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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
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
More
84 Hrs $350 - AutoCAD 3D Modelling
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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
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
More
70 Hrs $1,000 - CATIA V5 Part Design
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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
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
More
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
48 Hrs $800 - CATIA V5 Part Design
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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
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
More
48 Hrs $475 - CATIA V5 Part Design
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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
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
More
70 Hrs $300 - SOLIDWORKS Part Design
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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
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 - CATIA V5 Part Design
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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
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 - SOLIDWORKS Part Design
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APQP Preview
Course Duration: 15 Min
Overview: This course is an introduction to APQP (advanced product quality planning process).The participant will be able to learn how to deploy APQP in their business process.
Pre-requisite: User should have basic knowledge of manufacturing and product design processes.
Training Method: Instruction Based & Quiz
Course Validity: 3 Months from the date of enrolment.
APQP Preview
Overview: This course is an introduction to APQP (advanced product quality planning process).The participant will be able to learn how to deploy APQP in their business process. Pre-requisite: User should have basic knowledge of manufacturing and product design processes. Training Method: Instruction Based & Quiz Course Validity: 3 Months from the date of enrolment.
More
15 Min Free Course -
APQP Process Implementation(C-MEC-AUTNA00-APQ-ENL1)
Recommended Learning Duration: 4 Hrs
Overview: Through this course, the user will be able to learn APQP Process Implementation. On completion of this course, user will be able to:
- Understand the overview of APQP Process Implementation in Automotive and Discrete Manufacturing Domain
- Learn practical orientation towards the real life application of APQP elements
- Differentiate the application of APQP from an OEM, Tier 1/Small and Medium Enterprise Perspective
- Gain insight into the practical application of the Print to PPAP process
- Establish linkages between New Product Development and APQP Process Implementation
Course Structure:
- People aspects for APQP adoption
- Pain points in adopting APQP
- Time bound Sourcing Decisions
- Components of CIR
- CIR Metrics
- Failure Mode and Effect Analysis(FMEA)
- Design FMEA
- Design Review Process
- Expectations in Design Verification Plan
- Prototype Build Control Plan
- Significance of Facilities, Tools and Gauges
- Deliverables of Engineering Prototypes
- Description of Verification Prototype
- Relevance of Drawing and Specifications
- Feasibility of Proposed Design
- Need of Manufacturing Process Flow Charts
- Systematic approach with Process Failure Mode Effect Analysis(PFMEA)
- Expectations in Measurement System Analysis(MSA)
- Pre-launch Control Plan
- Roles in Operator Process Instructions
- Considerations in Packaging Specifications
- Production Control Plan
- Relevance of Preliminary Process Capability Studies
- Production Validation
- Production Part Approval Process(PPAP)
- Part Submission Warrant @MRD
Pre-requisite: User should possess 5 plus years industry experience andhands-on application experience in Supplier Quality Assurance, Quality Engineering, Manufacturing Engineering, Vehicle Engineering in Automotive and Discrete Manufacturing.
Training Method: Virtual Video Learning.
Course Validity : 90 days from the date of enrolment.
