Ptc Creo Master’s online training course is designed to teach the essentials of using Creo Parametric 3.0. In this course, you will learn core modeling skills and quickly become proficient with Creo Parametric 3.0.
Measuring and Inspecting Models. Creating and modifying sheetmetal design and models
Practicing surface modeling and tools. Creating and editing solids using Quilts
Creating New Drawings and Drawing Views. Adding Model Details to Drawings
Requirements
The candidates from mechanical background or having Pro/E experience are ideal for this training.
Description
|| About PTC Creo Master Training Course
PTC Creo Master’s online training course include topic like sketching, part modeling, assemblies, drawings, and basic model management techniques. The course also includes a comprehensive design project that enables you to practice your new skills by creating realistic parts, assemblies, and drawings.You will investigate the new Assembly capabilities like the built-in hardware library and the Intelligent Fastener extension, as well as the new Realistic Appearance and Bump Mapping. Finally you will learn to use the many updates tools in Sheet Metal such as Die Forms, Bend Relief and Rip. Creo Elements/Pro (Pro/E) training equips the aspirants with the skills related to the rule-based capabilities and integrated-designing functions of this mechanical design software. The participants explore solid modeling, assembly modeling, sheetmetal designing, drafting, and finite element analysis. Through this training the candidates gain capabilities in designing, analysis, and manufacturing. Creo’ is considered as Professional CAD and CAE software for engineering. CAD means computer aided design and CAE means computer aided engineering. It is use as normal design to high level 3d design and optimization.
Creo is like professional designing software. Creo is very practical software for design. It is very useful software for 3D modelling, assembly, Machine building Etc. like, jig and fixture development, product design, mechanism development, manufacturing drawing. Etc. Its cover draft analysis, rendering, calculate, and motion animation. That’s why Creo useful software for Professional designer as well as student. Who’s are in designing field like, mechanical, automobile, aeronautical, electrical. Creo is useful software for 3D design and assembly. Like sheet metal industry, automobile, plant model, Product design company Etc are use Creo software for drawing and designing. This course has been designed with the aim to understand the fundamentals of Advance 3D modelling and engineering drawing which ease the learning procedure of high-level designing software’s such as NX, Ansys, Etc. Once you have completed this training course, you will be fully capable of using these tools and techniques to create your own drawing and get control perfectly using this 3D modeling software.
Course Content
Lecture-1 Introduction to the Pro/ENGINEER Wildfire Basic Modeling Process
·Pro/ENGINEER Wildfire Basic Modeling Process
·Understanding Pro/ENGINEER Concepts
·Understanding Solid Modeling Concepts
·Understanding Feature-Based Concepts
·Understanding Parametric Concepts
·Understanding Associative Concepts
·Understanding Model-Centric Concepts
·Recognizing File Extensions
·Practical Exercise
Lecture-2 Using the Pro/ENGINEER Interface
·Understanding the Main Interface
·Understanding the Folder Browser
·Understanding the Window Menu
·Setting the Working Directory and Opening and Saving Files
·Managing Files in Pro/ENGINEER
·Understanding Basic Display Options
·Creating and Managing View Orientations
·Managing and Editing Appearances
·Setting Up New Part Models
·Practical Exercise
Lecture-3 Selecting and Editing
·Understanding Pro/ENGINEER Basic Controls
·Using Drag Handles
·Understanding the Model Tree
