•  Manufacturing
  • Creo NC Overview
  •  Using Creo NC
    • About Creo NC
    • To Create a Manufacturing Model
    • Creo NC Concepts
    • Using Manufacturing Model Templates
    • To Define a Manufacturing Assembly Configuration
    • To Reclassify Components of a Manufacturing Assembly
    • To Retrieve a Manufacturing Model
    • About Legacy .mfg Files
    • Previewing a Manufacturing Model
    • To Replace Components of a Manufacturing Assembly
    • Part Family Tables in Creo NC
  •  Manufacturing User Interface
    • About the Creo NC User Interface
  •  Configuring for Creo NC
    • About Configuration File Options
    • To Set Creo NC Configuration Options
    • Configurations Options for Creo NC
  •  Manufacturing Process
    • About Manufacturing Process
    • Example: Manufacturing Process
    • To Get Process Status and Tool Path Information
    •  Process Information
      • About Process Information
      • To Output Manufacturing Information
      • To Set Up Filter Configuration
      • To Generate a Route Sheet
      • Route Sheet
      • To Create a Customized Report on a Manufacturing Process
      • To Use Reports in Creo NC
      • Examples: Creating a Customized Report on a Manufacturing Process
    •  Reference Models
      • About Reference Models
      • To Create a Reference Model
      • To Assemble a Reference Model Using Same Model
      • To Assemble a Reference Model with Inherited Features
      • To Assemble a Reference Model with Merged Features
    •  Workpieces
      • About Workpieces
      • To Create a Workpiece
      • To Create an Automatic Workpiece
      • To Assemble a Workpiece Using Same Model
      • To Assemble a Workpiece with Inherited Features
      • To Assemble a Workpiece with Merged Features
      • To Create a Manual Workpiece
      • Workpiece Display
    •  Operations
      • About Operations
      • To Create an Operation
      • Operation Tab
      • To Specify Comments for an Operation
      • To Activate an Operation
    •  Work Centers (Workcells)
      • About Work Centers (Workcells)
      • To Create a Machine Tool (Work Center)
      • About Flashing a Turning Tool
      • Machine Tool Settings
      • Work Center Types
      • Saving and Retrieving Work Centers
      • To Set Up a PPRINT Table
      • The PPRINT Table
    •  Fixtures
      • About Fixtures
      • To Create a Fixture Setup
      • The Fixture Setup Tab
      • To Activate a Fixture Setup
      • To Modify a Fixture Setup
      • To Delete a Fixture Setup
    •  Coordinate Systems
      • About Coordinate Systems
      • To Specify a Coordinate System
      • Machine and NC Sequence Coordinate Systems
      • Z-Axis Orientation
    •  NC Sequences
      • About NC Sequences
      • To Create an NC Sequence
      • To Create an NC Sequence Using the Menu Manager
      • Elements of NC Sequence Setup
      • To Customize a Name of an NC Sequence
      • To Specify Comments for an NC Sequence
      • To Set Up Start and End Points for an NC Sequence
      • To Select an NC Sequence
      • Example: Searching for NC Steps By the Current Operation
      •  Copying and Pasting NC Sequences
        • To Copy and Paste a NC Sequence
        • About Copying NC Sequences Using Paste Special
        • To Create Dependent Copies of a NC Sequence
        • To Copy NC Sequences Using Advanced Reference Configuration
      • About Working with Classic NC Sequences
    •  Retract Surface
      • About Retract Surface
      • To Set Up a Retract Plane
      • To Set Up a Retract Sphere
      • To Set Up a Retract Cylinder
      • To Set Up Retract Along a Revolved Surface
      • To Set Up a Traverse Plane
      • Controlling Retracts in Volume Milling
    •  Material Removal
      • About Automatic Material Removal
      • To Create a Material Removal Feature
      • Specifying the Material Removal Visibility Level
      • Automatic Material Removal in Milling
      • Automatic Material Removal in Turning
      • Automatic Material Removal in Holemaking
      • Automatic Material Removal in Wire EDM
    •  XML Export and Import
      • About XML Export and Import of Manufacturing Process Data
      • To Output a Manufacturing Process in XML Format
      • To Import Manufacturing Process Data into a Different Model
    •  Activating a Part or Subassembly in an NC or CMM Assembly
      •  Sheetmetal Part
        • About Activating a Sheetmetal Part in an NC and CMM Assembly
        • To Activate a Sheetmetal Part in an NC and CMM Assembly
      •  Subassembly
        • About Activating a Subassembly in an NC and CMM Assembly
        • To Activate a Subassembly in an NC and CMM Assembly
      •  Design Part
        • About Activating a Design Part in an NC and CMM Assembly
        • To Activate a Design Part in an NC and CMM Assembly
    • Modifying Parts, Assemblies and Steps
    • The Notification Center
  •  CMM Probing in Creo NC
    • About CMM Probing in Creo NC
    • To Enable CMM Probing in Creo NC
    • Licensing and CMM Probing in Creo NC
  •  Tooling
    • About Elements of Tools Setup
    • To Set Up the Material Directory Structure
    • Example: Setting Up the Material Directory Structure
    • To Set Up Tools in Advance
    • To Set Up a Tool when Creating an NC Sequence
    • About Cutting Tool Preview
    •  Tool Setup Dialog Box
      • About the Tools Setup Dialog Box
      • Using the Tools Setup Dialog Box
      • To Add a New Tool
      • To Specify the Cutting Data for the Tool
      • Using the Cutting Data Supplied for the Tool
      • To Provide the Bill of Materials for the Tool
      • Specifying Holder Dimensions
      • To Set Up Multiple Tip Tools
      • Multiple Tip Tools
      • To Specify Multiple Tips for Milling and Holemaking Tools
      • Example: User Defined Tool Parameters
      • Tool Parameters Library
      • Tool Parameters
      • Retrieving Tool Parameters
      • To Retrieve Tool Parameters
      • To Access an External Tool Database
      • To Add a Sketched Tool
      • To Modify an Existing Tool
      • About Replacing Cutting Tools
      • To Replace a Cutting Tool (File System)
      • To Replace a Cutting Tool (Workcell)
      • To Customize the Tool Manager Using Column Setup Builder
      • Tool Dialog Setup File
      • To Delete a Tool
      • To Save Tool Parameters
      • Saving Tool Parameters
      • To Use a Standard Tool
      • Standard Tools
    •  Solid Tool Models
      • About Solid Tool Models
      • To Create a Tool Model
      • Multiple Tip Tool Models
      • Example: A Solid Tool Model for Milling
      • Example: A Solid Multiple Tip Tool Model
      • To Assign Tool Material and Number of Teeth
      • To Use a Tool Model
      • To Add User-Defined Parameters in Solid Tool Models
      • Custom CL Commands for Solid Tool Models
      • Tool Display
      • Using Assembly as a Tool Model
      • CL Commands for Solid Tool Models
      • About Specifying a Tip for CL Data Output
      • Specifying a Tip for CL Data Output
      • To Specify an Output Tip for CL Data Output
      • To Use Tool Outline in Turning
      • Solid Tool Capabilities in Turning
      • Example: Using the Tool Outline in Turning
      • To Use Customized Tools in Holemaking
      • Example: A Solid Tool Model for Holemaking
      •  Multitasking Solid Tool Models
        • About Using Solid Models as Multitasking Tools
        • Example: A Solid Model for a Multitasking Tool
        • To Use a Solid Model as a Multitasking Tool
        • Specifying Manufacturing Parameters for Multitasking Tools
        • Example: Specifying the Cutting Edge for a Tip