Instructor Video Duration: 150 Mins
APQP Process Implementation
Overview: Through this course, the user will be able to learn APQP Process Implementation. On completion of this course, user will be able to: Understand the overview of APQP Process Implementation in Automotive and Discrete Manufacturing DomainLearn practical orientation towards the real life application of APQP elementsDifferentiate the application of APQP from an OEM, Tier 1/Small and Medium Enterprise PerspectiveGain insight into the practical application of the Print to PPAP processEstablish linkages between New Product Development and APQP Process Implementation
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4 Hrs $675 - Understand the overview of APQP Process Implementation in Automotive and Discrete Manufacturing Domain
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AutoCAD Essentials(C-MEC-NAACD18-ACE-ENL1)
Recommended Learning Duration: 24 Hrs
Overview: Through this course, the user will be able to learn AutoCAD Essentials. On completion of this course, user will be able to:
- Navigate AutoCAD User Interfaces
- Learn fundamental features of AutoCAD
- Know about Coordinate System
- Create 2D Drawings using Sketcher module
- Understand Layers concept
Course Structure:
Introduction to Engineering Drawing
- About Types of Drafting, Standards and Conventional Drawings
- Line types used in Drawing
- About Angle of Projections
- Drawing Sheets and Templates
- Standard Sheet Sizes
- Dimensions Terminology, Dimensioning Rules and Types
Introduction to AutoCAD Essentials
- About AutoCAD
- Learn to Install AutoCAD
- Launch software
- Learn to use options in launch screen of AutoCAD
- Explore tools under Title bar and Ribbon Toolbar
- Understand to use Drawing space
- Know to use Command Prompt window
- About Navigation bar and View Cube
- Use of Status Bar, File tab and Application menu
Coordinate System
- Learn about Coordinate System
- Understand Absolute, Relative and Polar Coordinate System
- Create objects in Absolute, Relative and Polar Coordinate System
AutoCAD Sketching
- Change Units and set Limits of drawing sheet
- Learn to use Draw tools
- Use tools under Modify Toolbar
- Discuss tools in Annotation Toolbar
- Apply tools learnt to create object
- Understand and create Layer
- Specify colours for each Layer
- Apply Line types and Line Weight to Layer
Pre-requisite: User should be a Mechanical/Civil Engineer.
Training Method: Instruction based and Hands-on practice.
Course Validity: 3 Months from the date of enrolment.
Instructor Video Duration: 82 Mins
Downloadable Exercises: 2
Recommended Practice Hours: 22 Hrs
AutoCAD Essentials
Overview: Through this course, the user will be able to learn AutoCAD Essentials. On completion of this course, user will be able to: Navigate AutoCAD User InterfacesLearn fundamental features of AutoCADKnow about Coordinate SystemCreate 2D Drawings using Sketcher moduleUnderstand Layers concept: 22 Hrs
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24 Hrs $60 - Navigate AutoCAD User Interfaces
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AutoCAD Civil 2D Drafting(C-CIV-NAACD18-DRF-ENL1)
Recommended Learning Duration: 16 Hrs
Overview: Through this course, the user will be able to learn AutoCAD Civil 2D Drafting. On completion of this course, user will be able to:
- Understand GUI of AutoCAD
- Learn 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
Course Structure:
Introduction to AutoCAD 2D Drafting
- About AutoCAD and it's applications
- Learn to install AutoCAD
- Learn to use options in launch screen of AutoCAD
- Identify icons available in User Interface
- Various methods to select objects
- Use of tools in Status bar
- Learn to snap points on objects
Draw and Modify Tools
- Use of Line, Polyline and creation of Rectangle and Polygon
- Create Circle with various methods
- Create Arc with different options
- Draw Ellipse
- Create Construction Line
- Create Ray and Multiple Points
- Divide and Measure object
- Apply Hatch and Gradient to area
- Use of Modify Panel tools
- Create Array of objects
Annotations and Dimensions
- Create Single Line and Multiline texts
- Create and apply new Text Styles
- Develop new Table Styles
- Insert Table Styles in drawing sheet
- Add dimensions to model
