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Autodesk Inventor Part Design(C-MEC-NAINV19-PDG-ENL1)
Recommended Learning Duration: 16 Hrs
Overview: Through this course, the user will be able to learn Autodesk Inventor Part Design. On completion of this course, user will be able to:
- Create 3D models in Inventor Part Design workbench
- Understand the Sketcher workbench
- Understand the Sketch-Based Features like Extrude, Revolve and Loft
- Create Dress-up Features like Draft, Fillet and Chamfer
- Create the new Work Planes and Reference Elements using Project Geometry
- Create Pattern
Course Structure:
Introduction to Part modeling
- Single-body and Multi-body parts
- Importance of Part design
- Benefits of 3D modeling over 2D modeling
- Important factors for Part modeling
- Steps involved in designing a Part
Introduction to Autodesk Inventor Application
- User interface of Part modeling workbench
- Navigation toolbar
- View cube for setting up views
- Introduction to Sketcher environment
- Create, Modify, Dimension, Pattern and Constrain panels
- Create Lines and Splines
- Create a Circle and an Arc
- Create Rectangle and Slot
- Create Chamfer and Fillet
- Add Text
- Create a single Point
- Modify the profile using Move, Copy and Rotate
- Trim, Scale and Mirror
- Create a Sketch
Design of Component-1
- Constrain the Sketch
- Extrude and Extrude Cut
- Coincide, Tangent, Symmetry, Horizontal and Vertical Constrains
- Create a Plane
- Create Slots and Circular Cutout
- Pattern commands
Design of Component-2
- Introduction to parts and their functions
- Create basic part features of components
- Assign Material
- Convert Line to Axis
- Project Geometry
- Offset a plane and create a profile
- Create Fillet
Design of Component-3
- Design a component using Revolve
- Create basic part features
- Create Chamfer
- Create Loft
Design of Component-4
- Create basic part features
- Create a Draft
- Create Holes
Pre-requisite: User should be a Mechanical Engineer. The recommended version for practice exercises is Inventor 2020 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 90 Mins
Downloadable Exercises: 6
Recommended Practice Hours: 13 Hrs
Autodesk Inventor Part Design
Overview: Through this course, the user will be able to learn Autodesk Inventor Part Design. On completion of this course, user will be able to: Create 3D models in Inventor Part Design workbenchUnderstand the Sketcher workbenchUnderstand the Sketch-Based Features like Extrude, Revolve and LoftCreate Dress-up Features like Draft, Fillet and ChamferCreate the new Work Planes and Reference Elements using Project GeometryCreate Pattern : 13 Hrs
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16 Hrs $60 - Create 3D models in Inventor Part Design workbench
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Autodesk Inventor Sheet Metal Design(C-MEC-NAINV19-SMD-ENL1)
Recommended Learning Duration: 12 Hrs
Overview: Through this course, the user will be able to learn Autodesk Inventor Sheet Metal Design. On completion of this course, user will be able to:
- Create 3D models in Inventor Sheet Metal Design workbench
- Set Sheet Metal Defaults
- Create and Modify panels
- Create Sheet Metal components
- Generate Folded and Unfolded Views
Course Structure:
Introduction to Sheet Metal Design
- Applications of Sheet Metal Design
- Terminology involved in Sheet Metal Design
- Sheet Metal Design processes
- Bend Allowances
GUI of Sheet Metal
- Launch the Sheet Metal workbench
- GUI of Sheet Metal workbench
- Set up primary Sheet Metal rules
- Create New rules
- Create Face, Flange, Contour Flange, Contour Roll and Lofted Flange
- Create Hem
- Fold, Unfold, Refold and Bend operations
- Remove material using Cut
- Corner Seam
- Punch Tool
- Create Hole, Corner Round and Corner Chamfer
- Go to Flat Pattern, Bend Order Annotation and Go to Folded Pattern
Create Moderate Sheet
- Create a basic geometry of component
- Create the Axis
- Create the Flanges to the required length and angle
- Create gap between Flanges using Rip tool
- Create outer Hem
- Project Geometry
- Create a Slot in a Bend
- Bend Order Annotation to know the order of Bending
Create Sheet Metal component
- Set the basic parameters
- Refer dimensional details in the given drawing
- Draw required geometry
- Create Sheet Metal design
- Create Key Hole Punch
- Create lock using Flange and Hem
- Create Round Emboss
- Modify the design
Pre-requisite: User should be a Mechanical Engineer and should have completed Autodesk Inventor Part design course. The recommended version for practice exercises is Inventor 2020 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity : 90 days from the date of enrolment.