    •  Tool Attachments
      • About Tool Attachments
      • To Create a Tool Attachment
      • Example: Tool Attachment
      • Automatic Tool Attachment
      • To Use a Tool Attachment
  •  Manufacturing Parameters
    • About Manufacturing Parameters
    • To Initialize NC Sequence Parameters
    • The PARAMETERS SETUP Dialog Box
    • To Set or Modify NC Sequence Parameters
    • To Customize the Parameters Table
    • Common NC Sequence Parameters
    • Milling Parameters
    • High Speed Milling Parameters
    • Holemaking Parameters
    • Turning Parameters
    • Wire EDM Parameters
    • Manufacturing Assembly Parameters
    • To Use Previous Parameters
    • To Use a Non-Active Site
    • To Include a Parameter in a Relation
    • Using Parameters in Relations
    •  Sites
      • About Sites
      • To Create a New Site File
      • Parameter Visibility
      • Manipulating Sites
      • To Activate a Site
      • Activating a Site
      • To Associate a Site with a Workcell
      • Associating a Site with a Workcell
  •  Milling
    •  General Information
      • About Milling NC Sequences
      • To Select Surfaces
      • To Specify Surface Side
      • To Close Loops in Window Machining
      • To Perform Gouge Checking
      • Gouge Checking Defaults
      • To Specify Entry and Exit Motions
      • To Perform 4-Axis Milling
      • To Specify Negative Stock Allowance
      • To Customize the Tool Path in Milling
    •  Tool Axis Control in Milling
      • About Variable Axis Control
      •  Tool Axis Control in Surface Milling
        • To Define the Axis Orientation Using Points on Surface
        • Example: Axis Orientation Using Points on Surface
        • To Define the Axis Orientation Using Points Along Cutlines
        • To Change Axis Definitions
        • To Define the Axis Orientation Using Pivot Point
        • To Define the Axis Orientation Using Pivot Curve
        • To Specify Synch Points Along Pivot Curve
      •  Tool Axis Control in Trajectory Milling and Cutline Milling
        • The Axis Control Tab (Trajectory Milling)
        • The Axis Control Tab (Cutline Milling)
        • To Define Tool Axis Control at a Location (Trajectory Milling)
        • To Define Tool Axis Control at a Location (Cutline Milling)
        • The Axis Control Dragger
        • To Define Axis Orientation Using Pivot Curve (Trajectory Milling)
        • To Define Axis Orientation Using Pivot Curve (Cutline Milling)
    •  Volume Milling
      • About Volume Milling
      • To Create a Volume Milling NC Sequence
      • To Create a Volume Milling Cut
      • Example: Volume Milling
      • Specifying Approach Walls
      • High Speed Machining
      •  Volume Milling Classic NC Sequences
        • To Edit a Classic Volume Milling NC Sequence
    •  Automatic Cut Motions for Volume, Local, and Profile Milling
      • About Automatic Cut Motions
      • Example: Automatic Cut Motion Types
      • To Create an Automatic (Default) Cut Motion
      • To Create an Upto Depth Cut Motion
      • To Create a From-To Depth Cut Motion
      • To Create a Slice-By-Slice Cut Motion
      • To Specify Depth
      • To Specify Approach and Exit Motions Using Build Cut
      • The Build Cut Functionality
      • Example: Defining Approach and Exit Motions
    •  Local Milling
      • About Local Milling
      • To Create a Local Milling NC Sequence by Referencing a Previous NC Sequence
      • To Create a Local Milling NC Sequence Using Corner Edges
      • To Create a Local Milling NC Sequence by Referencing a Previous Tool
      • To Create a Local Milling NC Sequence by Pencil Tracing
      • Milling Parameters Specific to Pencil Tracing
      • Example: Pencil Tracing by Limiting Passes
      • Example: Pencil Tracing for Contact Areas
      • Example: Pencil Tracing Using Angular Limits
      • Example: Pencil Tracing Using Horizontal Offsets
      • Example: Cutter Placement During Pencil Tracing
      • Example: Curl Down Radius and Curl Over Radius
    •  Surface Milling
      • About Surface Milling
      • To Create a Surface Milling NC Sequence
      • Isolines Surface Milling
      • To Define a Cut Using Surface Isolines
      • To Define a Cut Using Projected Cuts
      • Example: Surface Milling by Projecting Tool Path
      • To Specify Entry and Exit Moves
      • The Entry and Exit Move Dialog Box
      • To Define Custom Entry and Exit Strategies
    •  Conventional Milling
      • About Conventional Milling
      • To Create a 3-, 4-, or 5-Axis Conventional Milling NC Sequence
    •  Cutline Milling
      • About Cutline Milling
      • To Create a 3-, 4-, or 5-Axis Cut Line Milling NC Sequence
      • Example: Cutline Milling
    •  Swarf Milling
      • About Swarf Milling
      • To Create a Swarf Milling NC Sequence
    •  Face Milling
      • About Face Milling
      • Selecting a Mill Window for Face Milling
      • To Create a Face Milling NC Sequence
      • To Create a Face Milling Cut
      • To Create Tool Motions for a Face Milling NC Sequence
      • Using Parameters in Face Milling
      • About Searching for Creo NC Items
      • Example: Searching for Surfaces to Machine in a Step
    •  Profile Milling
      • About Profile Milling
      • To Create a Profile Milling NC Sequence
      • To Create Profile Cuts in Profile Milling
      • To Select Surfaces for a Profile Milling Step
      • To Edit a Classic Profile Milling NC Sequence
    •  Pocket Milling
      • About Pocket Milling
      • To Create a Pocket Milling NC Sequence
      • Example: Pocket Milling
    •  Trajectory Milling
      • About Trajectory Milling
      • To Create a 2-Axis Trajectory Milling NC Sequence
      • Milling Parameters Specific to 2-Axis Trajectory Milling
      • To Select Loops On Surfaces in 2-Axis Trajectory Milling
      • Example: 2-Axis Trajectory Milling
      • To Create a 3-, 4-, or 5-Axis Trajectory Milling NC Sequence
      • Start Point for Closed Loops in Trajectory Milling
      • To Place a Start Point for Closed Loops in Trajectory Milling
      •  Tool Motions for 3-Axis Trajectory Milling Sequence
        • To Create Tool Motions for 3-, 4-, or 5-Axis Trajectory Milling NC Sequences
        • To Create a Curve Cut Motion
        • To Create a Drive Surface Cut Motion
      • Sketching the Tools for Trajectory Milling
      •  Custom Trajectory Milling Sequences
        • To Create a 3-, 4-, or 5-Axis Custom Trajectory Milling NC Sequence
        • To Create Automatic Cut Motions for 3-Axis Custom Trajectory Milling
        • To Define a 3-Axis Cut Motion Using Edges or Curves
        • To Sketch a 3-Axis Cut Motion
        • To Define a 3-Axis Cut Motion Using Surfaces
        • Tip: Fitting the Tool Between the Surfaces
        • To Specify Height
        • Example: Specifying Height and Surfaces
        • Example: Specifying Height and Check Surfaces
        • To Create a 5-Axis Cut Motion Using Edges or Curves
        • To Create a 5-Axis Cut Motion Using Surfaces
        • Example: From/To Control
        • Example: Turbine Blade Machining with Leading Edge
        • Multi-Step and Multi-Pass Trajectory Milling
        • Tool Axis Control in Trajectory Milling
        • To Create Axis Definitions Along the Trajectory
        • To Create Axis Definitions by Location
        • Example: Adding Axis Definitions
        • To Create a 5-Axis Cut Motion Using Two Contours
        • To Adjust Cut Motion Ends in 4 Axis Area Turning
        • Corner Condition Types
        • To Specify Corner Conditions for 5-Axis Custom Trajectory Milling