- Create Dimension Styles
Blocks and Layers
- Create and Insert Blocks
- Rename, Edit, Redefine and Write Blocks
- Create new Layers
- Understand Layer Properties
- Specify colours for each Layer
- Apply Line types and Line Weight to Layer
Exercises
- Draw Section View of Foundation
- Draw and detail the Plan and Section View of Dog–legged Stairs
- Draw Elevation and Section View of Panelled Door
- Add Dimensions and Annotations to Panelled Door
- Learn to draw Plan of building
- Create Site boundary, Walls, Openings, Stair and Railings
- Add Dimensions and Annotations to Plan of building
- Create Elevation and Section View of building
Changing Units and Inserting PDFs, Images
- Learn to change Units format for existing and imported drawings
- Import PDF and images as external reference to drawing
Documentation
- Create Title Blocks
- Save Title Blocks as Templates
- Import Title Block into other Project files
- Understand Print and Plot settings of drawing
- Save drawing
Pre-requisite: User should be a Civil Engineer/Architect.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 180 Mins
Downloadable Exercises: 7
Recommended Practice Hours: 12 Hrs
AutoCAD Civil 2D Drafting
Overview: Through this course, the user will be able to learn AutoCAD Civil 2D Drafting. On completion of this course, user will be able to: Understand GUI of AutoCADLearn use of various Draw and Modify commandsAdd Annotations and Dimensions to drawingUnderstand Blocks and Layers conceptDraw Foundation, Door and Stair modelsDraw Plan, Section and Elevation of building planImport PDFs and images to AutoCAD fileCreate and import Title blocksLearn Print and Plot settings: 12 Hrs
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16 Hrs $65 - Understand GUI of AutoCAD
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AutoCAD 3D Modelling(C-MEC-NAACD18-MOD-ENL1)
Recommended Learning Duration: 24Hrs
Overview: Through this course, the user will be able to learn AutoCAD 3D Modeling. On completion of this course, user will be able to:
- Navigate to AutoCAD 3D
- Work on various options of Solid Modeling
- Work on various options of 3D Surface Modeling
- Edit and create different Views
- Create models with help of practice exercises
Course Structure:
Introduction to AutoCAD 3D Modeling
- About AutoCAD 3D
- Switch the display of workspace
- Use of View Cube
- Explore different Views of object
- Change Views and Visual Styles
AutoCAD 3D Coordinate System
- Types of Coordinate Systems
- About Absolute Coordinate System
- Dynamically changing Coordinate System
Surface Modeling
- About Surface Modeling
- Set Units and Limits
- Create object
- Create Surface for object
- Add Region to model
- Use of Draw and Boolean commands
- Use of Polar Ray command
Composite Solid Modeling
- Create Composite Solid Model
- Use of commands like Extrude, Fillet and Press pull
- Use of Draw, Modeling and Solid Editing commands
Editing Model and Creating 2D View
- Apply Extrude Face, Move Face, Offset Face, Taper Face and Delete Face
- Create 2D view from 3D Model
- Recall about First Angle and Third Angle Projection
- Import base model into Layout
- Project and Place different Views of model
- Add Annotations and Dimensions
- Apply different Dimension Styles
- Import Template to create 2D views
Additional Exercises
- Practice exercises
- Draw basic Sketch
- Extrude Sketch
- Join Solids
Pre-requisite: User should be a Mechanical Engineer and should have completed AutoCAD Essentials Course.
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: 22 Hrs
AutoCAD 3D Modelling
Overview: Through this course, the user will be able to learn AutoCAD 3D Modeling. On completion of this course, user will be able to: Navigate to AutoCAD 3DWork on various options of Solid ModelingWork on various options of 3D Surface ModelingEdit and create different ViewsCreate models with help of practice exercises: 22 Hrs
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24Hrs $80 - Navigate to AutoCAD 3D
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AutoCAD Civil 3D Modelling(C-CIV-NAACD18-MOD-ENL1)
Recommended Learning Duration: 16 Hrs
Overview: Through this course, the user will be able to learn AutoCAD Civil 3D Modeling. On completion of this course, user will be able to:
- Understand the GUI of AutoCAD 3D Modeling