Instructor Video Duration: 85 Mins
Downloadable Exercises: 2
Recommended Practice Hours: 9 Hrs
Autodesk Inventor Sheet Metal Design
Overview: Through this course, the user will be able to learn Autodesk Inventor Sheet Metal Design. On completion of this course, user will be able to: Create 3D models in Inventor Sheet Metal Design workbenchSet Sheet Metal DefaultsCreate and Modify panelsCreate Sheet Metal components Generate Folded and Unfolded Views: 9 Hrs
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12 Hrs$80$80 - Create 3D models in Inventor Sheet Metal Design workbench
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Autodesk Inventor Assembly Design(C-MEC-NA19-ASM-ENL1)
Recommended Learning Duration: 16 Hrs
Overview: Through this course, the user will be able to learn Autodesk Inventor Assembly Design. On completion of this course, user will be able to:
- Create Assembly Design Constraints
- Understand various Assembly Constraints like Mate, Flush, Angle, Insert and Mirror
- Create Relationship like Rotary Motion and Transitional Motion
- Generate Bill of Materials
Course Structure:
Introduction to Assembly
- About Assembly
- General principles and types of Assembly
- Design of Assembly
- Process flow of Design for Assembly(DFA)
- Stages involved in product development
Introduction to Constraints
- Different types of Constraints in Assembly
- Place component into Assembly
- Use of Mate, Flush and Insert Constraint
- Angle, Tangent and Symmetry Constraints
Rotational Constraints
- Constrain by using Plane to Plane and Axis to Axis
- Create Rotary Relationship
- Create Translation Relationship
- Create Drive between Gears
Transitional Constraints
- Convert Rotary into Transitional Motion
Top-Down Approach
- Top Down Assembly approach
- Create part in Assembly workbench
- Create Bolted Connection
Assembly of Product-1
- Bottom Up Assembly approach
- Assemble component by using Constraints
- Create Angle Constraint
- Create Rotation Relationship
- Insert components from Content Center
- Insert parts
- Create Drive to validate assembly
Assembly of Product-2
- Understand different parts of assembly and it's functions
- Exploded View of assembly
- Insert parts
- Free Rotate and Free Move
- Adjust position by giving Offset
- Place Subassemblies
- Create Tangent Relationship
- Create Transition Relationship
- Verify created Relationship
Bill of Material
- Create Bill of Materials
- Add Engineering Note to BOM
- Extract BOM into Drafting
Pre-requisite: User should be a Mechanical Engineer and should have completed Autodesk Inventor Part design course. The recommended version for practice exercises is Inventor 2020 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 105 Mins
Downloadable Exercises: 6
Recommended Practice Hours: 13 Hrs
Autodesk Inventor Assembly Design
Overview: Through this course, the user will be able to learn Autodesk Inventor Assembly Design. On completion of this course, user will be able to: Create Assembly Design ConstraintsUnderstand various Assembly Constraints like Mate, Flush, Angle, Insert and MirrorCreate Relationship like Rotary Motion and Transitional MotionGenerate Bill of Materials: 13 Hrs
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16 Hrs $50 - Create Assembly Design Constraints
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Autodesk Inventor Drafting(C-MEC-NAINV19-DWG-ENL1)
Recommended Learning Duration: 8 Hrs
Overview: Through this course, the user will be able to learn Autodesk Inventor Drafting. On completion of this course, user will be able to:
- Create different Views
- Apply various Dimension Methods
- Create Section Views
- Create Drawing Template
- Generate Bill of Materials(BOM)
- Basics applications of GD&T
Course Structure:
Introduction to Drafting
- About Drafting
- Types of Drafting
- Drafting Sheet Standards
- First and Third Angle Projection
- Different types of Views
Creation of Drafting
- About commands under Place Views and Annotate panel
- Edit Drawing Sheet
- Different size and format of Drawing Sheet
- Edit Border
- Add and edit Title Block
- Create New Title block
- Create and edit View
- Project different Views
- Create Auxiliary View, Section View, Detail View and Break View
- Use of Draft command to add additional details to view
- Crete Break Out View and Slice View
- Create Annotations
- Types of Tolerance methods
- Create Baseline, Ordinate and Chain Dimensions
- Arrange created Dimension
- Create general Note
- Create Geometrical Dimensions and Tolerance
- Retrieve model Annotation
- Create and edit Part List
- Create Balloons and Bill of Materials