    •  Thread Milling
      • About Thread Milling
      • To Create a Thread Milling NC Sequence
      • Defining the Axis for Thread Milling Sequences
      • Milling Parameters Specific to Thread Milling
      • The Thread Set Dialog Box
      • To Create Tool Motions for a Thread Milling NC Sequence
      • Cutter Compensation in Thread Milling
      • Example: Thread Milling
      • To Set the CL Data Output on a Contour
      • To Set the CL Data Output on a Contour for Helical Moves
    •  Engraving
      • About Engraving
      • To Create an Engraving NC Sequence
      • Multi-Step Engraving
    •  Plunge Milling
      • About Plunge Milling
      • To Create a Plunge Milling NC Sequence
      • Specifying Start Axes
      • Example: Plunge Milling
    •  Roughing and Reroughing
      • About Roughing and Reroughing
      • To Create a Roughing NC Sequence
      • Milling Parameters Specific to Roughing and Reroughing
      • Tolerance Control in Roughing and Reroughing
      • Step Depth Calculation in Roughing
      • Generating Extra Slices for Scallop Control
      • Example: Roughing
      • Example: Roughing a Reference Model with Quilts
      • To Create a Re-roughing NC Sequence
    •  Finishing
      • About Finishing
      • To Create a Finishing NC Sequence
      • Milling Parameters Specific to Finishing
    •  Rest Finishing
      • About Rest Finishing
      • To Create a Rest Finishing NC Sequence
      • Milling Parameters Specific to Rest Finishing
    •  Corner Finishing
      • About Corner Finishing
      • To Create a Corner Finishing NC Sequence
      • Milling Parameters Specific to Corner Finishing
    •  Round Milling
      • About Round Milling
      • To Create a Round Milling NC Sequence
      • Example: Round Milling
    •  Chamfer Milling
      • About Chamfer Milling
      • To Create a Chamfer Milling NC Sequence
    •  Manual Milling Cycles
      • To Create a Manual Milling Cycle
      •  Tool Motions for Manual Milling Cycles
        • To Create Tool Motions for Manual Milling Cycles
  •  High Speed Milling
    • About High Speed Milling
    • To Create HSM Rough Sequences
    • To Create HSM Rest Rough Sequences
    • To Create HSM Finish Sequences
    • To Create HSM Rest Finish Sequences
  •  Tool Motions for NC Sequences
    • To Create Tool Motions for NC Sequences
    • To Create a Follow Curve Tool Motion
    • About the Follow Cut Functionality
    • To Create and Edit a Follow Cut
    • To Create a Normal Approach Tool Motion
    • To Create a Normal Exit Tool Motion
    • To Create a Tangent Approach Tool Motion
    • To Create a Tangent Exit Tool Motion
    • To Create a Helical Approach Tool Motion
    • To Create a Helical Exit Tool Motion
    • To Create a Ramp Approach Tool Motion
    • To Create a Ramp Exit Tool Motion
    • To Create an Approach Along Axis Tool Motion
    • To Create an Exit Along Axis Tool Motion
    • To Create a Lead In Tool Motion
    • To Create a Lead Out Tool Motion
    • To Create a Plunge Tool Motion
    • To Create a Retract Tool Motion
    • To Create a Connect Tool Motion
    • To Create a Goto Point Tool Motion
    • To Create a Go Delta Tool Motion
    • To Create a Goto Plane/Surface Tool Motion
    • To Create a Goto Axis Tool Motion
    • To Insert a CL Command for Tool Motions
  •  Mill Geometry
    • About Mill Geometry
    • To Rename Manufacturing Geometry Features
    •  Mill Window
      • About Mill Window
      • About the Mill Window User Interface
      • To Create a Mill Window
      • To Specify Geometry Type for Mill Window
      • Example: Creating a Mill Window by Silhouette
      • To Use Reference Quilts
    •  Mill Volumes
      • About Mill Volumes
      • To Select Surfaces for a Mill Volume
      • To Gather a Mill Volume
      • Examples: Selecting Surfaces for a Mill Volume
      • To Exclude Surfaces and Outer Loops
      • Example: Excluding Outer Loops
      • To Fill Inner Loops
      • Examples: Filling Inner Loops
      • To Close a Mill Volume
      • Example: Closing a Volume when Milling a Through Pocket
      • To Show a Mill Volume Definition After Gathering
      • To Add Solid Features to a Mill Volume
      • To Trim a Mill Volume
      • Example: Trimming a Mill Volume
      • Tip: Combining Sketch and Trim
      • To Offset a Mill Volume
      • Offsetting a Mill Volume
      • Example: Offsetting a Mill Volume
      • To Create Rounds on a Mill Volume
      • To Copy a Mill Volume
      • To Shade a Mill Volume
      • To Modify a Mill Volume
      • Modifying a Mill Volume
      • To Rename a Mill Volume
    •  Mill Surfaces
      • About Mill Surfaces
      • To Create a Mill Surface
      • Example: Gathering a Mill Surface
      • To Create a Sloped Mill Surface
      • Sloped Mill Surfaces
      • Example: Creating a Sloped Mill Surface
      • To Define Mill Surface as Machinable Surface
      • Machinable Area Mill Surface
      • To Extend Edges of a Mill Surface
      • To Merge Patches of a Mill Surface
      • To Trim a Mill Surface
      • To Shade a Mill Surface
      • To Modify a Mill Surface
      • Modifying Mill Surfaces
      • To Rename a Mill Surface
  •  Turning
    • About Turning NC Sequences
    • To Set Up the Coordinate System for Correct CL Output
    • Using Turning Envelopes
    • About the Turn Envelope User Interface
    • To Define a Turning Envelope
    • Stock Boundary and Cut Extensions
    • About the Stock Boundary User Interface
    • To Define the Stock Boundary
    • Example: Using Stock Boundary for Area Turning
    • Changing the Stock Boundary Outline for 4-Axis Area Turning
    • To Define the Cut Extensions
    • To Adjust Cut Motion Ends
    • To Adjust Cut Motion Ends in 4 Axis Area Turning
    • To Specify Corner Conditions
    • Corner Condition Types
    • Local Stock Allowance
    • To Specify Local Stock Allowance for Classic Sequences
    • To Specify the Tool Orientation
    • To Use Multi-Head Turning
    • About the Turning User Interface
    • Area Turning
    • To Create an Area Turning NC Sequence
    • Example: Area Turning a Face
    • Example: Area Turning of Outside Surfaces
    • Example: Area Turning of Inside Surfaces
    • To Edit a Classic Area Turning NC Sequence
    • To Create a 4 Axis Area Turning NC Sequence
    • Example: 4 Axis Area Turning
    • Profile Turning
    • To Create a Profile Turning NC Sequence
    • Example: Profile Turning
    • To Edit a Classic Profile Turning NC Sequence
    • Groove Turning
    • To Create a Groove Turning NC Sequence
    • To Edit a Classic Groove Turning NC Sequence
    • Thread Turning
    • To Create a Thread Turning NC Sequence
    • Examples: Thread Turning
    • To Create a Facing Thread Turning NC Sequence
    • To Create a Manual Turning Cycle
    • To Perform the Remainder Material Analysis
  •  Turn Profile
    • About Turn Profile
    • About the Turn Profile User Interface
    • To Define a Turn Profile by Selecting Surfaces
    • Example: Defining a Turn Profile by Selecting Surfaces
    • To Define a Turn Profile by Selecting Curves
    • To Define a Turn Profile by Sketching
    • Sketching a Turn Profile
    • To Define a Turn Profile by Section
    • Example: Defining a Turn Profile by Section
    • To Define a Turn Profile by Creating a Reference Envelope
    • To Adjust a Turn Profile
  •  Holemaking
    • About Holemaking
    • To Create a Holemaking NC Sequence
    • Holemaking Cycle Types and Tabs
    • To Switch Cycles in Holemaking
    • Three and Five Axis Holemaking
    • To Edit and Set Up a Peck Table
    • Peck Table
