copy and Rotate
Create new Work Planes and Reference Elements using Project Geometry
Create Pattern
Autodesk Inventor Assembly Design
Introduction to Assembly, general principles and types of Assembly
Create Assembly Design Constraints
Understand various Assembly Constraints like Mate, Flush, Angle, Insert and Mirror
Create Relationship like Rotary Motion and Transitional Motion
Top Down Assembly approach and Bottom Up Assembly approach
Create Drive to validate assembly
Create Bill of Materials and extract BOM into Drafting
Autodesk Inventor Drafting
About Drafting and types of Drafting
First and Third Angle Projection
Drafting Sheet Standards and different types of Views
Create new Title block and edit Title Block
About commands under Place Views and Annotate panel
Create different Views like Auxiliary View, Section View, Detail View and Break View
Apply various Dimension Methods like Baseline, Ordinate and Chain Dimensions
Create Geometrical Dimensions and Tolerance and Retrieve model Annotation
Generate Bill of Material(BOM)
Basics applications of GD&T
Autodesk Inventor Sheet Metal Design
Applications of Sheet Metal Design and Terminology involved in Sheet Metal Design
Sheet Metal Design processes and Bend Allowances
GUI of Sheet Metal workbench and set up primary Sheet Metal rules
Create 3D models in Inventor Sheet Metal Design workbench
Create Face, Flange, Contour Flange, Contour Roll, Lofted Flange and Hem
Fold, Unfold, Refold and Bend operations
Create Hole, Corner Round and Corner Chamfer
Create Sheet Metal components
Generate Folded and Unfolded Views
Autodesk Inventor Model Based Definition
Define various GD&T options
About GD&T and its applications
Details about Form Tolerance, Profile Tolerance, Orientation Tolerance and Location Tolerance
General Annotations and Basic and Reference Dimension
Create Dimension Tolerance and Surface Texture
Annotate directly on 3D parts and products
Create Datum and capture Annotations
Create Geometrical Dimensions using Tolerance feature
Publish GD&T and Annotation into 3D PDF
Align the Dimensions
Publish created MBD into 3D PDF
Pre-requisite: User should be a Mechanical Engineer. The recommended version for practice exercises is Autodesk Inventor 2020 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 500 Mins
Downloadable Exercises: 20
Recommended Practice Hours: 68 Hrs
Inventor Mechanical Design Engineer Bundle(EL-MDE-CAD-ACAD)

Overview: Through this Mechanical Design Engineer Bundle course, the user will be able to learn:AutoCAD 3D ModellingAutodesk Inventor Part DesignAutodesk Inventor Assembly DesignAutodesk Inventor DraftingAutodesk Inventor Sheet Metal DesignAutodesk Inventor Model Based DefinitionOn completion of this course, user will be able to: Navigate to AutoCAD 3D Interface, work on various options to create different modelsCreate 3D models in Inventor Part Design workbench and understand Sketcher workbenchAbout Assembly Approaches, apply basic Constraints and create RelationshipsCreate different views and generate various Dimension methodsUnderstand the settings of Sheet Metal Defaults, Create and Modify 3D modelsDefine various GD&T option, publishing GD&T and Annotation into 3D PDF: 68 Hrs

