Creo, from PTC, is a complete suite of concept design, 2D, 3D, simulation & analysis engineering software. What is unique about Creo is that it has taken into account how product design and development is done in modern days, using diverse tools, with the participation of people of a variety of skills, from different geographical locations.

The key promises of Creo tools include: faster time-to-market, product quality, design efficiency; minimum errors, less scrap and rework.

Product designers and engineers are required to have complete knowledge of developing a product design virtually. Creo comes with all the tools that are required for completing a product design.

Creo’s wide range of products facilitate both engineers and casual users capture and contribute ideas graphically, and take their fleeting concepts into physical products within the same environment, though idea can be contributed using over 200 document types such as Microsoft Word to MCAD to ECAD drawings.

While CAD users can make use of parametric design software from Creo, they can easily collaborate with infrequent or non-CAD users as the software lets them do 3D direct modeling.

Creo makes conversion of 2D to 3D, and usage of 3D geometry for simulation and analysis possible.

There are innumerable list of companies using CREO (Pro/E). The lists of diverse companies based on CREO (PRO/E) for the designing are:
Honeywell
Hyundai Powertech
Microsoft
Godrej and Boyce Manufacturing
GE health care and more....
The companies are from different industries like Airlines, Automotive, Aerospace, Medical industry, Electronics and High tech, Consumer products. All the major engineering industries use applications of CREO. Hence the list is enormous. CETPA offers vocational learning of the technology that will assist them to have the advance learning of technology after having basic knowledge as this will help them to grab best job opportunity with more attractive salary.

Learning Objectives:

We help you master the following capabilities of Creo:

Creo’s 2D solutions: Creo’s Sketch, Layout, and Schematics products allow users to quickly sketch ideas, diagram complex systems, and create detailed engineering concept drawings.
Creo’s 3D solutions: Creo’s Parametric, Direct, and Options Modular, lets users create 3D models by advanced CAD users as well as casual users.
Simulation: Creo’s Stimulate lets users do virtual prototyping to avoid creating multiple physical prototypes, and over designing of products.
Visualization: Creo’s MCAD, ECAD, View Mobile, and Illustrate modules help engineers and designers visualize all product data available in any media formats.

Learning Outcome:

You will know how to sketch, model, validate design and visualize product design.
You will know how to do free form, 2D, and evolutionary concept designs; do detailed designing and making late-stage design changes; and you will also know how to diagram electrical, mechanical and hydraulic systems.
You will know how to do direct drafting, direct modeling as well as parametric 3D modeling.
You will know how to validate a design with engineering simulation and check whether the product design can meet the functional requirements. CAE analysts and designers can test a product for tolerance, behaviour, mechanism dynamics, mechanical motion, performance dimensions, electric clearances, and creepage.

INTRODUCTION OF DESIGN CONCEPT AND PROCEDURE
 Detailed Concept Of Cad
 Need & Importance Of Cad
 Overview About Actual Designing In Industries, Fundamentals Of Design And Its Implementation Methods
 All Characteristics Of Creo (Pro/E) To User Friendly Atmosphere
 Superiority Of Creo (Pro/E) With Its Use And Demand In Industries

INTERFACE WITH GUI
 Menu Manager
 View Toolbar
 Controlling The View
 Model Display
 Datum Display Toolbar
 Working With Document
 File Tools
 System Colors
 Selecting The Entities
 Working With Mouse Button
 Selecting The Working Directory For Saving The Document
 Model Tree
 Pro-E Help Option
 Document In Session
 Set The Parameter

SKETCHER
 Sketcher Diagnostics Tools
 Creating The Vector Shapes
 Working With Grids
 Snap Mode
 Creating The Coordinate
 Creating Spline And Its Geometry Control
 Display Dimension
 Work With Weak And Strong Dimension
 Edit Definition
 Creating Axis For Reference
 Work With Geometrical And Dimensional Constraint
 Insert Design From Palette
 Creating Text
 Import Data From Dxf. File
 Deleting And Trimming The Sketch Entities
 Analyze The Sketch For Opening Edges
 Modifying The Design

BASE FEATUES OF PART DESIGNING
 Creating Solid Geometry
 Selecting The Part Environment
 Selecting Datum Planes (Top, Front, Right)
 Creation Of Sketch For Solid Modeling
 Converting An Area Into Volume Using Extrude Features
 Define The Limits Of Extrusion And Its Controls
 Remove The Cavity From The Solid Part
 Creating Revolute Design
 Cut Out Part By Revolute
 Sweep Feature
   o Protrusion
   o Thin Protrusion
   o Cut Sweep
   o Surfaces
 Blend Features
   o Parallel Blend
   o Rotational Blend
   o Blend Surfaces
 Create Solid Profile Using Swept Blend Features
 Creating Spring By Helical Sweep
 Boundary Blend
 Creating Axis And Points
 Generate New Datum Planes
 Creating Datum Curves

EDITING FEATURES OF PART DESIGNING
 Mirroring Features
 Moving Features
 Suppressing Features
 Copying Features
 Deleting Features
 Patterning Features