    • Example: Peck Table
    • To Define Hole Sets
    • Combining Selection Methods
    • To Define the Starting Point for Drilling
    • To Define Depth
    •  Axes Set
      • Defining an Axes Set
      • To Define an Axes Set
      • To Select Holes by Axes
      • To Select Holes by Surfaces
      • To Select Holes by Diameters
      • To Select Holes by Feature Parameters
      • To Select Holes by Geometry
    •  Point Set
      • Defining a Point Set
      • To Select Holes by Points
    • To Define the Countersink Diameter
    • To Use the Automatic Chamfer Selection
    • Example: Automatic Chamfer Selection
    • About Web Drilling
    • To Define Plates for Web Drilling
    • Back Spotting Specifics
    • Example: Back Spotting
    • To Edit Classic Hole Sets
  •  Drill Groups
    • About Drill Groups
    • To Define a Drill Group
    • To Modify a Drill Group
    • Using Drill Groups
  •  Custom Cycles
    • About Customizing Holemaking Cycles
    • To Create Custom Cycles
    • The Customize Cycle Dialog Box
    • Example: Creating a Custom Cycle
    • To Define the Cycle References, Variables, and Prompts
    • Defining the Cycle References, Variables, and Prompts
    • To Define the Cycle Statement Syntax
    • Keywords and Parameter Names for Custom Cycle Definition
    • To Define the Tool Motion for the Custom Cycle
    • To Build New Expressions
    • Example: Building an Expression
    • To Modify a Custom Cycle
    • To Delete a Custom Cycle
    • To Create Holemaking NC Sequences Using Custom Cycles
    • To Assign Values to References and Variables
    • Example: Creating a Custom Holemaking NC Sequence
  •  Auto Drilling
    • About Auto Drilling
    • To Create an Auto Drilling NC Sequence
    • To Select a Coordinate System and Retract Plane
    • The Default Coordinate System and Retract Plane
    • To Filter Rows
    • Filters Available for Auto Drilling
    • To Edit Hole Parameters
    • To Apply Hole Strategies
    • Defining Your Hole Strategies
    • To Customize the Table
    • To Reorder the NC Sequences Created by Auto Drilling
  •  Wire EDM
    • About Wire EDM NC Sequences
    • To Create a 2-Axis Wire EDM NC Sequence
    • Contouring and No Core Cut Motions
    • To Create Rough, Finish, and Detach Cut Motions
    • Example: Rough, Finish, and Detach Cut Motions
    • To Specify Thread Point and Approach Point
    • Example: Specifying Thread Point and Approach Point
    • To Specify Taper Angle for 2-Axis Contouring
    • To Specify Corner Conditions
    • Corner Condition Types
    • Example: Corner Conditions
    • To Create No Core Cut Motions
    • Specifying a Start Point for No Core Cut Motions
    • To Use Previous Cut Motions
    • To Mirror Cut Motions
    • Example: Mirroring Cut Motions
    • To Create a 4-Axis Wire EDM NC Sequence in Taper Angle Format
    • To Create a 4-Axis Wire EDM NC Sequence in Head1/Head2 Format
    • Automatic Synchronization of Start and End Points
    • To Set Up the Register Table(s)
    • Register Tables
    • To Set Up the Radius Substitution Table(s)
    • Radius Substitution Tables
  •  Auxiliary NC Sequences
    • About Auxiliary NC Sequences
    • To Create an Auxiliary NC Sequence
    • Machine Simulation with External Files
  •  User-Defined NC Sequences
    • About User-Defined NC Sequences
    • To Define a Manufacturing UDF
    • Including Operations, Workcells, and Reference Superfeatures in a Manufacturing UDF
    • Example: Manufacturing a Group of Features
    • To Place an UDF Using Advanced Reference Configuration
    • To Place a Previously Defined Group in Another Manufacturing Model
    • Example: Using a Manufacturing UDF with Pro/PROGRAM
  •  Mirror NC Sequences
    • About Mirror NC Sequences
    • To Mirror a Single NC Sequence
    • To Mirror Multiple NC Sequences
    • To Edit a Mirror Sequence
  •  The Customize Dialog Box
    • About the Customize Dialog Box
    • To Create a Control Point
    • To Create an Offset Control Point
    • Offset Control Points
    • To Create an Automatic Cut Motion
    • Implicit Tool Motions
    • To Redefine a Follow Cut Motion
    • The Follow Cut Dialog Box
    • To Split a Follow Cut Motion
    • To Create a Follow Sketch Motion
    • Example: Using Tool Kerf and CL Command
    • To Create a Follow Sketch Motion in Holemaking
    • To Create a Connect Motion
    • To Redefine the Connect Motions
    • To Create a GoTo Point Motion
    • To Create a Go Delta Motion
    • Modifying the Go Delta Increments
    • To Create a Go Home Motion
    • To Create a Plunge Motion
    • Plunge Motions
    • To Create a Retract Motion
    • To Create a Tangent Approach Motion
    • To Create a Tangent Exit Motion
    • To Create a Normal Approach Motion
    • To Create a Normal Exit Motion
    • To Create a Lead In Motion
    • Lead In and Lead Out Motions
    • To Create a Lead Out Motion
    • To Create a Helical Approach Motion
    • To Create a Helical Exit Motion
    • To Create an Approach Motion Along Tool Axis
    • To Create an Exit Motion Along Tool Axis
    • To Specify Parameters for a Tool Motion
    • To Specify Axis Orientation for a Tool Motion
    •  Inserting CL Commands
      • About Inserting CL Commands
      • To Create a User-defined Syntax Menu
      • Rules for Creating Menu Definition Files
      • To Insert a CL Command
      • Modifying CL Commands
      • CL Commands
  •  Customizing the Operation Tool Path
    • About Customizing the Operation Tool Path
    • To Reorder Output of NC Sequence Tool Paths
    • Using the Synchronize Dialog Box
    • To Synchronize Output of NC Sequence Tool Paths
    • To Specify Synch Points
    • Gantt Chart of a Synchronized Operation
    • To Insert a CL Command
    • Adding CL Commands at the Operation Level
    • To Modify a CL Command
    • To Find a CL Command
    • To Delete a CL Command
    • To Copy a CL Command
  •  CL Data
    • About CL Data
    • To Write CL Data to a File
    • Default CL File Names
    • To Create a Set of NC Sequences
    • Sets of NC Sequences
    • To Output CL Data for a Set of NC Sequences
    • To Process CL Data on a Remote Machine
    • To Input a CL Data File
    • To Display CL Data for an Operation, NC Sequence, or a Set of NC Sequences
    • The DISPLAY CL Menu
    • To Display Tool Path for an NC Sequence
    • To Rotate or Translate CL Data
    • Example: Translating CL Data
    • To Mirror CL Data
    • Example: Mirroring CL Data
    • To Scale CL Data
    • To Output CL Data in Different Units
    • To Edit CL Data Files
    • To Perform Screen Editing of CL Data
    • To Perform Search/Replace
    • To Perform CL Data Gouge Checking
    • To Specify an NC Alias
    • NC Aliases
    • To Include Pre- and Post-Machining Files
    • To Convert a CL File
    • Converting CL Files
    •  Using the PLAY PATH Dialog Box
      • About the PLAY PATH Dialog Box
      • To Display the Tool Path
      • Tool Display Options
      • Collision Checking Options
      • To Check Collision
      • To Add a Break Point
      • Manipulating Break Points
      • To Position the Tool
      • To Insert a CL Command
      • To Delete a CL Command
      • To Redefine a CL Command
      • Using Parameters in CL Commands
      • To Save CL Data in a File
    •  Using the Job Manager
      • About the Job Manager
      • To Submit a Tool Path for Remote Computation
      • To Schedule a Job
      • Job Status
      • To Delete a Job Submitted for Remote Computation
  •  Subroutine Programming
    • About Subroutine Programming
    • To Create a New Subroutine Pattern
    • Limitations