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84 Hrs $350
CATIA V5 Mold Tool Design Engineer Bundle(EL-MTE-CAD-CV5)
Recommended Learning Duration: 70 Hrs
Overview: Through this Mold Tool Design Engineer Bundle course, the user will be able to learn:
CATIA V5 Part Design
CATIA V5 Assembly Design
CATIA V5 Drafting
CATIA V5 Surface Design
CATIA V5 Sheet Metal Design
CATIA V5 Functional Tolerance and Annotations
CATIA V5 Mold Tooling Design
On completion of this course, user will be able to:
Use different feature-based tools to build 3D model
Create and position product structure
Create part and product detailed drawing
Create wireframes and surfaces
Create Sheet Metal part using standard features
Annotate 3D part and create 3D views
Create New Mold Base and Mold tool components
Course Structure:
CATIA V5 Part Design
Perform various options of Sketcher environment
GUI of Part Design workbench
Create and Constrain 2D sketches
Create Sketch Based Features like Pad, Pocket, Revolve and Hole
Apply Dress-Up Features like Edge Fillets, Chamfer, Draft and Shell
Perform Transformation Features like Mirror, Symmetry and Rectangular Pattern
Create advanced Sketch-Based Features
Create 3D models using Reference Elements
Create Parameters and Formulas in 3D model
Review and edit features
Apply Boolean Operations
CATIA V5 Assembly Design
Approaches of Assembly Design
GUI of Assembly Design workbench
Create New Product and add components
Insert Existing Components with positioning
Move components within product by positioning them using Manipulation Part tool
Apply Engineering Connections like Coincidence, Contact, Offset and Fix
Concept and importance of Contextual Design and Publications
Assemble components using Publications
Modify Existing Product Structure
Analyze Interferences between parts
Generate exploded view
Generate Bill of Materials and Balloon
CATIA V5 Drafting
Introduction to Drafting
Customize the settings
GUI of Drafting workbench
Generate Primary Views like Front, Top, Bottom, Side and Isometric Views
Position Views on drawing sheet
Generate Secondary Views like Section, Offset Section, Clipping and Detailed Views
Generate Dimensions using various methods
Create Frame and Title Block of Drawing Sheet
Create Text with Leader
Generate Bill of Materials
CATIA V5 Surface Design
Introduction to Surface Design and concept of Hybrid Design
GUI of Surface Design workbench
Create Curves and Wireframes using 3D Lines, Points, Planes and Spline
Create 3D Corner and Projection Curves
Create surfaces based on wireframe geometry using Extrude, Revolve, Multi-Sections and Fill surfaces
Create advanced Swept Surfaces and Blend features
Create wireframe features using existing curves and surfaces
Assemble, Re-limit and connect surfaces smoothly using Split, Trim, Join and Disassemble
Convert Surface to Solid
CATIA V5 Sheet Metal Design
Introduction to Sheet Metal Design
Terminology and Design process for creating Sheet Metal part
GUI of Sheet Metal Design workbench
Define and manage Sheet Metal Parameters
Create Sheet Metal part using Wall, User Flange, Hole and Rectangular Pattern
Create Sheet Metal part using Wall On Edge with Bend, Corner Relief, Louver, Bead, Bridge and Flanged Cutout
Create Sheet Metal part using Extrusion, Cylindrical Bend and Cutout
Create Stamped features
Manage Folded and Unfolded Views
CATIA V5 Functional Tolerance and Annotations
Introduction to Functional Tolerance and Annotations
Define various GD&T options
Create Annotation Planes
Add and manage 3D Annotations on these planes
Create 3D Views
Manage and position Annotations
Manage 3D Geometry associated with 3D Annotations
Add Dimensions with Tolerances
Create Datum and Datum features
Create Text and Flag Notes
CATIA V5 Mold Tooling Design
Mold Tooling Design Process
GUI of Core and Cavity Design workbench
Customize the settings
Import Molded Part
Define Main and Additional Pulling Direction
Extract Core and Cavity Surface
Create Parting Surface for Core and Cavity
Define Parting Line and Parting Body
GUI of Mold Tooling Design workbench
Define New Mold Base
Create Core and Cavity Plate
Add Injection, Ejection components, Gate and Runner
Define and position the Slider
Create Retainers and Capscrew
Generate Reports
Pre-requisite: User should be a Mechanical Engineer. The recommended version for practice exercises is CATIA V5 R21 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 560 Mins
Downloadable Exercises: 45
Recommended Practice Hours: 62 Hrs
CATIA V5 Mold Tool Design Engineer Bundle(EL-MTE-CAD-CV5)