- Create Spaces and Zones
- Create 3D models of basic shapes and complex objects
- Convert the Solids, Meshes and Surfaces
- Create the model of a building
- Choose 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
Course Structure:
Introduction to AutoCAD 3D Modeling
- About AutoCAD and it’s uses
- About AutoCAD 3D Modeling
- Learn to Install AutoCAD
- Use the options in Launch Screen and User Interface
- About the 3D Coordinate System
- Use the Navigation bar View Cube
- Draw objects in different views
Commands
- Draw various shapes of 3D solids
- Use of Extrude and Press-pull on an object
- Create Loft, Sweep and Revolve
- Use of Boolean commands
- Explore the tools in Mesh Panel
- Edit the solid
- Extrude and taper a face
- Modify panel tools
- About the options available to Edit Solid and Surface
3D Building Modeling
- Create 3D Walls using 2D drawing
- Model a Window
- Create openings in Wall
- Position the Window
- Model and position the Door
- Create Stair
- Model the Railings
- Create Floor Slabs, Compound wall and Parapet Wall
Materials and Rendering
- Apply Materials to the building components
- Create Perspective Views
- Create and Render images
- Create Walkthrough
- Define Motion Path Animation
Documentation
- Convert 3D Models into 2D drawing
- Recall to import a template
- Align and place views on the document
- Create Section View
- Modify the Text Styles and Dimension Styles
- Generate Detailed View of sections
Pre-requisite: User should be a Civil Engineer and should have completed AutoCAD Civil 2D Drafting course.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 110 Mins
Downloadable Exercises: 1
Recommended Practice Hours: 12 Hrs
AutoCAD Civil 3D Modelling
Overview: Through this course, the user will be able to learn AutoCAD Civil 3D Modeling. On completion of this course, user will be able to: Understand the GUI of AutoCAD 3D ModelingCreate Spaces and ZonesCreate 3D models of basic shapes and complex objects Convert the Solids, Meshes and SurfacesCreate the model of a buildingChoose Materials for various building componentsProduce images using camera command, Render images/views and create animated walk through video of a buildingCreate the Documentation: 12 Hrs
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16 Hrs $80 - Understand the GUI of AutoCAD 3D Modeling
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Revit Architecture Essentials(C-CIV-NARIV18-ART-ENL1)
Recommended Learning Duration: 24 Hrs
Overview: Through this course, the user will be able to learn Revit Architecture, which is specially designed to support Building Information Modelling(BIM) workflow. On completion of this course, user will be able to:
- Understand the GUI and tools of Revit Architecture
- Learn to create and modify the primary components in building design
- Create documentation
Course Structure:
Introduction to Revit
- About Revit software
- Launch Revit application
- Create Project files
- GUI of Revit
- View Scale, Sun Path, Shadows, Crop View and Crop Region
Modify Tools
- Move, Copy, Rotate and Delete the elements
- Trim/Extend to Corner, Trim/Extend Single Element and Trim/Extend Multiple Element
- Align, Offset, Mirror, Split and Scale the elements
- Create Rectangular and Polar Array
- Pin and Unpin the elements
Residential Building Plan
- Set unit format for various parameters
- Create and modify Basic Walls
- Create Levels in the Project file
- Load Doors and Windows from Revit library to the Project file
- Place Doors and Windows in Walls
Commercial Building Plan
- Create and modify different types of Curtain Walls
- Embed Curtain Wall in a Basic Wall
- Add Grids and Mullions on Curtain Wall
- Create and modify Stacked Wall
- Add Floors and Roofs in a building plan
- Create openings in Floors and Roofs
- Create Rectangular opening in Walls
- Create Dormer opening in Roof
Modelling the site
- Create and modify Top Surface
- Create Split Surface
- Create Sub Region
- Create Building Pad
- Add Site and Parking components
Rooms and Color Fill Plans
- Define Room
- Subdivide large space using Room Separator tool
- Create Room Schedule
- Generate Color Fill Room Plans
- Edit Color Scheme and Fill Patterns
- Create Section View
- Add Tags and generate Color Fill Plan for Section View
