Creo Tutorials
Creo Parametric Tutorials
Beginners Tutorials
Introduction to Creo Parametric
Downloading Models for the Tutorial
Selecting the Working Directory
Exercise 1 – Modeling a Piston
User Interface
Creating a New Part
Creating an Extrusion
Removing Material
Creating Rounds
Creating Datum Features
Creating Sketches
Creating Extrusions Using the Sketches
Mirroring Extrudes
Creating Holes
Creating Rounds
Creating a Revolve
Creating Patterns
Finalizing the Piston
Exercise 2 – Creating Complex Parts with Patterns
Creating Patterns
Creating Chamfers
Creating and Patterning Holes
Exercise 3 – Working with Assemblies
Piston Assembly
Assembling a Solidworks Assembly
Crankshaft Assembly
Exercise 4 – Performing Motion Analysis
Motion Analysis
Exercise 5 – Creating Drawings
Piston Part Drawing
Piston Sectioned Views
Detailed Views
Annotating Drawings
Crankshaft Assembly Drawing
Creo Flexible Modeling
Beginners Tutorials
Creo Flexible Modeling Description and Uses
Downloads for the Creo Flexible Modeling Tutorial
About the Creo Flexible Modeling User Interface
Moving Geometry
Working with Rounds and Chamfers
Maintaining Tangency
Working with Patterns
Removing Features
Updating Drawings
Creo Intelligent Fastener Tutorials
Beginners Tutorials
Introduction to Creo Intelligent Fastener Beginner Tutorial
Exercise 1 - Assembling Fasteners in Existing Holes
Exercise 2 - Assembling a Fastener Onto a Datum
Exercise 3 - Reassembling a Fastener Onto a Datum
Exercise 4 - Assembling Fasteners Using Mouse Clicks
Exercise 5 - Redefining Fasteners
Exercise 6 - Deleting Fasteners
Advanced Tutorials
Requirements for Creo Intelligent Fastener Advanced Tutorial
Downloads for Creo Intelligent Fastener Advanced Tutorial
Assembling Fasteners
Exercise 1 – Assembling Fasteners with Orientation
Exercise 2 – Assembling Fasteners on All Instances and Patterning
Exercise 3 – Creating Fasteners Without External References
Exercise 4 – Verifying Screw Connections
Assembling Dowel Pins
Exercise 5 – Assembling Dowel Pins on Points, Axes, or Holes
Exercise 6 – Assembling Dowel Pins by Mouse Click
Integrating and Customizing Parts
Exercise 7– Integrating Legacy Screw Fasteners into the IFX Library
Exercise 8 – Integrating a Single Screw Fastener into the PTC Creo Intelligent Fastener Library
Exercise 9 – Migrating Parts with Family Tables
Exercise 10 - Troubleshooting for Adding Legacy Fasteners
Creo Advanced Framework Extension
Beginners Tutorials
Creo Advanced Framework (AFX) Basic Tutorial
Introduction to Creo Advanced Framework
Exercise 1: Defining an AFX Project
Exercise 2: Assembling Profiles
Assembling Profiles on a Straight Curve
Assembling Profiles Between Two Points
Assembling Profiles on Bend Curves
Reusing Profiles
Patterning Profiles
Exercise 3: Creating Joints
Joining Two Profile Ends
Joining Profile Ends to Other Profiles
Joining Profile Ends to Selected Surfaces
Creating Profile Cutouts
Exercise 4: Modifying and Moving Profiles
Rotating and Moving Profiles
Modifying Profile Section Size
Modifying Profile Section Type
Exercise 5: Assembling Connector and Equipment Elements
Assembling a New Endplate Connector
Reusing an Endplate Connector
Modifying an Endplate Connector
Assembling an Equipment Plate
Exercise 6: Creating Bills of Material (BOMs) and Drawings
Creating a BOM of Components Assembled by AFX