    • Examples: Subroutine Programming
    • To Redefine a Subroutine Pattern
  •  NC Post-Processing
    • About NC Post-Processing
    • To Generate a CL File and an MCD File at the Same Time
    • To Generate an MCD File from an Existing CL File
  •  CL Output
    • To Insert a CL Command
    • About CL Output
    • Supported CL Data Commands
    • CL Output for Holemaking Cycles
    • CL Output for Circular Interpolation
    • CL Output for NURBS Interpolation
    • CL Output for Multitasking Tools
    • Synchronized Output for XY-UV 4-Axis Wire EDM
  •  Modifying NC Sequences
    • About Modifying NC Sequences
    • To Modify an NC Sequence
    • Modifying Parameters of Multiple Automatic Cut Motions
    • To Change a Parameter Value for All Cut Motions at Once
    • To Regenerate the Manufacturing Model
    • To Redefine an NC Sequence
    • To Reorder an NC Sequence
    • To Suppress or Delete Mill Volumes and Surfaces
  •  Patterning NC Sequences
    • About Tool Path Duplication
    • Setting the Tool Path Order of Output for Manufacturing
    • Patterning Options
    • Defining Fixture Offsets
    • Coordinate System Patterns
    • Using Relations
    • About Patterning NC Sequences
    • To Create a Dimension Pattern of an NC Sequence
    • About Direction-based Patterning
    • To Create a Direction Pattern of an NC Sequence
    • To Redefine a Coordinate Pattern of an NC Sequence
    • About Axis-based Patterning
    • To Create an Axis-based Pattern
    • About Table-based Patterning
    • To Create a Table-based Pattern
    • About Reference Patterns
    • To Create a Reference Manufacturing Pattern
    • To Reference Pattern a Volume Milling NC Sequence
  •  NC Check
    • About Material Removal Simulation
    •  ModuleWorks
      • About Using ModuleWorks to Simulate Material Removal
      • To Simulate Material Removal
      • About the Play Simulation Dialog Box
      • To Compare the Offsets of Stock to Target Part
      • To Modify the Settings of Material Removal Simulation
      • About Low Tessellation Warning Message
    •  NC-Check
      • About Using NC-CHECK
      • To Access NC Check at the Time of Creating an NC Sequence
      • To Access NC Check at Any Time
      • To Set Up the Display
      • NC Check Colors
      • To Change a Default NC Check Color
      • To Store the Color Setup
      • To Control the Tool Display
      • To Change the Step Size
      • To Change the Resolution
      • To Run the CL Data
      • Clip Planes
      • To Create or Modify a Clip Plane
      • To Change Image
      • To Refresh the Display
      • To Access NC Check When Editing CL Data
      • To Set Up Trim Planes
      • To Save an Image
      • To Restore an Image
      • To Use Shaded Images
    •  About Stock Models
      • About Stock Models
      • To Create a Stock Model
  •  Changing Feed Colors
    • About Changing Feed Colors
    • To Change a Feed Color
    • To Change a Feed Range
  •  Model Tree
    • About Model Tree
    • To Display the Manufacturing Features
    • To Select the Features to Display
    • To Display the Manufacturing Parent/Child Relationships
    • To Add Manufacturing Parameters
  •  Family Tables
    • About Working With Family Tables
    • Suppressing and Resuming Manufacturing Geometry Features in Family Tables
    • Working with Family Tables and the Process Manager
  •  Shop Floor Report
    • About Generating Automatic Shop Floor Reports
    • To Generate a Shop Floor Report
    • Creo View Viewables in a Shop Floor Report
  •  Process Manager
    • About the Process Manager
    •  Working with the Process Table
      • About the Process Table
      • To Access the Process Table
      • Selecting Objects in the Process Table
      • To Insert a Workcell
      • To Specify Travel Limits and Strokes for a Machine Tool
      • Machine Tool Overtravel Notification
      • To Highlight the Machining Limits of a Workcell
      • To Insert an Operation
      • To Insert a Milling Step
      • To Insert a Turning Step
      • To Insert a Manual Milling Cycle Step
      • To Insert a Trajectory Milling Step
      •  Creating Retract Surfaces
        • Creating Retract Surfaces
        • To Set Up a Retract Plane in the Process Table
        • To Set Up a Retract Sphere in the Process Table
        • To Set Up a Retract Cylinder in the Process Table
        • To Set Up Retract Along a Revolved Surface in the Process Table
      • To Specify the Trajectory Curve for a 2-Axis Trajectory Milling Step
      • Custom Cycles in the Process Table
      • To Create Custom Cycles in the Process Table
      • To Insert a Holemaking Step
      • To Define a Hole Set in Process Manager
      • To Create an Annotation Feature
      •  Parameters and Relations
        • About Parameters and Relations in the Process Table
        • To Specify Local Parameters for a Step
        • To Specify Local Relations for a Step
        • To Specify Global Parameters for Steps
        • To Specify Global Relations for Steps
        • To Add a Custom Parameter to the Process Table
        • Example: Global Parameters
      • To Edit Step Parameters
      • To Copy Parameters from an Existing Step in the Process Table
      • About Working with Site Files in the Process Table
      • To Retrieve Parameters from a Site File in the Process Table
      • To Specify Prerequisites for a Step
      • To Define Manufacturing Geometry
      • To Insert a Fixture Setup
      •  Workcell Fixture Compatibility
        • About the Workcell Fixture Compatibility List File
        • To Modify the Workcell Fixture Compatibility List File
        • Example: Workcell Fixture Compatibility List File
      • To Insert an Assembly Step
      • To Specify the Setup Time
      • To Create In-Process Geometry
      •  Reordering Steps
        • To Reorder Steps
        • Reordering and Duplicating Steps
        • Example: Reordering Steps
      •  Groups
        • Creating and Working with Merge Groups
        • Merge Requirements
        • To Merge Steps Manually
        • To Merge Steps Automatically
        • Creating and Working with Same Behavior Groups
        • To Create Same Behavior Groups
        • To Create Automatic Same Behavior Groups
        • Example: Merge Groups and Same Behavior Groups
        • To Create Gang Tool Groups
        • Gang Tool Grouping Requirements
        • Example: Using Gang Tool and Same Behavior Grouping
      • To Lock and Unlock Steps
      •  Views
        • To Change the Table View
        • Table Views
        • To Build a Custom View
        • Saving Custom Views
        • Example: Table Views
        • To Specify Custom Headers for Columns
      •  Exporting Process Table Data
        • About Exporting Process Table Data to a CSV File
        • To Export Data From the Process Table
        • Rules for Editing the Process Table Data
        • To Modify Groups in the Exported Process Table Data
        • To Synchronize the Process Table Data With the Exported Process Table Data File
      • To Display Tool Path
      • To Compute the Step Time
      • To Display Tool Path Along with Machine Simulation
      • Rules for Creating a Machine Assembly to be Used for Machine Simulation
      • To Include or Exclude Components for Collision Checking
      • To View the Process Time Graphs
      • To View the Estimated Removed Volume
      • To Perform Line Balancing
      • To Search the Process Table
      • To Print Process Reports
    •  Working with Manufacturing Templates
      • About Manufacturing Templates
      • To Create a Manufacturing Template
