Description
Recommended Learning Duration: 62 Hrs
Overview: Through this Multicad Part Design Bundle, the user will be able to learn part design in the following software.
- CATIA V5
- SIEMENS NX
- SOLIDWORKS
- PTC Creo
- INVENTOR
On completion of this course, user will be able to learn the following.
- Create basic and advance sketch
- Create 3D models
- Create Holes and Threads
- Apply the dress-up features
- Apply transformation features like mirror, symmetry
- Apply Scale and Affinity
- Concept of Boolean Operations
- Create Design Table
Course Structure:
Introduction to CATIA Part Design
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
Sketch-Based Features
- Create Drafted Filleted Pad and MultiPad
- Create Drafted Fileted Pocket and Multi Pocket
- Create Holes and Threads
- Create a Shaft and Groove
- Create Stiffener and Solid combine
Dress-Up Features
- Create different types of Fillets like Edge Fillet, Variable Edge Fillet, Face-Face Fillet and Tritangent Fillet
- Draft with different options
- Create Chamfer
Transformation Features
- Use of Translation, Rotation, Symmetry and Axis to Axis
- Creating different types of Pattern’s like Rectangular, Circular and User-defined pattern
- Apply Scale and Affinity
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
SIEMENS NX Part Design
Introduction to Part Design
- About NX application
- Launch the application
- Understand the GUI
- Learn the different options in Part Design
Sketch-Based Features
- Open existing part files
- Draw the profiles
- Create Rectangle
- Draw line and Reference line
- Create arc
- Draw the Circle
- Insert Points
- Create Studio Spline
- Draw Polygon, Ellipse, and Conic
- Insert Planes, Datum Axis and Coordinates
Part-Based Features
- Extrude sketch
- Create Revolve body
- Insert Hole
- Create the Shell
- Create Groove
- Create Mirror Feature
Design of Component-1
- Understand the design of parts
- Create the basic Sketch and Part feature
- Insert Plane
- Create the Hole
- Apply the Shell
- Mirror part features
- Use of Blend
SOLIDWORKS Part Design
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
PTC Creo Part Design
Introduction to Part Design
- About Creo application
- Launch the application
- Understand the GUI
- Customize the settings
Basic Sketching Features
- Create Line, Rectangle, Circle, Arc
- Create Ellipse and Spline Tool
- Apply Fillet and Chamfer
- Apply Constrain
- Sketch a profile
- Modify the profile
- Editing the dimension
- Insert Planes, Datum Axis and Coordinates
Part-Based Features
- Extrude sketch
- Create Revolve body
- Create Sweep
- Apply Round, Chamfer, Shell
- Create Pattern
- Create Mirror Feature
Design of Component
- Understand sketch creation and part modeling
- Create the basic Sketch and Part feature
- Insert Plane
- Create the Hole
- Mirror part features
- Mirror part
- Use of Blend
INVENTOR Part Design
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 Circle and Arc
- Create Rectangle and Slot
- Create Chamfer and Fillet
- Add Text
- Create 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 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 CATIA V5 R25, NX 12 , SOLIDWORKS 2019, Creo 7.0.3, Autodesk Inventor 2019.
Training Method: Instruction based and Hands-on practice.
Course Validity: 90 days from the date of enrolment.
Instructor Video Duration: 585 Mins
Downloadable Exercises: 35
Recommended Practice Hours: 43 Hrs
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