Materials, Visualization and Rendering
- Assign Materials to modelling elements
- Apply presentation graphics to Elevation view and 3D view
- Render a model
- Save rendered images
Annotations and Drawing
- Add Align, Linear, Angular, Radius, Diameter and Arc length dimensions
- Spot Elevation, Spot Coordinate and Spot Slope
- Add and modify the Text
- Check the spelling and Find/Replace Text
- Attach tag on element
- Create Schedule of Windows and Doors
- Create and modify Sheet List
- Load Sheet into the Project file
- Place and modify the views in the drawing sheet
- Convert the drawing sheet into PDF file
Pre-requisite: User should be a Civil Engineer/Architect. The recommended version for 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: 120 Mins
Downloadable Exercises: 3
Recommended Practice Hours: 20 Hrs
Revit Architecture Essentials
Overview: Through this course, the user will be able to learn Revit Architecture, which is specially designed to support Building Information Modelling(BIM) workflow. On completion of this course, user will be able to: Understand the GUI and tools of Revit ArchitectureLearn to create and modify the primary components in building designCreate documentation: 20 Hrs
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24 Hrs $120 - Understand the GUI and tools of Revit Architecture
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Revit Structure(C-CIV-NARIV18-STR-ENL1)
Recommended Learning Duration: 20 Hrs
Overview: Through this course, the user will be able to learn Revit Structure. On Completion of this course, user will be able to:
- Create Levels, Grids lines, Columns, Beams, Footings, Floor slabs and other structural elements
- Add Reinforcement to Structural Elements
- About Detailing and creating Schedules for the models
- Import AutoCAD files to Revit project files
Course Structure:
Introduction
- Brief introduction on Revit structure
- Create and edit Levels in project file
- Create and edit Grid lines in project file
Creating structural elements
- Load Column types into project file
- Create Column types to required dimension
- Place Columns on Grid Lines
- Load Beam types into project file
- Draw Beams on Grid lines
- Add and edit Floor Slab in model
Foundations
- Load Foundation types into project file
- Edit Foundation Dimensions
- Add Isolated Foundations for Columns
- Add and modify Wall Foundations
- Add and modify Slab Foundations
Adding Reinforcement
- Add and edit Cover
- Add Longitudinal Rebar and Stirrups to Column
- Add Cover, Rebar and Stirrups to Beam
- Add Reinforcement to Walls with or without openings
- Add Reinforcement to Slab
- Modify spacing and diameter of Rebar
Detailing and Schedules
- Add Reinforcement to Footing model
- Annotate Rebar
- Edit tags added to Rebar
- Create Schedule of Rebar
Importing AutoCAD file
- Settings involved in importing CAD file
- Import CAD drawing into Revit project file
- Create Gridlines, Columns and Beams using CAD drawing as reference
Truss
- Load Trusses into project file
- Draw Trusses
- Edit Truss properties
- Apply coping to Truss members
Pre-requisite: User should be a Civil Engineer and should have completed Revit Architecture Essentials course. The recommended version for 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: 80 Mins
Downloadable Exercises: 7
Recommended Practice Hours: 18 Hrs
Revit Structure
Overview: Through this course, the user will be able to learn Revit Structure. On Completion of this course, user will be able to: Create Levels, Grids lines, Columns, Beams, Footings, Floor slabs and other structural elementsAdd Reinforcement to Structural ElementsAbout Detailing and creating Schedules for the modelsImport AutoCAD files to Revit project files: 18 Hrs
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20 Hrs $120 - Create Levels, Grids lines, Columns, Beams, Footings, Floor slabs and other structural elements
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Revit MEP Essentials(C-CIV-NARIV18-MEP-ENL1)
Recommended Learning Duration: 16 Hrs
Overview: Through this course, the user will be able to learn Revit MEP. On completion of this course, user will be able to:
- 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
Course Structure:
Introduction
- Concept of BIM
- About Revit MEP application