Overview: Through this Mold Tool Design Engineer Bundle course, the user will be able to learn:CATIA V5 Part DesignCATIA V5 Assembly DesignCATIA V5 DraftingCATIA V5 Surface DesignCATIA V5 Sheet Metal DesignCATIA V5 Functional Tolerance and AnnotationsCATIA V5 Mold Tooling DesignOn completion of this course, user will be able to: Use different feature-based tools to build 3D modelCreate and position product structureCreate part and product detailed drawingCreate wireframes and surfacesCreate Sheet Metal part using standard featuresAnnotate 3D part and create 3D views Create New Mold Base and Mold tool components: 62 Hrs

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70 Hrs $1,000
CATIA V5 Equipment and System Engineer Bundle(EL-ESE-CAD-CV5)
Recommended Learning Duration: 48 Hrs
Overview: Through this Equipment and System Engineer Bundle course, the user will be able to learn:
CATIA V5 Part Design
CATIA V5 Assembly Design
CATIA V5 Electrical Harness Design
CATIA V5 Electrical Harness Flattening
CATIA V5 Tubing Diagram
CATIA V5 Tubing Design
CATIA V5 DMU Space Analysis
On completion of this course, user will be able to:
Use different Feature-Based tools to build 3D model
Create and position Product Structure
Create Harness system to Digital Mock-Up and create Harness Documentation
Use Electrical Harness Flattening workbench to extract, flatten and synchronize Electrical Harness
Create, modify, annotate and analyze network in Tubing Diagram
Create, modify and manage Tubing Design
Analyze and review the results of analysis performed by CATIA Analysis
Course Structure:
CATIA V5 Part Design
Perform various options of Sketcher environment
GUI of Part Design workbench
Create and Constrain 2D sketches
Create Sketch Based Features like Pad, Pocket, Revolve and Hole
Apply Dress-Up Features like Edge Fillets, Chamfer, Draft and Shell
Perform Transformation Features like Mirror, Symmetry and Rectangular Pattern
Create advanced Sketch-Based Features
Create 3D models using Reference Elements
Create Parameters and Formulas in 3D model
Review and edit features
Apply Boolean Operations
CATIA V5 Assembly Design
Approaches of Assembly Design
GUI of Assembly Design workbench
Create New Product and add components
Insert Existing Components with positioning
Move components within product by positioning them using Manipulation Part tool
Apply Engineering Connections like Coincidence, Contact, Offset and Fix
Concept and importance of Contextual Design and Publications
Assemble components using Publications
Modify Existing Product Structure
Analyze Interferences between parts
Generate exploded view
Generate Bill of Materials and Balloon
CATIA V5 Electrical Harness Design
Understand the process and methods of Electrical Harness Design
Learn Electrical Library Installation
Convert Mechanical parts into Electrical parts
Assemble Electrical components
Create Geometrical Bundle
Route Bundle Segment
Definition of Bundle Segment
Add Branch Point
Create Protective covering
Add and Remove Support
Manage Multiple Bundle Segment
Analyze Product with Harness Bundle Segment
CATIA V5 Electrical Harness Flattening
Understand an approach to Manufacturing documentation of Electrical Harness Design
Create Harness Flattening Parameters
Extract Electrical Harness Geometry
Flatten extracted Electrical Harness
Rotate and Bend the Harness
Add and Remove Length Tolerance
Check connections using Network Assistant
Add attributes in Insert Link Template
Add Text Template to the Catalog
Generate Front View
Add Catalog using Place Text Template
Add Text to the Harness
CATIA V5 Tubing Diagram
Applications and Benefits of Tube
Understand the GUI, process of Tubing Diagrams and importance of Line ID
Types of Tube
Place Equipment and Nozzles
Importance of Line ID
Route and modify Line ID
Place inline parts and modify Diagrams
Place Text Templates
Generate Report of Tubing Diagrams
Check Network Analysis
CATIA V5 Tubing Design
Terminology of Tubing
General manufacturing process of Tube
General process of Tubing Design
Understand the GUI, process of Tubing Design and importance of Line ID
Customize the settings
Place Nozzles
Route and modify Line ID
Route and modify a Run
Place Tubes and Tubing parts
Route and modify Flexible Tubes
Generate Reports of Tubing Design
CATIA V5 DMU Space Analysis
Applications of Space Analysis
GUI of DMU Space Analysis workbench
Import Product
Check Clash Interference between components
Create Annotations to Section View
Clash Interference between two selections
Clash Interference between all components
Measure between components
Export Interference Data
Generate Report of Clash Interference
Pre-requisite: User should be a Mechanical Engineer. The recommended version for practice exercises is CATIA V5 R25 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 503 Mins
Downloadable Exercises: 40
Recommended Practice Hours: 32 Hrs
CATIA V5 Equipment and System Engineer Bundle(EL-ESE-CAD-CV5)