Pre-requisite: User should be a Mechanical Engineer and should have completed Autodesk Inventor Part design course. The recommended version for practice exercises is Inventor 2020 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 60 Mins
Downloadable Exercises: 1
Recommended Practice Hours: 6 Hrs
Autodesk Inventor Drafting
Overview: Through this course, the user will be able to learn Autodesk Inventor Drafting. On completion of this course, user will be able to: Create different ViewsApply various Dimension MethodsCreate Section ViewsCreate Drawing TemplateGenerate Bill of Materials(BOM) Basics applications of GD&T: 6 Hrs
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8 Hrs $50 - Create different Views
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Autodesk Inventor Model Based Definition(C-MEC-NAINV19-MBD-ENL1)
Recommended Learning Duration: 8 Hrs
Overview: Through this course, the user will be able to learn Autodesk Inventor Model Based Definition(MBD). On completion of this course, user will be able to:
- Define various GD&T options
- Understand to annotate directly on 3D parts and products
- Create various Annotation methods
- Create Datum and capturing Annotations
- Publish GD&T and Annotation into 3D PDF
Course Structure:
Introduction to GD&T
- About GD&T
- Advantages of GD&T
- Types of GD&T
- Details about Form Tolerance, Profile Tolerance, Orientation Tolerance and Location Tolerance
- Run-out and Total Run-out
Introduction to MBD
- About MBD
- GUI of MBD
- General Annotations
- Create Linear Dimension
- About Basic and Reference Dimension
- Create Dimension Tolerance
- About Surface Texture
- Setting Annotations Standard
- Define Datum and it's principles
- About Tolerance Advisor
- Create Geometrical Dimensions
- Capture GD&T and Annotate different Views
- Align the Dimensions
- Publish created MBD into 3D PDF
MBD of Component
- Create basic Annotations
- Create basic Tolerance Dimensions
- Create Geometrical Dimensions using Tolerance feature
- Capture Annotations in different Views
Pre-requisite: User should be a Mechanical Engineer and should have completed Autodesk Inventor Part design course. The recommended version for practice exercises is Inventor 2020 and above.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 72 Mins
Downloadable Exercises: 3
Recommended Practice Hours: 6 Hrs
Autodesk Inventor Model Based Definition
Overview: Through this course, the user will be able to learn Autodesk Inventor Model Based Definition(MBD). On completion of this course, user will be able to: Define various GD&T optionsUnderstand to annotate directly on 3D parts and productsCreate various Annotation methodsCreate Datum and capturing AnnotationsPublish GD&T and Annotation into 3D PDF: 6 Hrs
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8 Hrs $80 - Define various GD&T options
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Autodesk Inventor Surface Design(C-MEC-NAINV19-SUR-ENL1)
Recommended Learning Duration: 8 Hrs
Overview: Through this course, the user will be able to learn Autodesk Inventor Surface Design. On completion of this course, user will be able to:
- Understand the GUI of Surface environment
- Create the Wireframe by using Points, Lines and Splines
- Generate Surface
- Modify Surface
- Convert Surface to Solid
Course Structure:
Introduction to Surfacing
- 3D Modeling Methods
- Wireframe Modeling
- Types of surface
- Importance of Surface Modeling
- Applications and Advantage of Surface Modeling
- Difference between Surface and Solid Modeling
Surface Design of Component-1
- GUI of Surface Modeling
- Create Revolve and Loft surface
- Use of Trim command
- Create Sculpt Feature
- Generate Extended Surface
- Modify surface
- Use of Repair Bodies
Surface Design of Component-2
- Create wireframes
- Create a Sweep Profile and Extrude Surface
- Create a Side Cutout, Ruled and Split Surface
- Add Thickness to Surface
- Create Profile on Curved Surface
- Create Boundary Patch and Stitch Surface
Pre-requisite: User should be a Mechanical Engineer and should have completed Autodesk Inventor Part design Course. The recommended version for practical 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: 62 Mins
Downloadable Exercises: 5
Recommended Practice Hours: 5 Hrs
Autodesk Inventor Surface Design
Overview: Through this course, the user will be able to learn Autodesk Inventor Surface Design. On completion of this course, user will be able to: Understand the GUI of Surface environmentCreate the Wireframe by using Points, Lines and SplinesGenerate SurfaceModify SurfaceConvert Surface to Solid: 5 Hrs
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8 Hrs $60 - Understand the GUI of Surface environment
