•  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