      • To Insert Steps from a Template
      • Rules for Inserting a Step from a Template
      • To Create a Workcell Template
      • To Insert Workcells from a Template
      • About Defining the Manufacturing Criteria
      • To Create or Modify the UDF-MFG Criteria Name Association File
      • To Place a UDF in a Manufacturing Model
      • To Add Manufacturing Annotation to a Part or Assembly
      • Using the Mfg Template AE Setup Dialog Box
      • To Extract Manufacturing Annotation
      • Rules for Extracting Manufacturing Annotation
      • To See the Model View
      • Example: Manufacturing Criteria Name Usage in the Process Table
      • Example: Manufacturing Criteria Name Usage while Placing a UDF
      • To Sort Steps by Extraction Priority
      • Example: Rules Breaking and Checking
      • To Replace Manufacturing Templates
      •  Process Templates
        • About Process Templates
        • To Create a Process Template
        • To Extract Steps From a Process Template
        • Example: Using Process Templates
  •  Probe Cycles
    • About Probe Cycles in Creo NC
    • Probe POINT
    • Probe X_SURF
    • Probe Y_SURF
    • Probe Z_SURF
    • Probe BOSS
    • Probe BORE
    • Probe SLOT
    • Probe WEB
    • Probe OUTSIDE CORNER
    • Probe INSIDE CORNER
  •  Naming Conventions
    • About Naming Conventions
  •  Glossary
    • Glossary for Creo NC
    • List of Manufacturing Parameters
•  Expert Machinist
  •  Using Expert Machinist
    • About Expert Machinist
    • To Create a Machining Process
    • To Retrieve a Machining Process
    • About Legacy .mfg Files
    • To Create a New NC Model
    • No Stock Machining
    • The NC MODEL Menu Commands
    • Tip: Creating NC Models
    • To Replace a Reference Model
    • Part Family Tables in Expert Machinist
  •  Configuring for Expert Machinist
    • About Configuration File Options
    • To Set Expert Machinist Configuration Options
    • Configurations Options for Expert Machinist
  •  Creating and Modifying Stock
    • About Stock
    • To Create a Stock-Workpiece
    • To Create Automatic Stock
    • To Assemble a Stock Using The Same Model
    • Example: Creating a Default Billet
  •  Operations
    • To Create an Operation
    • The Operation Tab
    • To Define Program Zero
    • Program Zero Usage
  •  Machine Tools
    • To Create a Machine Tool (Work Center)
    • Work Center Settings
    • To Set Up a PPRINT Table
    • The PPRINT Table
  •  Fixtures
    • About Fixtures
    • To Create a Fixture Setup
    • The Fixture Setup Tab
    • To Activate a Fixture Setup
    • To Modify a Fixture Setup
    • To Delete a Fixture Setup
    • Tip: Using Fixture Setups
  •  Cutting Tools
    • About Setting Up Tools
    • To Set Up Cutting Tools
    • The Tool Setup Dialog Box
    • To Set Up the Material Directory Structure
    • Example: Setting Up the Material Directory Structure
    • To Add a New Tool
    • To Specify the Cutting Data for the Tool
    • To Provide the Bill of Materials for the Tool
    • To Retrieve Tool Parameters
    • To Add a Sketched Tool
    • To Modify an Existing Tool
    • To Delete a Tool
    • To Save Tool Parameters
    • To Create a Tool Model
    • Solid Tool Models
    • To Use a Tool Model
    • Using Assembly as a Tool Model
  •  Machining Features
    • About Machining Features
    • To Create a Machining Feature
    • Creating Machining Features for No Stock Machining
    • To Adjust Feature Boundaries
    • Example: Adjusting Feature Boundaries
    • To Adjust Soft Walls
    • To Adjust Feature Depth
    • To Adjust Feature Top
    • To Machine a Feature
    • To Set Tool Path Properties
    • Automatic Placement of CL Commands
    • To Mimic a Tool Path
  •  Face Features
    • To Create a Face Feature
    • To Machine a Face Feature
    • The Face Milling Dialog Box
    • Example: Face Machining
  •  Slab Features
    • To Create a Slab Feature
    • Example: Creating a Slab Feature
    • To Machine a Slab Feature
    • The Slab Milling Dialog Box
  •  Pocket Features
    • To Create a Pocket Feature
    • To Machine a Pocket Feature
    • The Pocket Milling Dialog Box
  •  Through Pocket Features
    • To Create a Through Pocket Feature
    • Example: Creating a Through Pocket
    • To Machine a Through Pocket Feature
    • The Through Pocket Milling Dialog Box
  •  Step Features
    • To Create a Step Feature
    • To Machine a Step Feature
    • The Step Milling Dialog Box
  •  Profile Features
    • To Create a Profile Feature
    • To Machine a Profile Feature
    • The Profile Milling Dialog Box
  •  Channel Features
    • To Create a Channel Feature
    • Example: Creating a Channel Feature
    • To Machine a Channel Feature
    • The Channel Milling Dialog Box
    • Example: Channel Machining
  •  Slot Features
    • To Create a Slot Feature
    • To Machine a Slot Feature
    • The Slot Milling Dialog Box
  •  Through Slot Features
    • To Create a Through Slot Feature
    • To Machine a Through Slot Feature
    • The Through Slot Milling Dialog Box
  •  Boss Top Features
    • To Create a Boss Top Feature
    • Example: Creating a Boss Top Feature
    • To Machine a Boss Top Feature
    • The Boss Top Milling Dialog Box
    • Example: Boss Top Machining
  •  Flange Features
    • To Create a Flange Feature
    • Example: Creating a Flange Feature
    • To Machine a Flange Feature
    • The Flange Milling Dialog Box
  •  O-Ring Features
    • To Create an O-Ring Feature
    • To Machine an O-Ring Feature
    • The O-Ring Milling Dialog Box
    • Example: O-Ring Machining
  •  Rib Top Features
    • To Create a Rib Top Feature
    • Example: Creating a Rib Top Feature
    • To Machine a Rib Top Feature
    • The Rib Top Milling Dialog Box
    • Example: Rib Top Machining
    • Example: Open Rib Top Machining
  •  Undercut Features
    • To Create an Undercut Feature
    • Example: Creating an Undercut
    • To Machine an Undercut Feature
    • The Undercut Milling Dialog Box
    • Using the Side Mill Tool
    • Example: Machining an Undercut
  •  Top Chamfer Features
    • To Create a Top Chamfer Feature
    • Example: Creating a Top Chamfer Feature
    • To Machine a Top Chamfer Feature
    • The Top Round/Chamfer Milling Dialog Box
    • Using the Chamfering Tool
  •  Top Round Features
    • To Create a Top Round Feature
    • Example: Creating a Top Round Feature
    • To Machine a Top Round Feature
    • The Top Round/Chamfer Milling Dialog Box
    • Using the Corner Rounding Tool
    • Example: Top Round Machining
  •  Hole Group Features
    • To Create a Hole Group Feature
    • Combining Selection Methods
    • To Select Holes by Axes
    • To Select Holes by Diameters
    • To Select Holes by Surfaces
    • To Select Holes by Feature Parameters
    • To Machine a Hole Group Feature
    • The Drilling Strategy Dialog Box
    • Example: Automatic Chamfer Machining
  •  Entry Hole Features
    • To Create an Entry Hole Feature
    • The Entry Hole Dialog Box
    • To Machine an Entry Hole Feature
  •  Free Form Machining
    • To Machine a Free Form Feature
    • The Freeform Milling Dialog Box
    • The Finish Cuts Dialog Box
    • The Finish Passes Dialog Box
  •  Tool Path Display and Output
    • About Displaying the Tool Path
    • To Display the Tool Path
    • The PLAY PATH Dialog Box
    • To Add a Break Point
    • Manipulating Break Points
    • To Position the Tool
    • To Insert a CL Command
    • Using Parameters in CL Commands
    • To Delete a CL Command
    • To Redefine a CL Command
    • To Save CL Data in a File
    • To Output a CL File
    • To Output NC Codes