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3DEXPERIENCE CATIA Parametric Modelling (L-MEC-EXCAT21X-PAM-LIVE-ENL1-2104)
Recommended Learning Duration: 2 Hrs
Overview: Through this course, the user will be able to learn about 3DEXPERIENCE CATIA Parametric Modelling. On completion of this course, user will be able to understand:
- Types of Parameters
- Formulae
- Equivalent Dimensions
- Design Tables
Live session on: 22nd January, 2021, 03.00 pm to 5.00 pm
Pre-requisite: CATIA 3DEXPERIENCE Basics/CAD Fundamentals
3DEXPERIENCE CATIA Parametric Modelling
Overview: Through this course, the user will be able to learn about 3DEXPERIENCE CATIA Parametric Modelling. On completion of this course, user will be able to understand: Types of ParametersFormulaeEquivalent DimensionsDesign TablesLive session on: 22nd January, 2021, 03.00 pm to 5.00 pmPre-requisite: CATIA 3DEXPERIENCE Basics/CAD Fundamentals
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2 Hrs $100Live session on:Jan 22nd,2021 - Types of Parameters
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SOLIDWORKS Part Design(C-MEC-NASWR19-PDG-ENL1)
Recommended Learning Duration: 16 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS Part Design. On completion of this course, user will be able to:
- Understand the GUI of SOLIDWORKS application
- Create 3D models in the SOLIDWORKS Part design
- Understand the tools of Sketcher workbench
- Learn Sketch Based Features
- Create configuration at part level
- Create the parts using Boolean operations
Course Structure:
Introduction to Part design
- About SOLIDWORKS applications
- Launch the application
- Understand the GUI
- Learn the functions of Feature Manager Design Tree
Sketcher
- Draw the Reference Line, Center Line, Normal and Mid-Point Line
- Create Circles and Perimeter Circle
- Create Rectangle and Polygon
- Create Slots and Splines
- Create Ellipse, Partial Ellipse, Parabola and Conic
- Perform operations using Trim Entities
- Use of Sketch Fillet and Sketch Chamfer
- Explore the Offset Entities and Mirror Operations
- Fully constrain the sketch using Smart Dimension
Design of Components-1
- Introduction to parts and their functions
- Understand the Design of parts
- Sketch the profile
- Constrain and Revolve the profile
- Create Pocket
- Create the basic Sketch and Part feature
- Create Slot Cut and Mirror the feature
- Apply Fillet
- Create Thread
- Insert Annotation
- Explore the Cosmetic Thread
- Understand the methods of configuration
Design of Components-2
- Introduction to parts and their functions
- Learn the applications of Parts
- Define the working principle
- List the advantages and disadvantages
- Understand the design of parts
- Create the basic Sketch and Part feature
- Apply Shell
- Create Plane and Convert entities
- Create Extruded Cut
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: 125 Mins
Downloadable Exercises: 2
Recommended Practice Hours: 13 Hrs
SOLIDWORKS Part Design
Overview: Through this course, the user will be able to learn SOLIDWORKS Part Design. On completion of this course, user will be able to: Understand the GUI of SOLIDWORKS applicationCreate 3D models in the SOLIDWORKS Part designUnderstand the tools of Sketcher workbenchLearn Sketch Based FeaturesCreate configuration at part levelCreate the parts using Boolean operations: 13 Hrs
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16 Hrs $75 - Understand the GUI of SOLIDWORKS application
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SOLIDWORKS Sheet Metal Design(C-MEC-NASWR19-SMD-ENL1)
Recommended Learning Duration: 12 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS Sheet Metal Design. On completion of this course, user will be able to:
- Understand the GUI
- Create Base Flange
- Convert the Solid body into Sheet Metal
- Understand the different types of Flanges
- Learn Forming Tool
- Understand the Fold, Unfold and Flatten views
Course Structure:
Introduction to Sheet Metal Design
- Define Sheet Metal
- Advantages of Sheet Metals
- Know the Sheet Metal Terminology
- Learn the Sheet Metal processes
- Principle operations in Sheet Metal cutting
- Understand Bend Allowances
- Clearance in Sheet Metal cutting
- Drawing of metal into thin sheets
Sheet Metal Commands
- Create Base Flange
- Create Lofted Bend
- Create Edge Flange, Miter Flange and Swept Flange
- Apply Hem, Jog, Sketch Bend and Cross Break
- Use of Corner and Forming tool
- Create Sheet Metal Gusset
- Create Tab and Slot
- Create Extruded Cut and Simple Hole
- Create Vent, Normal Cut and Rip
Design of Sheet Metal component-1
- Create Base Flange and Edge Flange
- Define the Custom Relief type
- Create Slot, Hole, Mirror and Extruded Cut