- Explore complexity in designing MEP systems in multistory building
- GUI of Revit MEP
- Create and edit Spaces
- Add and edit Color Fill Plans for Spaces
- Create and edit Zones
- Create new Spaces within Zone
HVAC Systems
- About HVAC systems
- Link Revit model to Mechanical Template
- Place HVAC components in model
- Create and edit Supply and Return Air Duct Systems
- Learn to generate layout for Air Duct Systems both automatically and manually
- Resize Ducts
- Generate report on Heating and Cooling Loads
Hydronic Piping Systems
- About Hydronic Piping Systems
- Load components into project file
- Place components in model
- Create and edit Piping System
- Generate layout for Piping System
- Edit Piping System manually
Electrical Systems
- Load and place Electrical components in model
- Create and edit Power Systems
- Automatic and Manual creation of Wiring Circuit
- Create Switch Systems for lighting fixtures
- Create and edit Panel Schedule
- Annotate Electrical components
- Draw Conduits in model
- Create Parallel Conduits
- Draw path for Cable Tray
Plumbing
- Load and place required Plumbing fixtures
- Create and edit Water Piping Systems
- Generate layout for Piping System automatically
- Create Water Piping System manually
Fire Protection System
- Place Sprinklers in ceiling plan
- Create and edit Piping System
- Generate layout for Piping System to create wet fire protection system
Documentation
- Load Sheet to project file
- Edit information available on Sheet
- Place and edit Views on Sheet
- Create and edit Sheet list
- Explore Print setup options
Pre-requisite: User should be a Civil Engineer and should have completed Revit Architecture Essentials course. The recommended version for 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: 126 Mins
Downloadable Exercises: 10
Recommended Practice Hours: 12 Hrs
Revit MEP Essentials
Overview: Through this course, the user will be able to learn Revit MEP. On completion of this course, user will be able to: Understand the GUI of Revit MEPCreate Spaces and ZonesLearn to create HVAC SystemsGenerate Heating and Cooling Load Calculation ReportCreate Hydronic Piping SystemCreate Electrical Systems and Electrical Panel SchedulesCreate Plumbing and Fire Protection SystemCreate Documentation: 12 Hrs
More
16 Hrs $100 - Understand the GUI of Revit MEP
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CATIA V5 Part Design-I(C-MEC-V5CAT20-PDG-ENL1)
Recommended Learning Duration: 8 Hrs
Overview: Through this course, the user will be able to learn CATIA V5 Part Design. On completion of this course, user will be able to:
- Create 3D models in CATIA V5 Part Design
- Understand the various options of Sketch-Based Features
- Create Dress-up Features and Translation Features
- Use the Reference Elements
Course Structure:
Introduction to CATIA
Introduction to Sketch
- Basic steps involved in Sketch creation
- Draw a sketch using Profile toolbar
Profile Toolbar
- Draw predefined profiles like Rectangle, Parallelogram and Elongated Hole
- Create Center and Radius Circle, Three-Point Circle and Circle with Coordinates
- Create Three-Point Arc, Arc with Radius and Distance and Spline
- Conic tools-Ellipse, Parabola and Hyperbola
- Line commands-Two-Point Line, Axis and Infinite Line
- Point commands-Point with Coordinates
Constraint and Operations Toolbar
- Constrain a sketch
- Constraints Defined in Dialog Box
- Create Corner and Chamfer
- Trim, Quick Trim and Mirror
View Toolbar and Sketch Tools
- Sketch Tools like Grid and Construction Line
- Geometrical constraints and Dimensional constraints
- Fit All In and Recentre
- Pan, Rotate, Zoom In/Out and Multi-View
Create a Sketch
- Draw a basic sketch
Graphical User Interface of CATIA V5
- Access the CATIA V5 workbench
- Toolbars available in Part Design workbench
Creation of base Sketch
- Read the drawing
- Create base sketch
- Create Pad
Sketch Based features
- Model using Pocket, Stiffener and Mirror features
Applying the Dress-up Features
- Define Holes
- Apply Edge Fillets
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: 120 Mins
Downloadable Exercises: 9
Recommended Practice Hours: 5 Hrs
CATIA V5 Part Design-I
