Creo

Creo, from xtrude, is an absolute set of concept plan, 3d and 2d engineering software. Thing that makes creo unique is that it has taken into account how product design and development is done in current days using varied tools. 

Creo tool comprises of: least amount of errors, a smaller amount of fragment and redraft; earlier occasion-to-bazaar, invention excellence, plan effectiveness. 

The use of Creo:

Engineers and casual users both are assisted by creo’s wide range of products in taking and contributing ideas graphically while transferring their smart concept into physical products in the similar environment, although idea can be con tribute by means of documents for example MCAD to Microsoft word to ECAD drawings.

There is a need of having keen knowledge by the product designers and engineers of virtually developing a product design. 2D to 3D conversion is made by Creo, and simulation and analysis of 3D geometry usage is possible. From Creo parametric design software can be used by CAD users, as they can work easily together during unusual and non- CAD users as assisted by 3D direct modeling.

Learning Outcome

• You will get to know evolutionary thought design, and free form 2D
• You will get to know thorough designing and production of late-phrase design alter.
• You will get to know, how to draw hydraulic, mechanical and electrical systems.
• You will be able to do direct drafting/ modeling and parametric 3d modeling.
• You will get to know how to design model, validate design and visualize product design.

Course Syllabus

Introduction to the Creo Parametric Basic Modeling Process

• Creo Parametric Basic Modeling Process

Understanding Creo Parametric Concepts

• Understanding Solid Modeling Concepts
• Understanding Parametric Concepts
• Understanding Model-Centric Concepts
• Understanding Feature-Based Concepts
• Understanding Associative Concepts
• Recognizing File Extensions

Using the Creo Parametric Interface

• Understanding the Main Interface
• Understanding the Web Browser
• Setting the Working Directory and Opening and Saving Files
• Understanding the Folder Browser
• Understanding the Ribbon Interface
• Managing Files in Creo Parametric

Creating Sketcher Geometry

• Reviewing Sketcher Theory
• Modifying the Sketcher Display
• Sketching with on the fly constraints
• Sketching Centerlines
• Sketching Circles
• Sketching Circular Fillets and Chamfers
• Understanding Design Intent
• Utilizing Constraints
• Sketching Lines
• Sketching Rectangles
• Sketching Arcs

Using Sketcher Tools

• Understanding Construction Geometry Theory
• Using Geometry Tools within Sketcher
• Dimensioning Entities within Sketcher
• Sketcher Conflicts
• Sketching Points
• Manipulating Sketches within Sketcher
• Placing Sections into Sketcher

Creating Sketches for Features

• Creating Sketches (‘Sketch’ Feature)
• Utilizing Sketch Referenceshes
• Specifying the Sketch Setup
• Using Entity from Edge within Sketc

Advanced Sketching

• Using Sketched Curves
• Sketching Elliptical Fillets
• Modifying Splines (Basic & Advanced)
• Sketching Conics
• Analyzing Sketcher Convert Options
• Sketcher Diagnostic Tools
• Sketching Ellipses
• Sketching Splines
• Importing and Exporting Spline Points
• Sketching Text
• Analyzing Sketcher Dimension Options

Creating Extrudes, Revolves, and Ribs

• Creating Solid Extrude Features
• Common Dashboard Options: Extrude Depth
• Common Dashboard Options: Thicken Sketch
• Common Dashboard Options: Revolve Angle
• Creating Rib Features
• Adding Taper to Extrude Feature
• Common Dashboard Options: Feature Direction
• Creating Solid Revolve Features
• Automatically Adding and Removing Material

Using the Creo Parametric Interface – Part 2

• Understanding Basic Display Options
• Understanding the View Manager
• Creating Style States using the View Manager
• Setting Up New Part Models
• Analyzing Basic 3-D Orientation
• Creating and Managing View Orientations
• Understanding Basic Color and Appearance Options

Selecting and Editing

• Understanding Creo Parametric Basic Controls
• Using Keyboard Shortcuts
• Editing Features and Regenerating
• Deleting and Suppressing Items
• Using Drag Handles and Dimension Draggers
• Renaming Objects
• Activating and Editing Models

Creating Datum Features: Planes and Axes

• Creating Datum Features Theory
• Creating Datum Planes
• Creating Datum Axes

Utilizing Internal Sketches and Embedded Datums

• Creating Internal Sketches
• Creating Embedded Datum Features

Creating Sweeps and Blends

• Creating Sweeps with Open Trajectories
• Analyzing Sweep Feature Attributes
• Experimenting with Parallel Blend Attributes
• Creating Sweeps with Closed Trajectories
• Creating a Parallel Blend Protrusion or Cut
• Analyzing Parallel Blend Section Tools

Creating Holes and Shells

• Common Dashboard Options: Hole Depth
• Creating Linear Holes
• Creating Coaxial Holes