Automatically Creating Profile and Plate Drawings
Clearance and Creepage Extension
Beginners Tutorials
Exercise 1 —Assigning Meta Data
Exercise 2 — Defining Electric Nets
Exercise 3 — Setting Analysis Parameters
Exercise 4 – Reviewing Analysis Results
Exercise 5 — Saving Analysis Results
Creo Mold Machining Extension Tutorial
Introduction to High-speed Mold machining
Exercise 1: Creating High-Speed Milling Sequences
Creating High Speed Rough Sequence
Creating High Speed Rest Rough Sequence
Creating High Speed Finish Sequence
Creating High Speed Rest Finish Sequence
Exercise 2: Working with High-Speed Milling Parameters
Working with Rough and Rest Rough Parameters
Working with Finish and Rest Finish Parameters
Exercise 3: Creating Sequences Using Multiple Orientations
Creating Rough and Rest Rough Sequences Using Multiple Orientations
Creo Simulate Tutorials
Beginners Tutorials
Introduction to PTC Creo Simulate Lite
Exercise1—Setting up a Model for Analysis
Exercise1—Setting up a Model for Analysis
Opening a Model in PTC Creo Simulate Lite
Assigning a Material
Creating Constraints
Creating Loads
Running Analyses
Exercise2—Reviewing Analyses Results
Exercise2—Reviewing Analyses Results
Reviewing Results
Creating Cutting Surfaces
Creating Capping Surfaces
Evaluating Results
Exercise3—Optimizing the Design
Exercise3—Optimizing the Design
Assigning a Material
Creating and Running a Design Study
Reviewing Results
Optimizing the Design
Confirming Optimized Results
Creo Flow Analysis Tutorials
Beginners Tutorials
Creo Flow Analysis Beginners Tutorials
Tutorial 1 - Power Inverter without Heat Transfer
Power Inverter without Heat Transfer: Overview
Power Inverter without Heat Transfer: Exercise 1—Extracting the Fluid Domain
Power Inverter without Heat Transfer: Exercise 2—Preparing the Mesh
Power Inverter without Heat Transfer: Exercise 3—Defining Physics Modules
Power Inverter without Heat Transfer: Exercise 4—Assigning Boundary Conditions
Power Inverter without Heat Transfer: Exercise 5—Creating a Monitoring Point
Power Inverter without Heat Transfer: Exercise 6—Performing the Simulation
Power Inverter without Heat Transfer: Exercise 7—Analyzing Results
Tutorial 2 - Power Inverter with Conjugate Heat Transfer
Power Inverter with Conjugate Heat Transfer: Overview
Power Inverter with Conjugate Heat Transfer: Exercise 1—Extracting the Fluid Domain
Power Inverter with Conjugate Heat Transfer: Exercise 2—Preparing the Mesh
Power Inverter with Conjugate Heat Transfer: Exercise 3—Defining Physics Modules
Power Inverter with Conjugate Heat Transfer: Exercise 4—Assigning Boundary Conditions
Power Inverter with Conjugate Heat Transfer: Exercise 5—Performing the Simulation
Power Inverter with Conjugate Heat Transfer: Exercise 6—Analyzing Results
Tutorial 3 - Cyclone Separator
Cyclone Separator Overview
Cyclone Separator Exercise 1—Extracting the Fluid Domain
Cyclone Separator Exercise 2—Preparing the Mesh
Cyclone Separator Exercise 3—Defining Physics Modules
Cyclone Separator Exercise 4—Assigning Boundary Conditions
Cyclone Separator Exercise 5—Creating Monitoring Points
Cyclone Separator Exercise 6—Performing the Simulation
Cyclone Separator Exercise 7—Analyzing Results
Advanced Tutorials
Creo Flow Analysis Advanced Tutorials
Tutorial 1 - Cyclone Separator With Particle Separation