ENGINEERING FEATURES OF PART DESIGNING
 Create Draft
   o Constant Angle Draft
   o Variable Angle Draft
 Creating Drill Hole
 Rib Features
 Create A Shell Body
Creating Round And Corners

SETUP & UTILITIES
 Select The Material
 Specify The Accuracy
 Mass Properties
 Setting The Pro/E Environment

ASSEMBLY MODELING
 Top Down Assembly
 Bottom Up Assembly
 Inserting The Component Into Assembly
 Create A New Component In Assembly
 Placing &Replacing The Component
 Defining Assembly Constraint
   o Define Mating Between Parts
   o Create Align Constraint
   o Define Tangency
   o Define Point On Line &Surface
   o Automatic Constraint
   o Fix The Part
 Create Multiple Copies Of Parts In Assembly
 Flexible Component
 Edit Constraint Definition
 Patterning
 Change The Order Of Component
 Deleting Component
 Explode The Assembly
Creating Bill Of Material (BOM)

DRAFTING (DETAILING)
 Introduction Of Drafting
 Need & Importance Of Drafting
 Starting The Drafting Workbench
 Defining The Sheet & Sizes
 Adjusting Of Drawing Sheet According To Object/Assembly
 Types Of Projection
 Using Predefined Drafting Styles
 Scaling The Drafted View

GENERATIVE DRAFTING
 What Is Detailing?
 Setting Up And Configuring Drawings
 Using Drawing Tree, Layers, And Drawing Parameters
 Creating Drawings
 Adding Models To Drawings
 Creating The Drawing Layout
 Using Model Grids
 Inserting OLE Objects
 Importing Draft Data From External Applications
 Working With Drawing Tables
   o Creating Drawing Tables
   o Generate Report For Drawing 
   o Using BOM Balloons
 Add Dimension In The Drawing
 Create A Detail View
 Working With Dimension Display

INTERACTIVE DRAFTING
 Sketching In Drawing Mode
 Drafting In Drawing Mode
 Working With Draft Cross Sections
 Relating Detail Objects
 Grouping Detail Objects
 Reviewing And Publishing Drawings
   o Reviewing Drawings
   o Comparing Drawings
   o Publishing Drawings
   o Exporting Drawings To A Pdf Format
   o Exporting Drawings To Other Formats
 Using Drawing Representations And Programs
   o Working With Drawing Representations
   o Creating Drawing Programs

DATA EXCHANGE
 Converting Files For Transferring
 Converting Into IGES, STEP,PARASOLID Etc.
 Convert Into Jpeg, Mpeg, Tiff, Pdf Files

SHEET-METAL DESIGNING
INTRODUCTION TO THE CREO SHEET-METAL DESIGN PROCESS
 Creo Sheet-Metal Design Process
SHEET-METAL MODEL FUNDAMENTALS
 Sheet-Metal Model Fundamentals
 Understanding Developed Length
 Creating a New Sheet-Metal Part in Assembly Mode
 Creating a New Sheet-Metal Model in Part Mode
 Converting a Solid Model to a Sheet-Metal Model
CREATING PRIMARY SHEET-METAL WALL FEATURES
 Understanding Sheet-Metal Wall Features
 Creating Flat Walls
 Extruded Sheet-Metal Wall Features
 Revolved Sheet-Metal Wall Features
 Sheet-Metal Wall Sketching Tools
CREATING SHEET-METAL SECONDARY WALL FEATURES
 Understanding Secondary Walls
 Creating Secondary Flat Walls Using Flange Walls
 Using Extruded Walls
 Wall Dashboard Options
 Understanding Relief
MODIFYING SHEET-METAL MODELS
 Bends
 Bend Options
 Unbend Features
 Bend Back Features
 Flat Pattern
 Sheet-Metal Cuts
 Die Form Features
 Punch Form Features
 Rip
SHEET-METAL BENDS AND SETTING UP THE SHEET-METAL ENVIRONMENT
 Order of Bend Features
 Fixed Geometry
 Flat States

SURFACE DESIGNING
SURFACE MODELING OVERVIEW
 Introduction to Surfacing
 Surface Modeling Uses
 Surface Modeling Paradigms
 Freeform Overview
 Blending Surface Modeling Paradigms
 Surfacing Terms
ADVANCED SELECTION
 Advanced Chain Selection
 Advanced Surface Selection
BASIC Surfacing Tools
 Creating Surface Extrude Features
 Creating Surface Revolve Features
 Creating Fill Surfaces
 Creating Sweep Surfaces with Open Trajectories
 Creating Parallel Blend Surfaces
 Creating General Blend Surfaces
HELICAL Sweeps
 Understanding Helical Sweeps Theory
 Utilizing Helical Sweeps for Surfaces
CREATING AND EDITING SOLIDS USING QUILTS
 Thickening Surface Quilts
 Solidifying Quilts to Add Material
 Solidifying Quilts to Remove Material
 Solidifying Quilts to Replace Material
 Offsetting Surfaces using the Replace Option