·Selecting Items using Direct Selection
·Selecting Items using Query Selection
·Understanding Selection Filters
·Utilizing Undo and Redo Operations
·Editing Features and Regenerating
·Activating and Editing Models
·Using Dynamic Edit
·Deleting and Suppressing Items
·Practical Exercise
Lecture-4 Creating Sketcher Geometry
·Reviewing Sketcher Theory
·Understanding Design Intent
·Utilizing ConstraintsSketching Lines
·Sketching Centerlines
·Sketching Rectangles and Parallelograms
·Sketching Circles
·Sketching Arcs
·Practical Exercise
Lecture-5 Using Sketcher Tools
·Understanding Construction Geometry Theory
·Using Geometry Tools within Sketcher
·Dimensioning Entities within Sketcher
·Modifying Dimensions within Sketcher
·Sketcher Conflicts
·Practical Exercise
Lecture-6 Creating Sketches for Features
·Creating Sketches
·Specifying the Sketch Setup
·Using Entity from Edge within Sketcher
·Thickening Edges
·Practical Exercise
Lecture-7 Creating Datum Features: Planes
·Creating Datum Features Theory
·Creating Datum Planes
·Creating Extrudes, Revolves, and Ribs
·Creating Solid Extrude Features
·Common Dashboard Options: Extrude Depth
·Common Dashboard Options: Feature Direction
·Common Dashboard Options: Thicken Sketch
·Creating Solid Revolve Features
·Common Dashboard Options: Revolve Angle
·Creating Profile Rib Features
·Practical Exercise
Lecture-8 Creating Sweeps and Blends
·Creating Sweeps with Open Trajectories
·Creating a Parallel Blend Protrusion or Cut
·Practical Exercise
Lecture-9 Creating Holes, Shells, and Draft
·Common Dashboard Options: Hole Depth
·Creating Linear Holes
·Creating Radial and Diameter Holes
·Creating Shell Features
·Creating Draft Features
·Creating Basic Split Drafts
·Analyzing Draft Hinges and Pull Direction
·Practical Exercise
Lecture-10 Creating Rounds and Chamfers
·Creating Rounds Theory
·Creating Rounds by Selecting Edges
·Creating Rounds by Selecting Two Surfaces
·Creating Full Rounds
·Creating Chamfers by Selecting Edges
·Analyzing Basic Chamfer Dimensioning Schemes
·Practical Exercise
Lecture-11 Copy and Mirror Tools
·Copying and Pasting Features
·Moving and Rotating Copied Features
·Mirroring Selected Features
·Practical Exercise
Lecture-12 Creating Patterns
·Direction Patterning in the First Direction
·Axis Patterning in the First Direction
·Creating Reference Patterns of Features
·Practical Exercise
Lecture-13 Measuring and Inspecting Models
·Viewing and Editing Model Properties
·Investigating Model Units
·Analyzing Mass Properties
·Measuring Models
·Creating Planar Part Cross-Sections
·Measuring Global Interference
·Practical Exercise
Lecture-14 Assembling with Constraints
·Understanding Assembly Theory
·Creating New Assembly Models
·Understanding Constraint Theory
·Assembling Components using the Default
·Constraining Components using Insert
·Constraining Components using Mate Coincident
·Constraining Components using Align Coincident
·Constraining Components using Align and Mate Offset
·Constraining Components using Align and Mate Angle
·Practical Exercise
Lecture-15 Exploding Assemblies
·Creating and Managing Explode States
·Practical Exercise
Lecture-16 Using Layers
·Understanding Layers
·Creating and Managing Layers
·Utilizing Layers in Part Models
·Practical Exercise
Lecture-17 Managing Design Intent
·Reordering Features
·Inserting Features
·Redefining Features and Sketches
·Analyzing Geometry Failures
·Analyzing Open Section Failures
·Understanding Resolve Mode Tools
·Recovering Models
·Using Pro/ENGINEER Help
·Practical Exercise
Lecture-18 Sheetmetal Model Fundamentals
·Understanding Developed Length
·Creating a New Sheetmetal Part in Assembly Mode
·Creating a New Sheetmetal Model in Part Mode
·Converting a Solid Model to a Sheetmetal Model
·Practical Exercise
Lecture-19 Creating Primary Sheetmetal Wall Features
·Understanding Sheetmetal Wall Features
·Creating Flat Walls