Cyclone Separator with Particle Separation: Overview
Cyclone Separator with Particle Separation: Exercise 1—Extracting the Fluid Domain
Cyclone Separator with Particle Separation: Exercise 2—Defining Physics Modules
Cyclone Separator with Particle Separation: Exercise 3—Assigning Boundary Conditions
Cyclone Separator with Particle Separation: Exercise 4—Preparing the Mesh
Cyclone Separator with Particle Separation: Exercise 5—Creating Monitoring Points
Cyclone Separator with Particle Separation: Exercise 6—Performing the Simulation
Cyclone Separator with Particle Separation: Exercise 7—Analyzing Results
Tutorial 2 - Cabin Radiation with Convection and Radiation
Cabin Radiation with Convection and Radiation: Overview
Cabin Radiation with Convection and Radiation: Exercise 1—Extracting the Fluid Domain
Cabin Radiation with Convection and Radiation: Exercise 2—Defining Physics Modules
Cabin Radiation with Convection and Radiation: Exercise 3—Assigning Boundary Conditions
Cabin Radiation with Convection and Radiation: Cabin Radiation Exercise 4—Preparing the Mesh
Cabin Radiation with Convection and Radiation: Exercise 5—Creating Monitoring Points
Cabin Radiation with Convection and Radiation: Exercise 6—Performing the Simulation
Cabin Radiation with Convection and Radiation: Exercise 7—Analyzing Results
Tutorial 3 - Multicomponent Mixing using a Nozzle
Multicomponent Mixing using a Nozzle: Overview
Multicomponent Mixing using a Nozzle: Exercise 1—Extracting the Fluid Domain
Multicomponent Mixing using a Nozzle: Exercise 2—Defining Physics Modules
Multicomponent Mixing using a Nozzle: Exercise 3—Assigning Boundary Conditions
Multicomponent Mixing using a Nozzle: Exercise 4—Specifying Volume Conditions
Multicomponent Mixing using a Nozzle: Exercise 5—Creating Monitoring Points
Multicomponent Mixing using a Nozzle: Exercise 6—Preparing the Mesh
Multicomponent Mixing using a Nozzle: Exercise 7—Performing the Simulation
Multicomponent Mixing using a Nozzle: Exercise 8—Analyzing Results
Tutorial 4 - Multiphase Fuel Tank
Multiphase Flow for a Fuel Tank: Overview
Multiphase Flow for a Fuel Tank: Exercise 1—Adding the Simulation Domain
Multiphase Flow for a Fuel Tank: Exercise 2—Creating Boundary Conditions
Multiphase Flow for a Fuel Tank: Exercise 3—Preparing the Mesh
Multiphase Flow for a Fuel Tank: Exercise 4—Defining Physics Modules
Multiphase Flow for a Fuel Tank: Exercise 5—Assigning Boundary Conditions
Multiphase Flow for a Fuel Tank: Exercise 6—Defining Fluid Properties
Multiphase Flow for a Fuel Tank: Exercise 7—Performing the Simulation
Multiphase Flow for a Fuel Tank: Exercise 8—Analyzing Results
Tutorial 5 - External Air Flow for a Truck
External Air Flow for a Truck — Overview
External Air Flow for a Truck: Exercise 1—Adding the Simulation Domain
External Air Flow for a Truck: Exercise 2—Defining Physics Modules
External Air Flow for a Truck: Exercise 3—Preparing the Mesh
External Air Flow for a Truck: Exercise 4—Assigning Boundary Conditions
External Air Flow for a Truck: Exercise 5—Performing the Simulation
External Flow for a Truck: Exercise 6—Analyzing Results
Tutorial 6 - Mixing Tank
Mixing Tank — Overview
Mixing Tank: Exercise 1—Extracting the Fluid Domain
Mixing Tank: Exercise 2—Adding the Simulation Domain and Boundary Conditions
Mixing Tank: Exercise 3—Preparing the Mesh