Overview: Through this Equipment and System Engineer Bundle course, the user will be able to learn:CATIA V5 Part DesignCATIA V5 Assembly DesignCATIA V5 Electrical Harness DesignCATIA V5 Electrical Harness FlatteningCATIA V5 Tubing DiagramCATIA V5 Tubing DesignCATIA V5 DMU Space AnalysisOn completion of this course, user will be able to: Use different Feature-Based tools to build 3D modelCreate and
position Product StructureCreate Harness system to Digital Mock-Up and create Harness DocumentationUse Electrical Harness Flattening workbench to extract, flatten and synchronize Electrical HarnessCreate, modify, annotate and analyze network in Tubing DiagramCreate, modify and manage Tubing DesignAnalyze and review the results of analysis performed by CATIA Analysis: 32 Hrs

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48 Hrs $800
CATIA V5 Stress Analysis Engineer Bundle(EL-SAE-CAD-CV5)
Recommended Learning Duration: 48 Hrs
Overview: Through this Stress Analysis Engineer Bundle course, the user will be able to learn:
CATIA V5 Part Design
CATIA V5 Assembly Design
CATIA V5 Sheet Metal Design
CATIA V5 Generative Part Structural Analysis
Generative Assembly Structural Analysis
On completion of this course, user will be able to:
Use different feature-based tools to build 3D model
Create and position part structure
Create sheet Metal part using standard feature
Conduct Finite Element Analysis on existing Part and Assembly
Course Structure:
CATIA V5 Part Design
Perform various options of Sketcher environment
GUI of Part Design workbench
Create and constrain 2D sketches
Create Sketch Based Features
Apply Dress-Up features
Perform Transformation Features
Create advanced Sketch-based features
Create 3D models using Reference Elements
Create Parameters and Formulas in 3D model
Review and edit features
Apply Boolean Operations
CATIA V5 Assembly Design
Approaches of Assembly Design
GUI of Assembly Design workbench
Create New Product and add components
Insert Existing components with Positioning
Move components within product by positioning them using Manipulation part tool
Apply Engineering Connections
Concept and importance of Contextual Design and Publications
Assemble components using Publications
Modify an existing product structure
Analyze interferences between parts
Generate exploded view
Generate Bill of Material and Balloon
CATIA V5 Sheet Metal Design
Introduction to Sheet Metal Design
Terminology and design process for creating Sheet Metal part
GUI of Sheet Metal Design workbench
Define and manage Sheet Metal Parameters
Create Sheet Metal part using Wall, User Flange, Hole and Rectangular Pattern features
Create Sheet Metal part using Wall On Edge with Bend, Corner Relief, Louver, Bead, Bridge and Flanged Cutout
Create Sheet Metal part using Extrusion, Cylindrical Bend and Cutout
Create Stamped features
Manage folded and unfolded views
CATIA V5 Generative Part Structural Analysis (GPS)
Introduction to CATIA V5 GPS
Create New Analysis Case
Apply Material
GUI of Generative Structural Analysis
Create Clamp Restraint
Apply Distributed Force
Perform Model Checker
Perform Compute
Check Deformation
Apply Pressure Load
Define Force Density
Animate analysis part
Generate and visualize Report
CATIA V5 Generative Assembly Structural Analysis (GAS)
Create New Analysis Case
Apply Material
Convert Assembly Constraints into Analysis Constraints
Define Tightening Force using connection property
Define Contact connection property
Apply Boundary conditions
Generate and visualize the Report of analysis results
Define Pressure Fitting connection property
Check Deformation of product
Check Analysis status
Pre-requisite: User should be a Mechanical Engineer with knowledge of Finite Element Method. The recommended version for practice exercises is CATIA V5 R21 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 370 Mins
Downloadable Exercises: 34
Recommended Practice Hours: 36 Hrs
CATIA V5 Stress Analysis Engineer Bundle(EL-SAE-CAD-CV5)