- Apply Sketched Bend and Edge Bend
- Create Hem and Circular Emboss
- Create Rib, Simple Hole, Circular Pattern and Corner Trim
Design of Sheet Metal component-2
- Draw the basic profile
- Create Jog feature
- Draw the Circle and Pattern circle
- Create Slot cut and Linear Pattern
- Draw Rectangle
- Create Edge Flange and Corner Relief
- Create Unfold view
- Apply Appearance
- Modify the length of Hem
- Apply Corner Relief Fillet
Pre-requisite: User should be a Mechanical Engineer and should have completed SOLIDWORKS Part Design course. 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: 60 Mins
Downloadable Exercises: 2
Recommended Practice Hours: 10 Hrs
SOLIDWORKS Sheet Metal Design
Overview: Through this course, the user will be able to learn SOLIDWORKS Sheet Metal Design. On completion of this course, user will be able to: Understand the GUICreate Base FlangeConvert the Solid body into Sheet MetalUnderstand the different types of FlangesLearn Forming ToolUnderstand the Fold, Unfold and Flatten views: 10 Hrs
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12 Hrs $80 - Understand the GUI
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SOLIDWORKS Assembly Design(C-MEC-NASWR19-ASM-ENL1)
Recommended Learning Duration: 16 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS Assembly Design. On completion of this course, user will be able to:
- Understand basic Assembly Constraints
- Create SOLIDWORKS Assembly Design Constraints
- Create Configurations at assembly level
- Use advanced commands to create assembly
- Customize the settings to work with large assemblies
Course Structure:
Introduction to Assembly Design
- Understand the GUI
- Learn the methods to enter the workbench
- Create View Orientation and Edit Appearance
- Apply Scene
- Hide/Show components
- Top Level Transparency
- Change Appearances
- Dynamics Reference Visualization
- Edit and Save assembly
- Add Favourite folder
- Apply Material
- Rename tree, Hide/Show tree items and Customize tree items
- Selection methods
- Explore options in View Settings
- Create Exploded View
Configuration at Assembly level
- Understand the need of Configuration
- Methods of Configuration
- Advantages of Configuration
- Part visibility in Assembly
- Configuration in Drafting
Assembly Modelling
- Introduction to assembly
- Explain the Assembly Approaches
- Create Top-Down Assembly
- Apply Degrees of Freedom
- Types of Mates
- Explain Standard Mate
- Apply View Settings
Advanced Assembly feature
- Create Flash Magnets
- Use of Large Assembly Mode
Pre-requisite: User should be a Mechanical Engineer and should have completed SOLIDWORKS Part Design course. 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: 105 MinsDownloadable Exercises: 2
Recommended Practice Hours: 13 Hrs
SOLIDWORKS Assembly Design
Overview: Through this course, the user will be able to learn SOLIDWORKS Assembly Design. On completion of this course, user will be able to: Understand basic Assembly ConstraintsCreate SOLIDWORKS Assembly Design ConstraintsCreate Configurations at assembly levelUse advanced commands to create assemblyCustomize the settings to work with large assemblies: 13 Hrs
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16 Hrs $50 - Understand basic Assembly Constraints
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SOLIDWORKS Drafting(C-MEC-NASWR19-DRF-ENL1)
Recommended Learning Duration: 12 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS Drafting. On completion of this course, user will be able to:
- Understand the GUI of SOLIDWORKS Drafting
- Generate the Views
- Apply Dimension and customize the Dimension styles
- Generate Sectional and Auxiliary Views
- Generate BOM and modify the table
Course Structure:
Introduction to Drawing standards
- Types of Drafting
- Line types used in Drawing
- Understand the Angle of projections
- Drawing Sheets and Templates
- Standard sheet sizes
- Dimensions Terminology, Dimensioning Rules and Types
Graphical User Interface
- Enter the Drafting workbench
- Understand the GUI
- Place views using Standard 3 View tool
- Model View tool
- Projected Views
- Place new views using Auxiliary View tool
- Create Section Views and Detail Views
- Use of Removed Section tool
- Add Broken-out Section
- Use of Break View, Crop View and Alternate Position View
Annotate the drawing
- Import Dimensions and Annotations
- Use of Annotation commands
- Add Weld Symbol, Hole Callout, Datum Feature and Datum Target
- Mention the Geometric Tolerance
- Create Blocks
- Add Center mark, Center line, Area Hatch/Fill, Revision Cloud and Tables
- Sheet Format tab
Drafting at part level
- Place different Views
- Set the unit format