Advanced hole Creation

• Creating Standard Holes
• Creating Sketched Holes

Advanced Shells

• Analyzing Shell References and Thickness Options
• Extending Shell Surfaces
• Excluding Surfaces from Shells
• Analyzing Shell Corner Options

Creating Rounds and Chamfers

• Creating Rounds by Selecting Edges
• Creating Rounds by Selecting Two Surfaces
• Creating Round Sets
• Creating Chamfer Sets
• Creating Rounds by Selecting a Surface and Edge
• Creating Full Rounds
• Creating Chamfers by Selecting Edges

Advanced Rounds and Chamfers

• Analyzing Round Profile
• Creating Rounds Through Curve
• Auto Round
• Analyzing Chamfer Creation Methods
• Creating Corner Chamfers
• Analyzing Round Creation Methods
• Creating Variable Radius Rounds
• Analyzing Advanced Chamfer Dimensioning Schemes
• Analyzing Additional Chamfer Types
• Creating Rounds and Chamfers by Reference

Drafts

• Creating Draft Features
• Analyzing Draft Hinges and Pull Direction
• Creating Drafts with Multiple Angles
• Creating Drafts Split at Sketch
• Creating Drafts Split at Surface
• Creating Basic Split Drafts
• Drafting Intent Surfaces
• Using the Extend Intersect Surfaces Draft Option
• Creating Drafts Split at Curve
• Creating Drafts with Variable Pull Direction

Variable Section Sweeps

• Creating Variable Section Sweeps using a Constant Section
• Creating Variable Section Sweeps using Constant Normal Direction
• Analyzing Horizontal and Vertical Control in a Variable Section Sweep
• Creating Variable Section Sweeps with Tangent Trajectories
• Using Trajpar with Solid Features
• Creating Variable Section Sweeps Normal to Trajectory
• Creating Variable Section Sweeps Normal to Projection
• Creating Variable Section Sweeps Utilizing Multiple Trajectories
• Analyzing Variable Section Sweep Trajectory Options and Rules
• Using Trajpar and Datum Graphs with Solid Features

Helical Sweeps

• Understanding Helical Sweeps Theory
• Creating Helical Sweeps for Threads
• Utilizing Variable Sections in Helical Sweeps
• Creating Helical Sweeps for Springs
• Analyzing Helical Sweep Profile and Pitch Variations

Swept Blends

• Understanding Swept Blend Theory
• Creating Swept Blends by Sketching Sections
• Creating Swept Blends by Selecting Sections
• Analyzing Swept Blend Section Options

Advanced Datum Features

• Creating Datum Graphs
• Creating Points On or Offset from Entities
• Creating Points using an Offset Coordinate System
• Creating Curves Through a Point or Vertex
• Projecting and Wrapping Curves
• Creating Offset Curves
• Creating Datum Coordinate Systems
• Creating Points at Intersections
• Creating Sketched Points
• Creating a Curve Through a Point Array
• Trimming Curves

Creating Patterns

• Direction Patterning in the First Direction
• Axis Patterning in the First Direction
• Creating Reference Patterns of Features
• Deleting Patterns or Pattern Members
• Direction Patterning in the Second Direction
• Axis Patterning in the Second Direction
• Creating Reference Patterns of Components

Advanced Patterns

• Creating Dimension Patterns in One Direction
• Creating Rotational Dimension Patterns
• Understanding Pattern Regeneration Options
• Specifying Fill Pattern Settings
• Creating Pattern Tables
• Creating Dimension Patterns in Two Directions
• Unpatterning Group Patterns
• Creating Fill Patterns
• Creating Curve Patterns
• Creating Point Pattern

Group, Copy, and Mirror Tools

• Creating Local Groups
• Moving and Rotating Copied Features
• Mirroring All Features
• Copying and Pasting Features
• Mirroring Selected Features
• Creating Mirrored Parts

Measuring and Inspecting Models

• Analyzing Model Units and Mass Properties
• Creating Planar Part Cross-Sections
• Measuring Models
• Measuring Global Interference

Advanced Reference Management

• Editing Feature References
• Replacing Sketcher References
• Replacing Feature References
• Replacing Sketcher Geometry

Relations and Parameters

• Understanding Relation Theory
• Understanding Basic Relation Operators and Functions
• Exact Relation
• Understanding Advanced Parameter Options
• Creating Relations for Patterns
• Understanding Relation Types
• Understanding Advanced Relation Operators and Functions
• Creating Parameters
• Creating Relations
• Creating Section Relations

Advanced Layers

• Understanding Layers
• Creating and Managing Layers
• Creating Layer Rules

Flexible modeling

• Understanding flexible modeling basics
• Applying selection and tools
• Utilizing editing and transformations
• Working with recognition
• Using propagation and other editing features