Overview: Through this Stress Analysis Engineer Bundle course, the user will be able to learn:CATIA V5 Part DesignCATIA V5 Assembly DesignCATIA V5 Sheet Metal DesignCATIA V5 Generative Part Structural AnalysisGenerative Assembly Structural AnalysisOn completion of this course, user will be able to: Use different feature-based tools to build 3D modelCreate and position part structureCreate sheet Metal part using standard featureConduct Finite Element Analysis on existing Part and Assembly: 36 Hrs

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48 Hrs $475
SOLIDWORKS Stress Analysis Engineer Bundle(EL-SAE-CAD-SW)
Recommended Learning Duration: 70 Hrs
Overview: Through this Stress Analysis Engineer Bundle course, the user will be able to learn:
SOLIDWORKS Part Design
SOLIDWORKS Assembly Design
SOLIDWORKS Drafting
SOLIDWORKS Sheet Metal Design
SOLIDWORKS Model Based Definition
SOLIDWORKS Finite Element Analysis
On completion of this course, user will be able to:
Create 3D model using various feature-based tools
Learn to assemble parts using different mates
Generate views and apply dimension
Create sheet metal using Flanges and views
Apply annotations on 3D parts and products
Understand the Static Analysis of component
Course Structure:
SOLIDWORKS Part Design
GUI of SOLIDWORKS application
Create 2D sketches and apply Constraint
Create 3D models in SOLIDWORKS Part design
About Sketcher workbench
Learn Sketch Based Features
Apply Dress-up Features
Create configuration at part level
Create parts using Boolean operations
SOLIDWORKS Assembly Design
About basic Assembly Constraints
Create SOLIDWORKS Assembly Design Constraints
Use advanced commands to create assembly
Customize the settings to work with large assemblies
SOLIDWORKS Drafting
GUI of Drafting workbench
Generate different views
Apply dimension and customize dimension styles
Generate Sectional and Auxiliary views
Generate BOM and modify table
SOLIDWORKS Sheet Metal Design
GUI of Sheet Metal workbench
Create Base Flange
Convert Solid body into Sheet Metal
Different types of Flanges
Create Forming tool
Understand the Fold, Unfold and Flatten views
SOLIDWORKS Model Based Definition
Importance of MBD
Learn the various GD&T options in SOLIDWORKS
Apply annotations on 3D parts and products
Capture 3D views and publish drawings to 3D PDF
Generate e-drawings and convert them to various file formats
SOLIDWORKS Finite Element Analysis
Understand the Static Analysis of component
Create Design Study
Analyse the model using SimulationXpress Analysis Wizard tool
Apply Fixture, Load and Material
Understand the deformations
Pre-requisite: User should be a Mechanical Engineer. The recommended version for practice exercises is SOLIDWORKS 2019 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 460 Mins
Downloadable Exercises: 13
Recommended Practice Hours: 55 Hrs
SOLIDWORKS Stress Analysis Engineer Bundle(EL-SAE-CAD-SW)