- Select Display State and Scale for the drawing
- Add Dimensions
Drafting at assembly level
- Learn the different methods to enter the Drafting workbench
- Create different views of the assembly
- Create Broken-out section View, Break View, Crop View
- Add Balloons to the drawing
- Insert Bill of Materials Table
- Insert Revision Table
Pre-requisite: User should be a Mechanical Engineer and should have completed SOLIDWORKS Part Design and SOLIDWORKS Assembly Design Courses. 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: 60 Mins
Downloadable Exercises: 3
Recommended Practice Hours: 10 Hrs
SOLIDWORKS Drafting
Overview: Through this course, the user will be able to learn SOLIDWORKS Drafting. On completion of this course, user will be able to:Understand the GUI of SOLIDWORKS DraftingGenerate the ViewsApply Dimension and customize the Dimension stylesGenerate Sectional and Auxiliary ViewsGenerate BOM and modify the table: 10 Hrs
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12 Hrs $50 - Understand the GUI of SOLIDWORKS Drafting
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SOLIDWORKS Model Based Definition(C-MEC-NASWR19-MBD-ENL1)
Recommended Learning Duration: 8 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS Model Based Definition(MBD). On completion of this course, user will be able to:
- Understand the importance of MBD
- Learn GD&T options in SOLIDWORKS
- Apply Annotations on 3D parts and products
- Capture 3D views and publish drawings to 3D PDF
- Generate and convert e-drawings to various file formats
Course Structure:
Introduction to Model Based Definition
- Understand Geometric Dimensioning and Tolerancing
- Apply 3D Annotations and Dimensions
- Learn the needs of MBD
- Add Text
- Design Intent
- Understand PMI and Tolerance
Basics of MBD
- Enable the MBD workbench
- Understand GUI of MBD
- Learn to create Annotations on the part
- Understand Auto Dimension Scheme
- Tolerance types
Basic Commands in MBD
- Explore Location
- Apply Size Dimension
- Understand Basic Location Dimension
- Use of Pattern Feature
Advanced Commands in MBD
- Apply GD&T on the Model
- Datum Target and Symbol
- Understand the Surface Finish Symbol
- Add Note
- Apply Smart Dimension
- Types of Tables
- Understand Views
- Create different File Formats
Pre-requisite: User should be a Mechanical Engineer and should have completed SOLIDWORKS Part Design course. 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: 52 Mins
Downloadable Exercises: 1
Recommended Practice Hours: 6 Hrs
SOLIDWORKS Model Based Definition
Overview: Through this course, the user will be able to learn SOLIDWORKS Model Based Definition(MBD). On completion of this course, user will be able to: Understand the importance of MBDLearn GD&T options in SOLIDWORKSApply Annotations on 3D parts and productsCapture 3D views and publish drawings to 3D PDFGenerate and convert e-drawings to various file formats: 6 Hrs
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8 Hrs $80 - Understand the importance of MBD
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SOLIDWORKS CAM(C-MEC-NASWR19-CAM-ENL1)
Recommended Learning Duration: 6 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS CAM. On completion of this course, user will be able to:
- Understand the GUI of SOLIDWORKS CAM
- Define Machine and Extract the Machinable Features
- Generate Machining Operations Plan of the model
- Understand the process of generating Toolpaths
- Generate NC codes from the model
Course Structure:
Introduction to SOLIDWORKS CAM
- Benefits of CAM
- Additional and special features
- Machine Simulation Process
- Applications of SOLIDWORKS CAM
Introduction to CAM and GUI
- Launch CAM workbench
- Feature Tree Tabs
- Learn Major Tools
- Sort Operations
- 2.5 Axis Mill Operations
Machining of Component
- Define Machine
- Define Stock
- Setup Mill
- Understand Extract Machinable Features
- Generate Operation
- Generate Toolpath
- Simulate Toolpath
- Step Thru Toolpath
- Save CL File
- Create Post Process
Pre-requisite: User should be a Mechanical Engineer and should have completed SOLIDWORKS Part Design course. 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: 80 Mins
Downloadable Exercises: 4
Recommended Practice Hours: 4 Hrs
SOLIDWORKS CAM
Overview: Through this course, the user will be able to learn SOLIDWORKS CAM. On completion of this course, user will be able to: Understand the GUI of SOLIDWORKS CAMDefine Machine and Extract the Machinable FeaturesGenerate Machining Operations Plan of the modelUnderstand the process of generating ToolpathsGenerate NC codes from the model: 4 Hrs
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6 Hrs $100 - Understand the GUI of SOLIDWORKS CAM