·Extruded Sheetmetal Wall Features
·Revolved Sheetmetal Wall Features
·Sheetmetal Wall Sketching Tools
·Practical Exercise
Lecture-20 Creating Sheetmetal Secondary Wall Features
·Understanding Secondary Walls
·Creating Secondary Flat Walls
·Using Flange Walls
·Using Extruded Walls
·Wall Dashboard Options
·Understanding Relief
·Practical Exercise
Lecture-21 Modifying Sheetmetal Models
·Bends
·Bend Options
·Unbend Features
·Bend Back Features
·Flat Pattern
·Sheetmetal Cuts
·Practical Exercise
Lecture-22 Sheetmetal Bends and Setting Up the Sheetmetal Environment
·Order of Bend Features
·Fixed Geometry
·Flat States
·Practical Exercise
Lecture-23 Introduction to Surfacing
·Surface Modeling Uses
·Surface Modeling Paradigms
·Freeform Overview
·Blending Surface Modeling Paradigms
·Surfacing Terms
·Practical Exercise
Lecture-24 Advanced Selection
·Advanced Chain Selection
·Advanced Surface Selection
·Practical Exercise
Lecture-25 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
·Practical Exercise
Lecture-26 Helical Sweeps
·Understanding Helical Sweeps Theory
·Utilizing Helical Sweeps for Surfaces
·Practical Exercise
Lecture-27 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
·Practical Exercise
Lecture-28 Introduction to Drawings
·Understanding Drawing Concepts
·Drawing Development Process
·Understanding the Drawing Ribbon User Interface
·Exploring Drawing Ribbon Commands
·Practical Exercise
Lecture-29 Creating New Drawings
·Creating Drawings Using Formats and Sheets
·Practical Exercise
Lecture-30 Creating Drawing Views
·Adding General Views
·Adding Projection Views
·Editing Drawing Views
·Editing Visible View Area
·Adding Detailed Views
·Adding 2-D Cross-Section Views
·Modifying Cross Hatching Display .
·Adding Assembly Exploded Views
·Practical Exercise
Lecture-31 Adding Model Details to Drawings
·Understanding Annotations in Drawings
·Showing, Erasing, and Deleting Annotations
·Adjusting Dimensions and Detail Items
·Changing Dimension Display
·Practical Exercise
Lecture-32 Adding Notes to Drawings
·Adding and Editing Notes
·Practical Exercise
Lecture-33 Adding Tolerance Information
·Understanding Dimensional Tolerances
·Understanding Geometric Tolerances
·Setting Up Geometric Tolerance References
·Applying Geometric Tolerances
·Practical Exercise
Lecture-34 Adding Draft Geometry and Symbols
·Using Surface Finish Symbols
·Using the Symbol Palette and Custom Symbols
·Practical Exercise
Lecture-35 Using Layers in Drawings
·Understanding Layers in Drawings
·Using Layers in Drawings
·Practical Exercise
Lecture-36 Creating and Using Tables in Drawings
·Creating and Configuring Tables
·Practical Exercise
Lecture-37 Using Report Information in Drawings
·Creating Report Tables
·Using BOM Balloons
·Practical Exercise
Project Development
Fees
Offline Training @ Vadodara
Classroom Based Training
Practical Based Training
No Cost EMI Option
4000035000
Online Training preferred
Live Virtual Classroom Training
1:1 Doubt Resolution Sessions
Recorded Live Lectures*
Flexible Schedule
3500030000
Corporate Training
Customized Learning
Onsite Based Corporate Training
Online Corporate Training
Certified Corporate Training
Certification
Upon the completion of the Classroom training, you will have an Offline exam that will help you prepare for the Professional certification exam and score top marks. The BIT Certification is awarded upon successfully completing an offline exam after reviewed by experts
Upon the completion of the training, you will have an online exam that will help you prepare for the Professional certification exam and score top marks. BIT Certification is awarded upon successfully completing an online exam after reviewed by experts.
This course is designed to clear PTC Creo Certification Exam: PTC-CDE-01: PTC Creo Parametric for Design Engineers and PTC-IBT-01: PTC Creo for Designers