Overview: Through this Stress Analysis Engineer Bundle course, the user will be able to learn:SOLIDWORKS Part DesignSOLIDWORKS Assembly DesignSOLIDWORKS DraftingSOLIDWORKS Sheet Metal DesignSOLIDWORKS Model Based DefinitionSOLIDWORKS Finite Element AnalysisOn completion of this course, user will be able to: Create 3D model using various feature-based toolsLearn to assemble parts using different matesGenerate views and apply dimensionCreate sheet metal using Flanges and viewsApply annotations on 3D parts and productsUnderstand the Static Analysis of component: 55 Hrs

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70 Hrs $300
CATIA V5 NC Program Engineer Bundle(EL-NPE-CAD-CV5)
Recommended Learning Duration: 54 Hrs
Overview: Through this NC Program Engineer Bundle course, the user will be able to learn:
CATIA V5 Part Design
CATIA V5 Assembly Design
CATIA V5 Sheet Metal Design
CATIA V5 Functional Tolerance and Annotations
CATIA V5 Prismatic Machining
CATIA V5 3-Axis Milling Machining
On completion of this course, user will be able to:
Use different Feature-Based tools to build 3D model
Create and position Product Structure
Create Sheet Metal part using Standard features
Annotate 3D Part and create 3D Views
Define and manage NC programs to machine parts using prismatic machining techniques
Create Process, Product and Resource(PPR) Structure
Course Structure:
CATIA V5 Part Design
Perform various options of Sketcher environment
GUI of Part Design workbench
Create and Constrain 2D sketches
Create Sketch Based Features like Pad, Pocket, Revolve and Hole
Apply Dress-Up Features like Edge Fillets, Chamfer, Draft and Shell
Perform Transformation Features like Mirror, Symmetry and Rectangular Pattern
Create advanced Sketch-Based Features
Create 3D models using Reference Elements
Create Parameters and Formulas in 3D model
Review and edit features
Apply Boolean Operations
CATIA V5 Assembly Design
Approaches of Assembly Design
GUI of Assembly Design workbench
Create New Product and add components
Insert Existing Components with positioning
Move components within product by positioning them using Manipulation Part tool
Apply Engineering Connections like Coincidence, Contact, Offset and Fix
Concept and importance of Contextual Design and Publications
Assemble components using Publications
Modify Existing Product Structure
Analyze Interferences between parts
Generate exploded view
Generate Bill of Materials and Balloon
CATIA V5 Sheet Metal Design
Introduction to Sheet Metal Design
Terminology and Design process for creating Sheet Metal part
GUI of Sheet Metal Design workbench
Define and manage Sheet Metal Parameters
Create Sheet Metal part using Wall, User Flange, Hole and Rectangular Pattern
Create Sheet Metal part using Wall On Edge with Bend, Corner Relief, Louver, Bead, Bridge and Flanged Cutout
Create Sheet Metal part using Extrusion, Cylindrical Bend and Cutout
Create Stamped features
Manage Folded and Unfolded Views
CATIA V5 Functional Tolerance and Annotations
Introduction to Functional Tolerance and Annotations
Define various GD&T options
Create Annotation Planes
Add and manage 3D Annotations on these planes
Create 3D Views
Manage and position Annotations
Manage 3D Geometry associated with 3D Annotations
Add Dimensions with Tolerances
Create Datum and Datum features
Create Text and Flag Notes
CATIA V5 Prismatic Machining
Understand Machining Operation
Create PPR Structure
Define Machining Axis
Create Facing Operation
Create Rough Stock
Define the Geometry of tool
Create Toolpath Simulation
Perform Profile Countering and Drilling Operation
Create all Manufacturing Operations
CATIA V5 3-Axis Milling Machining
Create Facing Operation
Define Geometry for Facing Operation
Define the Strategies
Define Tool Geometry
Create Toolpath Simulation
Create Material Removal Video Simulation
Create Pocketing Operation with and without Island
Approach and Retract Macros
Define Ramping Macros
Create Profile Countering, Drilling Operation
Generate NC Program for Manufacturing Operation
Set Post Processor
Select Controller for Postprocessor
Pre-requisite: User should be a Mechanical Engineer. The recommended version for practice exercises is CATIA V5 R21 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 470 Mins
Downloadable Exercises: 41
Recommended Practice Hours: 38 Hrs
CATIA V5 NC Program Engineer Bundle(EL-NPE-CAD-CV5)