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SOLIDWORKS Finite Element Analysis(C-MEC-NASWR19-FEA-ENL1)
Recommended Learning Duration: 6 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS Finite Element Analysis. On completion of this course, user will be able to:
- Understand the Static Analysis of the component
- Create the Design Study
- Analyze the model using SimulationXpress Analysis Wizard tool
- Apply Fixture, Load and Material
- Understand the deformations
- Follow the best practices to create and modify the part
Course Structure:
Introduction to Analysis
- Benefits of Analysis
- Methods of Analysis
- Degrees of Freedom
- Steps involved in Analysis
- Primary advantages
Basics of Analysis
- Create Design Study
- Interference Detection and Clearance Verification
- Understand Measure
- Markup and Mass Properties
- Section Properties and Sensor
- Performance Evaluation
Analysis of Components
- Steps to perform the Analysis
- Define the Fixture
- Apply Load
- Specify the Material
- Run the Simulation
- Show Von Mises stress
- Show displacement
- Generate the e-Drawing
Pre-requisite: User should be a Mechanical Engineer and should have completed SOLIDWORKS Part Design and SOLIDWORKS Assembly Design courses. 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: 60 Mins
Downloadable Exercises: 3
Recommended Practice Hours: 4 Hrs
SOLIDWORKS Finite Element Analysis
Overview: Through this course, the user will be able to learn SOLIDWORKS Finite Element Analysis. On completion of this course, user will be able to: Understand the Static Analysis of the componentCreate the Design StudyAnalyze the model using SimulationXpress Analysis Wizard toolApply Fixture, Load and MaterialUnderstand the deformationsFollow the best practices to create and modify the part: 4 Hrs
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6 Hrs $80 - Understand the Static Analysis of the component
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SOLIDWORKS Surface Design(C-MEC-NASWR19-SUR-ENL1)
Recommended Learning Duration: 8 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS Surface Design. On completion of this course, user will be able to:
- Understand the GUI of Surface Design
- Learn the use of Surface tools
- Create Wireframes
- Generate surface using Wireframe
- Create surface models using advanced tools
Course Structure:
Introduction to SOLIDWORKS Surface
- About Surface Design and types of 3D modeling
- Importance and applications of Surface Design
- Compare Solid modeling with Surface modeling
- Types of Surfaces
Graphical User Interface
- Introduction to GUI of Surface Design workbench
- Learn to use Extruded, Revolved and Lofted commands
- Create Boundary, Fill, Freeform and Planar surface
- Use of Delete, Extend, Trim and Replace commands
Surface Design of Component-1
- Create Curves and Wireframes using 3D Lines, Points, Planes and Splines
- Create 3D Corner and Projection Curves
- Create surfaces based on wireframe geometry
- Create Swept surfaces and Blend features
- Create wireframe features using existing curves and surfaces
- Connect surfaces using Split, Trim and Join commands
Surface Design of Component-2
- Create basic wireframe and surface
- Create surfaces using Lofted, Filled, and Extruded surface
- Join surfaces using Knit surface
- Add thickness to surface
Pre-requisite: User should be a Mechanical Engineer and should have completed SOLIDWORKS Part Design course. The recommended version for practice exercise 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: 70 Mins
Downloadable Exercises: 5
Recommended Practice Hours: 5 Hrs
SOLIDWORKS Surface Design
Overview: Through this course, the user will be able to learn SOLIDWORKS Surface Design. On completion of this course, user will be able to: Understand the GUI of Surface DesignLearn the use of Surface toolsCreate WireframesGenerate surface using WireframeCreate surface models using advanced tools: 5 Hrs
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8 Hrs $60 - Understand the GUI of Surface Design
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SOLIDWORKS Weldments(C-MEC-NASWR19-WDT-ENL1)
Recommended Learning Duration: 8 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS Weldment Design. On completion of this course, user will be able to:
- Understand the GUI of Weldments
- Generate framework using 2D and 3D Sketches
- Create Structural Members using group of sketch segments
- Create Groups and Pierce Points
- Add Weld beads, insert Gussets and End Caps
Course Structure:
Introduction to Weldments
- About Weldments
- Importance and applications of Weldments
- Advantages and Disadvantages of Weldments