  •  Template Machining
    • About the Template Manager
    • To Create a New Template
    • To Place a Template
  •  Miscellaneous
    • To Manipulate Features Using the Model Tree
    • Options Available from the Model Tree
    • To Toggle Material Display
  • To Create Stock
  • To Modify Stock Outline
  • The Automatic Stock Creation Dashboard
  • Example: Modifying the Standard Stock Sizes
  • To Modify Stock Offsets
•  Manufacturing Process Planning
  •  Introduction
    • About Manufacturing Process Planning for MFG
    • About Defining the Process Plan Work Flow
    • To Use Manufacturing Process Planning for MFG
    • About Specific Uses for Manufacturing Process Planning for MFG
    • About the Part Machining Process Plan
    • To Document the Part Machining Process Plan
    •  Configuring Manufacturing Process Planning for MFG
      • About Configuring Manufacturing Process Planning for MFG
      • To Set Manufacturing Process Planning for MFG Configuration Options
      • Configurations Options for Process Manufacturing
  •  Process Steps
    • About Process Assemblies
    • To Use Process Mode
    • Setting Up the Manufacturing Process
    • STEP REGEN Menu Commands
    • About Tool Features
    •  Read About and Create Steps
      • About Play Steps
      • About Process Steps
      • To Create a Machine Step
      • About Fixture Steps
      • To Create a Fixture Step
      • About General Steps
      • To Create a General Step
      • About Volume Steps
      • To Create a Volume Step
      • About Manufacturing Model Steps
      • To Create a Manufacturing Model Step
      • About Surface Steps
      • To Create a Surface Step
    •  View Steps
      • To View a Process Step
      • To View a Previous or Next Step
      • To View the Process Operation
      • To View the Previous or Next Operation
  •  Documenting the Process
    •  Create Customized Documentation
      • About Drawing Mode
      • To Create Views of Process Steps
      • Process State Dialog Box Options
      • To Enter an Existing Drawing
      • To Open a New Drawing
      • To Copy a Process Drawing Sheet
    •  Read About Process State
      • To Change the Process Component State in a View
      • To Set Process Component State in New Views
      • Process State Dialog Box Options
    •  Specific Process Considerations
      • About Process-Specific Considerations
      • About Adding a View or Repeat Region
      • About Modifying a View or Repeat Region
      • About Switching Sheets of Views or Repeat Regions
      • About Machining Process Assembly as Default Model
    •  Reports
      • To Create a New Report
      • Parameters for Manufacturing Process Drawings
      • Repeat Regions in Reports
  •  Other Process Functions
    • About Obtaining Information
    • About Step Information
    •  Simplified Representations
      • About Using Simplified Representations with Large Design Assemblies
      • To Create Simplified Representations for a Process Model
      • To Apply Simplified Representations to a Step
      • To Retrieve a Simplified Representation From a Process
  •  Sample Session
    • About the Sample Session
    • To Retrieve the Process Model
    • Example: Retrieved Process Model
    • To Create Drawings
    • To Use the Play Steps Functionality
    • Example: MFG Model Stock Assembled
    • To Use the Copy Process Functionality
    • Example: Copy Process Functionality
•  Coordinate Measuring Machines (CMM)
  • CMM Overview
  •  Using CMM
    • About CMM
    • To Create a CMM Model
    • To Retrieve a CMM Model
    • About Legacy .mfg Files
    • To Bring Components into a CMM Model
    • About Working with Family Tables
    • To Replace a Reference Model
    • Part Family Tables in CMM
  •  Configuring for CMM
    • About Configuration File Options
    • To Set CMM Configuration Options
    • Configurations Options for CMM
  •  CMM Process
    • About CMM Process
    • To Create CMM Steps
    • Measure, Construct, and Verify Steps
    • To Select CMM Steps
    • To Make Changes to CMM Steps
    • To Modify CMM Steps
    • To Pattern CMM Steps
    • Patterning Measure Steps
    • Example: Patterning a Measure Step
  •  Operations
    • About Operations
    • To Create an Operation
    • The Operation Tab
    • To Specify Comments for an Operation or CMM Step
    • To Activate an Operation
  •  Workcells
    • About Workcells
    • To Create a Work Center (Workcell)
    • CMM Work Center
    • Saving and Retrieving Workcells
    • To Setup a DMIS Text Data
    • Setting Up DMIS Text Data
  •  Fixtures
    • About Fixtures
    • To Create a Fixture Setup
    • The Fixture Setup Tab
    • To Activate a Fixture Setup
    • To Modify a Fixture Setup
    • To Delete a Fixture Setup
  •  Sites
    • About Sites
    • To Create a New Site File
    • Manipulating Sites
    • Parameter Visibility
    • To Activate a Site
    • Activating a Site
    • To Associate a Site with a Workcell
    • Associating a Site with a Workcell
  •  Coordinate Systems
    • About Coordinate Systems
    • To Create a New Reference Coordinate System
    • Example 1: Using Primary Axis
    • Example 2: Using Custom Transformation
  •  Probes
    • About Probes
    • To Create a Probe Model
    • Probe Model
    • Example: Probe Models
    • To Add a Probe
    •  Camera Probes
      • About Camera Probes
      • To Create a Camera Probe Model
      • Camera Probe Model
      • Example: Camera Probe Model
      • To Add a Camera Probe
      • Adding or Creating a Camera Probe
    • Setting Up Probes
    • To Delete a Probe
    • To Modify a Probe
    •  Replacing Probes
      • About Replacing Probes
      • To Replace a Probe (File System)
      • To Replace a Probe (Workcell)
    • To List Information About Probes
    • To Use a Default Probe
    • Default Probes
  •  Measure Steps
    • About Measure Steps
    • To Create a Measure Step
    •  The MEASUREMENT STEP Dialog Box
      • About the MEASUREMENT STEP dialog box
      • To Specify Attributes
      • To Specify a Probe
      • To Specify the Reference Coordinate System
      • To Specify the Step Name
      •  Measure Step Parameters
        • About Measure Step Parameters
        • The PARAMETERS SETUP Dialog Box
        • Parameter Inheritance
        • Parameters Library
        • To Include Parameters in Relations
        • Using Parameters in Relations
        • Common Parameters
        • To Specify Parameters for Measure Step
        • To Customize Parameters Table
      • To Specify Geometric References
      • To Specify Measure Points
      •  Scan
        • About Scan
        • About SCAN User Interface
      • To Change the Probe Path
      • To Change the Clearance
      • To Define a Clearance Plane
      • Clearance Plane Purpose
      • To Delete a Clearance Plane
      • To Set Up Start and End Points for the Probe Path
    •  Probe Move Types
      • About Probe Moves
      • To Create Go Delta Moves
      • To Create Move to Pt Moves
      • To Create Move to Pln Moves
    •  Measure Plane
      • To Measure a Plane
      • Automatic Points Generation for Measure Plane
      • Specific Parameters for Measure Plane
    •  Measure Cylinder
      • To Measure a Cylinder
      • Automatic Points Generation for Measure Cylinder
      • Specific Parameters for Measure Cylinder
      • Example: Measuring a Cylinder
    •  Measure Circle
      • To Measure a Circle
      • Automatic Points Generation for Measure Circle
      • Specific Parameters for Measure Circle
      • Example: Measuring a Circle
    •  Measure Surface
      • To Measure a Surface