Overview: Through this NC Program Engineer Bundle course, the user will be able to learn:CATIA V5 Part DesignCATIA V5 Assembly DesignCATIA V5 Sheet Metal DesignCATIA V5 Functional Tolerance and AnnotationsCATIA V5 Prismatic MachiningCATIA V5 3-Axis Milling MachiningOn completion of this course, user will be able to: Use different Feature-Based tools to build 3D modelCreate and position Product StructureCreate Sheet Metal part using Standard featuresAnnotate 3D Part and create 3D ViewsDefine and manage NC programs to machine parts using prismatic machining techniquesCreate Process, Product and Resource(PPR) Structure: 38 Hrs

More

54 Hrs $550
SOLIDWORKS NC Program Engineer Bundle(EL-NPE-CAD-SW)
Recommended Learning Duration: 62 Hrs
Overview: Through this NC Program Engineer Bundle course, the user will be able to learn:
SOLIDWORKS Part Design
SOLIDWORKS Assembly Design
SOLIDWORKS Drafting
SOLIDWORKS Sheet Metal Design
SOLIDWORKS CAM
On completion of this course, user will be able to:
Create 3D model using various feature-based tools
Learn to assemble parts using different mates
Generate views and apply dimension
Create sheet metal using Flanges and views
Understand Machining operations
Course Structure:
SOLIDWORKS Part Design
Understand the GUI of SOLIDWORKS application
Create 2D sketches and apply Constraint
Create 3D models in SOLIDWORKS Part design
About Sketcher workbench
Learn Sketch Based Features
Apply Dress-up Features
Create configuration at part level
Create parts using Boolean operations
SOLIDWORKS Assembly Design
About basic Assembly Constraints
Create SOLIDWORKS Assembly Design Constraints
Use advanced commands to create assembly
Customize the settings to work with large assemblies
SOLIDWORKS Drafting
GUI of Drafting workbench
Generate different views
Apply dimension and customize dimension styles
Generate Sectional and Auxiliary views
Generate BOM and modify table
SOLIDWORKS Sheet Metal Design
GUI of Sheet Metal workbench
Create Base Flange
Convert Solid body into Sheet Metal
Different types of Flanges
Create Forming tool
Understand the Fold, Unfold and Flatten views
SOLIDWORKS CAM
Importance of GUI CAM
Define Machine and Extract Machinable Features
Generate Machining Operations Plan of the model
Generate Toolpaths for Operations Plan
Generate NC codes from the model
Additional Features
Machine Simulation process
Applications of SOLIDWORKS CAM
Use of Sort Operations
Create 2.5 Axis Mill Operations
Pre-requisite: User should be a Mechanical Engineer. The recommended version for practice exercises is SOLIDWORKS 2019 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 430 Mins
Downloadable Exercises: 14
Recommended Practice Hours: 50 Hrs
SOLIDWORKS NC Program Engineer Bundle(EL-NPE-CAD-SW)

Overview: Through this NC Program Engineer Bundle course, the user will be able to learn:SOLIDWORKS Part DesignSOLIDWORKS Assembly DesignSOLIDWORKS DraftingSOLIDWORKS Sheet Metal DesignSOLIDWORKS CAMOn completion of this course, user will be able to: Create 3D model using various feature-based toolsLearn to assemble parts using different matesGenerate views and apply dimensionCreate sheet metal using Flanges and viewsUnderstand Machining operations: 50 Hrs

More

62 Hrs $300