- About Welding Processes
- Types of Welding processes and their applications
Graphical User Interface
- Introduction to GUI of Weldment Design
- About Extruded Boss/Base and Trim commands
- Create Weldment Structure
- Use of Weld Bead Pierce Points, Gussets and End Caps
- Add Weld beads to Weldment structure
Weldment Design of Component-1
- Create framework using 3D or 2D Sketch
- Create the Structural Member
- Insert End Caps and Holes
Weldment Design of Component-2
- Create frameworks and Structural Member
- Add Groups
- Insert Gussets
- Apply color to components
Pre-requisite: User should be a Mechanical Engineer and should have completed SOLIDWORKS Part Design course. The recommended version for practice exercises is SOLIDWORKS 2019.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 85 Mins
Downloadable Exercises: 5
Recommended Practice Hours: 5 Hrs
SOLIDWORKS Weldments
Overview: Through this course, the user will be able to learn SOLIDWORKS Weldment Design. On completion of this course, user will be able to: Understand the GUI of WeldmentsGenerate framework using 2D and 3D SketchesCreate Structural Members using group of sketch segmentsCreate Groups and Pierce PointsAdd Weld beads, insert Gussets and End Caps: 5 Hrs
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8 Hrs $100 - Understand the GUI of Weldments
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SOLIDWORKS Mold Tool Design(C-MEC-NASWR19-MTD-ENL1)
Recommended Learning Duration: 8 Hrs
Overview: Through this course, the user will be able to learn SOLIDWORKS Mold Tool Design. On completion of this course, user will be able to:
- Understand the GUI and Categorization of tools
- Learn the use of analysis tools
- Create Parting Line and Parting Surface
- Learn the process to create Mold Tools
- Generate Shut-Off Surface and Create Core
- Assemble the Mold Tools
Course Structure:
Introduction to SOLIDWORKS Mold Tool Design
- Introduction to Mold Tools
- Advantage and Purpose of Mold Tools
- Types of Molding Methods
Graphical user interface of Mold Tool Design
- GUI of Mold Tools workbench
- Categorization of Mold Tools
- Use of Analysis Mold Tools
- Important Mold Tools
Mold Tool Design Process
- Apply Shut-Off Surface
- Create the core
- Process to create Mold Tools
- Assembly of Mold Tools
Mold Design of Component-1
- Check the Draft Analysis tool
- Apply the Requires Draft
- Create the Parting line
- Apply Shut-Off Surface
- Generate the Parting surface
- Create the Mold using the Tooling Split
Pre-requisite: User should be a Mechanical Engineer and should have completed SOLIDWORKS Part Design course. 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: 65 Mins
Downloadable Exercises: 5
Recommended Practice Hours: 5 Hrs
SOLIDWORKS Mold Tool Design
Overview: Through this course, the user will be able to learn SOLIDWORKS Mold Tool Design. On completion of this course, user will be able to: Understand the GUI and Categorization of toolsLearn the use of analysis toolsCreate Parting Line and Parting SurfaceLearn the process to create Mold ToolsGenerate Shut-Off Surface and Create CoreAssemble the Mold Tools: 5 Hrs
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8 Hrs $80 - Understand the GUI and Categorization of tools
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Assessment for CATIA V5
Duration: 10 Min
Assessment Type: Multiple Choice Questions (MCQ)
Available Language: English
Passing Score: 80 % (Number of Question to attempt 5)
Attempts: To a maximum of 3
Assessment for CATIA V5
Assessment Type: Multiple Choice Questions (MCQ) Available Language: EnglishPassing Score: 80 % (Number of Question to attempt 5)Attempts: To a maximum of 3
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10 Min Free Course -
Assessment for CATIA V5 Part Design
Duration: 60 Min
Assessment Type: Multiple Choice Questions (MCQ)
Available Language: English
Passing Score: 80 % (Number of Questions to attempt 5)
Attempts: To a maximum of 3
Assessment for CATIA V5 Part Design
Assessment Type: Multiple Choice Questions (MCQ) Available Language: EnglishPassing Score: 80 % (Number of Questions to attempt 5)Attempts: To a maximum of 3
More
60 Min $30 -
Assessment for AutoCAD Civil 2D Drafting
Duration: 25 Min
Assessment Type: Multiple Choice Questions
Pre-requisite: User should have completed AutoCAD Civil 2D Drafting Course.
Passing Score: 50%
Attempts: Maximum 3 Attempts
Assessment for AutoCAD Civil 2D Drafting
Assessment Type: Multiple Choice QuestionsPre-requisite: User should have completed AutoCAD Civil 2D Drafting Course.Passing Score: 50%Attempts: Maximum 3 Attempts
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25 Min $30