      • Automatic Points Generation for Measure Surface
      • Example: Measuring a Surface
    •  Measure Sphere
      • To Measure a Sphere
      • Automatic Points Generation for Measure Sphere
      • Specific Parameters for Measure Sphere
      • Example: Measuring a Sphere
    •  Measure Point
      • To Measure a Point
      • Example: Measuring a Point
    •  Measure Cone
      • To Measure a Cone
      • Automatic Points Generation for Measure Cone
      • Specific Parameters for Measure Cone
      • Example: Measuring a Cone
    •  Measure Line
      • To Measure a Line
      • Bounded and Unbounded Lines
      • Example: Measuring a Line
    •  Measure from Scan
      • About Measure from Scan
      • To Measure from Scan
  •  Construct Steps
    • About Construct Steps
    • To Create a Construct Step
    • The CMM Construct Tab
    • To Specify the Step Name
    •  Construct Plane
      • Types of Constructed Planes
      • To Create a Best Fit Plane
      • Example: Creating a Best Fit Plane
      • To Create a Midplane Plane
      • Example: Creating a Midplane Plane
      • To Create a Normal Plane
      • Example: Creating a Normal Plane
      • To Create a Parallel Plane
      • Example: Creating a Parallel Plane
      • To Create a Theoretical Plane
    •  Construct Line
      • Types of Constructed Lines
      • To Create a Best Fit Line
      • Example: Creating a Best Fit Line
      • To Create a Midline Line
      • Example: Creating a Midline Line
      • To Create a Projection Line
      • Example: Creating a Projection Line
      • To Create an Intersect Line
      • Example: Creating an Intersect Line
      • To Create a Theoretical Line
    •  Construct Circle
      • Types of Constructed Circles
      • To Create a Best Fit Circle
      • Example: Creating a Best Fit Circle
      • To Create a Projection Circle
      • Example: Creating a Projection Circle
      • To Create an Intersect Circle
      • Example: Creating an Intersect Circle
    •  Construct Cylinder
      • To Create a Constructed Cylinder
      • Example: Creating a Constructed Cylinder
    •  Construct Sphere
      • To Create a Constructed Sphere
      • Example: Creating a Constructed Sphere
    •  Construct Point
      • Types of Constructed Points
      • To Create a Midpoint Point
      • Example: Creating a Midpoint Point
      • To Create a Projection Point
      • Example: Creating a Projection Point
      • To Create an Intersect Point
      • Example: Creating an Intersect Point
      • To Create a Theoretical Point
  •  Verify Steps
    • About Verify Steps
    • To Create a Verify Step
    • To Verify Dimension Tolerances
    • Example: Verifying a Dimension Tolerance
    • To Verify Geometric Tolerances
    • Example: Verifying a Geometric Tolerance
    •  The CMM VERIFY Dialog Box
      • About the CMM VERIFY Dialog Box
      • To Specify Tolerance
      • To Specify Features
      • To Specify Datums
      • To Change the Reference Coordinate System
      • Reference Coordinate System
  •  Auxiliary Steps
    • About Auxiliary Steps
    • To Create an Auxiliary Step
    • To Create Auxiliary Commands
    • To Create GoTo Point Motions
    • To Create an Offset Control Point
    • To Create Go Delta Motions
    • Modifying the Increments of a Go Delta Motion
    • To Insert DMIS Commands
    • Modifying the User-Defined DMIS Commands
  •  Probe Path
    • About Probe Path
    • About DMIS Data
    • To Display the Probe Path
    • Displaying the Probe Path
    • Example: Displaying the Probe Path
    •  Using the PLAY PATH Dialog Box
      • About the PLAY PATH Dialog box
      • Probe Display Options
      • To Check Collision
      • To Add a Break Point
      • Manipulating Break Points
      • To Position the Probe
      • Supported DMIS Commands
      • To Write a DMIS File to Disk
      • Writing DMIS Files to Disk
      • To Display Probe Path Along with Machine Simulation
      • Rules for Creating Machine Assembly to be Used for Machine Simulation
      • To Include or Exclude Components for Collision Checking
    • To Display a DMIS File
    • To Output Operator Instructions
    • Outputting Operator Instructions
    • To Rotate or Translate the Probe Path
    • To Mirror the Probe Path
    • To Scale the Probe Path
    • To Output the Probe Path in Different Units
    •  Process Information
      • About Process Information
      • To View Process Information
      • To Output CMM Process Information
      • To Set Up Filter Configuration
      • To Create a Customized Report on a CMM Process
      • Using Reports in CMM
      • Examples: Creating a Customized Report on a CMM Process
•  Manufacturing Verification
  •  VERIFY
    •  Basics of VERIFY
      • About Verify
      • To Use Verify
      • Example: Typical Scan File Extract
    •  Working with Verification Assemblies
      • About Creating the Verification Assembly
      • To Create a Verification Assembly
      • Verification Menu Commands
      • To Save a Verify Assembly
      • To Retrieve an Existing Verify Assembly
    •  Working with Scan Sets
      • About Scan Sets
      • To Create a Scan Set
      • Example: Create a Scan Set
      • Scan Set Menu Commands
      • Display Options with Scan Sets
      • To Place the Scan Set on the Design Model
      • To Change Scan Set Placement
      • To Create a Scan Set Output File
      • To Merge the Spherical Centers of Scan Sets
      • Merging Scan Sets
      • To Filter Display of Scan Sets
      • Filtering Scan Sets
      • Displaying and Blanking the Design Model or Scan Set
      • To Delete Points from a Scan Set
      • Deleting Points from a Scan Set
      • To Preview the Scan Display
    •  Fit and Analysis
      • About Fit and Analysis
      • To Create a Fit
      • Fit Scan Menu Commands
      • To Display a Fit
      • To Measure between a Scan Point and Other Geometry
      • To Fit a Scan Set to the Design Model
      • Tip: Fit Scan Set to Design Model
      • To Offset Scan Set by Radius of CMM Probe
    •  Analyzing Deviation
      • About Deviation Analysis
      • To Set Up a Deviation Case
      • Deviation Menu Commands
    •  Verification Results
      • About Verification Results
      • To Compute Deviation Features
      • To Graphically Display Deviation Feature Results
      • To Plot Computed Deviation Case Results
      • To Tabulate Deviation Cases
      • To Export Computed Deviation Results
•  Additive Manufacturing
  • About Additive Manufacturing
  • To Set Additive Manufacturing Options
  • Configuration Options for Additive Manufacturing
  •  Preparing Models for 3D Printing
    • About Preparing Models for 3D Printing
    • About the Tray User Interface
    • To Create a Tray Assembly
    • To Add a Printer
  •  Support Structures
    • About Support Structures
    • About the Support Structure User Interface
    • To Generate Support Structures
    • To Apply a Profile to Support Structures
    • To Edit Support Structure Profiles
    • To Import Support Structure Profiles
    • To Set the Support Structure Format
  •  3D Print Analysis
    • About Additive Manufacturing Analysis
    • To Perform Printability Validation
  •  Printing a Model in 3D
    • About Using a Stratasys or 3D Systems 3D Printer
    • About the 3D Print Preview User Interface
    • To Print a Model in 3D Using a Printer
    • To Change the Colors of Models on the Tray
    • About Automatic Color Matching
  •  Ordering a Model
    • About Ordering a Model
    • To Order Models from a Service Bureau
  • Glossary for Additive Manufacturing