Mixing Tank: Exercise 4—Defining Physics Modules
Mixing Tank: Exercise 5—Assigning Boundary Conditions
Mixing Tank: Exercise 6—Performing the Simulation
Mixing Tank: Exercise 6—Analyzing Results
Additional Tutorials
Creo Flow Analysis Additional Tutorials
Tutorial 1 - Natural Convection
Natural Convection: Overview
Natural Convection: Exercise 1—Setting up the Model
Natural Convection: Exercise 2—Creating Boundaries
Natural Convection Exercise 3—Preparing the Mesh
Natural Convection: Exercise 4—Defining Physics Modules
Natural Convection: Exercise 5—Assigning Boundary Conditions
Natural Convection: Exercise 6—Creating a Monitoring Point
Natural Convection Exercise 7—Performing the Simulation
Natural Convection: Exercise 8—Analyzing Results
Tutorial 2 - Turbulent Flow in Diffuser
Turbulent Flow in Diffuser: Overview
Turbulent Flow in Diffuser: Exercise 1—Setting up the Model
Turbulent Flow in Diffuser: Exercise 2—Preparing the Mesh
Turbulent Flow in Diffuser: Exercise 3—Defining Physics Modules
Turbulent Flow in Diffuser: Exercise 4—Assigning Boundary Conditions
Turbulent Flow in Diffuser: Exercise 5—Creating a Monitoring Point
Turbulent Flow in Diffuser: Exercise 6—Performing the Simulation
Turbulent Flow in Diffuser: Exercise 7—Analyzing Results
Tutorial 3 - Vortex Shedding
Vortex Shedding: Overview
Vortex Shedding: Exercise 1—Setting up the Model
Vortex Shedding: Exercise 2—Preparing the Mesh
Vortex Shedding: Exercise 3—Defining Physics Modules
Vortex Shedding: Exercise 4—Assigning Boundary Conditions
Vortex Shedding: Exercise 5—Performing the Simulation
Vortex Shedding: Exercise 6—Analyzing Results
Tutorial 4 - Cavitation over an Orifice
Cavitation over an Orifice: Overview
Cavitation over an Orifice: Exercise 1—Setting up the Model
Cavitation over an Orifice: Exercise 2—Preparing the Mesh
Cavitation over an Orifice: Exercise 3—Defining Physics Modules
Cavitation over an Orifice: Exercise 4—Assigning Boundary Conditions
Cavitation over an Orifice: Exercise 5—Performing the Simulation
Cavitation over an Orifice: Exercise 6—Analyzing Results
Topology Optimization Tutorials
Beginners Tutorials
Introduction to Topology Optimization Tutorial
Downloading and Opening the Model
Setting Up the Model
Setting Up the Optimization and Creating the Mesh
Setting Up and Running the Optimization Study
Exploring the Results of the Topology Optimization Study
Constructing a New Optimized Model
Editing the Freestyle Feature
Creo Render Studio Tutorials
Beginners Tutorials
Creo Render Studio Beginner Tutorial
Introduction to Creo Render Studio Beginner Tutorial
Downloading the Model for this Tutorial
Exercise 1—Changing the Appearance of the Model’s Surface
Exercise 2—Changing the Scene
Exercise 3—Rendering in Real Time
Exercise 4—Saving the Rendered Image
PTC Mathcad Tutorials
Optimize Your Design with Engineering Notebook Powered by PTC Mathcad
Embed PTC Mathcad Worksheet
Link PTC Mathcad Input Regions in PTC Creo Parameters Table
Set the Volume of Piston Head Equation Using the PTC Mathcad Equation Editor
Set the Surface Area of Engine Block Using the PTC Mathcad Equation Editor
Set the Minimum Engine Displacement Using the PTC Mathcad Variable Definition
Using PTC Mathcad Solve Block
Push Results to PTC Creo Parametric
Creo Tutorials
Push Results to PTC Creo Parametric