Overview: Through this course, the user will be able to learn CATIA V5 Part Design. On completion of this course, user will be able to: Create 3D models in CATIA V5 Part DesignUnderstand the various options of Sketch-Based FeaturesCreate Dress-up Features and Translation FeaturesUse the Reference Elements: 5 Hrs
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8 Hrs $55 - Create 3D models in CATIA V5 Part Design
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CATIA V5 Part Design-II(C-MEC-V5CAT20-PDG-ENL2)
Recommended Learning Duration: 8 Hrs
Overview: Through this course, the user will be able to learn the advanced tools in CATIA V5 Part Design. On completion of this course, user will be able to:
- Understand various options of Sketcher workbench
- Create 3D models in Part Design workbench
- Create Sketch-Based Solid features
- Generate Dress-up features
- Generate Translation features
- Understand the use of Reference Elements like 3D Points, Planes, Lines and Splines
- Generate Relations and Parameters
- Create a Design Table
- Apply Boolean Operations
Course Structure:
Design of Component-1
- Introduction to GUI and the components
- Launch Part Design workbench
- Read the drawing and create the base Sketch
- Create a fully constraint sketch
- Create Pad, Edge Fillet, Shell, Reference Plane, Hole, Mirror, Countersunk Hole and Rectangle Pattern
- Apply Material
Design of Component-2
- Create basic Sketch
- Create Sketch Based Features
- Apply Dress-Up Features
- Create Pocket
Design of Component-3
- Create basic Sketch and Part Features
- Constrain the sketch
- Perform Trim
Design of Component-4
- Create basic Sketch and Part Features
- Project 3D Element
- Create Thread/Tap
Design of Component-5
- Create basic Sketch and Part Features
- Create Shaft
Design of Component-6
- Create basic Sketch and Part Features
- Create Reference Elements
Design of Component-7
- Read the drawing
- Create Point, Line and Plane
- Create Geometric set
- Constrain the sketch with Reference Elements
- Create Sketch Based and Dress-Up Features
Design of Component-8
- Create basic Sketch and Part Features
- Apply Relations using Formula
- Create Value List
- Create new Parameters
Design of Component-9
- Create Design Table
- Select Parameters to insert
- Create Excel sheet
- Configuration of Parameters
- Edit Design Table in Excel sheet
- Generate Knowledge Report
Design of Component-10
- Concept of Boolean Operations
- Create Basic Sketch and Part Features
- Insert a new body using Boolean Operation–Assembly
- Add Draft angle
- Create Add and Remove operations
- Give colour code to inserted sketches
Pre-requisite: User should be a Mechanical Engineer and should have completed CATIA V5 Part Design-I course. 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: 72 Mins
Downloadable Exercises: 10
Recommended Practice Hours: 6 Hrs
CATIA V5 Part Design-II
Overview: Through this course, the user will be able to learn the advanced tools in CATIA V5 Part Design. On completion of this course, user will be able to: Understand various options of Sketcher workbenchCreate 3D models in Part Design workbenchCreate Sketch-Based Solid featuresGenerate Dress-up featuresGenerate Translation featuresUnderstand the use of Reference Elements like 3D Points, Planes, Lines and SplinesGenerate Relations and ParametersCreate a Design TableApply Boolean Operations: 6 Hrs
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8 Hrs $55 - Understand various options of Sketcher workbench
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CATIA V5 Surface Design(C-MEC-V5CAT21-GSD-ENL1)
Recommended Learning Duration: 16 Hrs
Overview: Through this course, the user will be able to learn CATIA V5 Surface Design. On completion of this course, user will be able to:
- Understand the approach to Generative Shape Design(GSD) workbench
- Understand the best practices in GSD
- Create Geometrical Set
- Create the wireframe
- Create and modify surfaces
- Perform surface operations
- Convert Surface into Solid
Course Structure:
Design of Surface Model-1
- Access Generative Shape Design workbench
- Create wireframe
- Create basic surface features
- Create Offset Plane
- Generate Multi-section surface
- Use Revolve feature
- Trim surface
- Create Sweep and Extrude surface
- Join the surface
Design of Surface Model-2
- Create Sweep surface with Guide curves and Tangent surface
- Project the profile
- Create Intersection
- Fill the surface
Design of Surface Model-3
- Create basic wireframe
- Create Points in different quadrant
- Create Spline and Multi-section surface
- Create 3D Line
- Modify the surface
- Extract wireframe
- Convert Surface to Solid
Design of Surface Model-4
- Load the wireframe input
- Create Geometrical Set
- Create basic surface features
- Split surface
- Modify the surface features
- Apply Styling features
- Project the wireframe
- Create Corner
- Extract Boundary of surface
- Mirror the feature
Design of Surface Model-5
- Create the basic surface features
- Sweep surface by using Draft direction and angle
- Analyze the surface for error
- Create final feature
- Create Plane on curve
Pre-requisite: User should be a Mechanical Engineer and should have completed CATIA V5 Part Design-I and CATIA V5 Part Design-II courses. 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: 63 Mins
Downloadable Exercises: 5
Recommended Practice Hours: 14 Hrs
CATIA V5 Surface Design
Overview: Through this course, the user will be able to learn CATIA V5 Surface Design. On completion of this course, user will be able to: Understand the approach to Generative Shape Design(GSD) workbenchUnderstand the best practices in GSDCreate Geometrical SetCreate the wireframeCreate and modify surfacesPerform surface operationsConvert Surface into Solid: 14 Hrs
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16 Hrs $155 - Understand the approach to Generative Shape Design(GSD) workbench
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CATIA V5 Sheet Metal Design(C-MEC-V5CAT21-SMD-ENL1)
Recommended Learning Duration: 12 Hrs
Overview: Through this course, the user will be able to learn CATIA V5 Sheet Metal Design. On completion of this course, user will be able to:
- Understand the Sheet Metal parameter settings
- Create Wall, Cut Out, Hole, Hem, Tear, Drop and Hopper
- Understand types of Flanges and Stamping
- Create Punch and Die
- Understand the use of Unfolded and Folded Views
- Generate DXF file and Manufacturing Detail Drawing
Course Structure:
Bracket Support- 1
- Introduction to Sheet Metal
- Enter into Generative Sheet Metal Design workbench
- GUI of Sheet Metal Design workbench
- Define the Sheet Metal parameters
- Create Extrusion, Wall, Wall on Edge with Bend
- Create Cylindrical Bend, Hole and Flanged Hole
- Generate the Cut Out and Hem
Cover- 2
- Create basic sheet metal features
- Define Circular Stamp, User Stamp, Hole and Mirror
- Create Free form surface, Bend from Flat and Dowel
- Define Flanged on Curved edge
- Create Hem, Tear, Hopper and Rolled wall
- Generate DXF File and Use of View management
- Modify the Sheet Metal Design
- Generate Manufacturing Detail Drawing
Bracket- 3
- Create basic Sheet Metal features
- Define Extrusion, Wall on Edge with Bend
- Create Stiffening Rib and Corner
- Modify the feature
Stapler Magazine- 4
- Create basic Sheet Metal features
- Create Extrusion, Circular Pattern and Cylindrical Bend
- Modify the feature
Door Hinge- 5
- Create Extrusion, Wall, Cut Out, Hole, User-defined Flange and Rectangular Pattern
- Create Countersunk Hole and Corner
- Generate the Unfolded View
Hinge Bracket- 6
- Create basic Sheet Metal features
- Create Flange, Hole and Circular Cut Out
- Generate User Defined Stamp and Circular Stamp
Sheet Metal Support- 7
- Create User flange and Bend from Flat
- Define Tear Drop and Curve Stamp
Punch and Die- 8
- Create Punch and Die
- Define Hopper and Rolled walls
Pre-requisite: User should be a Mechanical Engineer and should have completed CATIA V5 Part Design-I and CATIA V5 Part Design-II courses. 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: 135 Mins
Downloadable Exercises: 8
Recommended Practice Hours: 8 Hrs
CATIA V5 Sheet Metal Design
Overview: Through this course, the user will be able to learn CATIA V5 Sheet Metal Design. On completion of this course, user will be able to: Understand the Sheet Metal parameter settingsCreate Wall, Cut Out, Hole, Hem, Tear, Drop and HopperUnderstand types of Flanges and StampingCreate Punch and DieUnderstand the use of Unfolded and Folded ViewsGenerate DXF file and Manufacturing Detail Drawing: 8 Hrs
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12 Hrs $165 - Understand the Sheet Metal parameter settings