Simulazione
Panoramica di Creo Simulation Live
Introduzione a Creo Simulation Live
Requisiti hardware per Creo Simulation Live
Acquisizione di una licenza di prova per Creo Simulation Live
Workflow - Creo Simulation Live
Interfaccia utente di Creo Simulation Live
Studi di Creo Simulation Live
Esecuzione di una simulazione strutturale - Creo Simulation Live
Esempio: simulazione strutturale
Esecuzione di studi di simulazione termica - Creo Simulation Live
Esempio: simulazione termica
Esecuzione di una simulazione modale - Creo Simulation Live
Esempio: simulazione modale
Esecuzione di uno studio combinato in Creo Simulation Live
Esecuzione di studi di simulazione dei fluidi - Creo Simulation Live
Esempio - Simulazione di un flusso interno in Creo Simulation Live
Esempio - Simulazione di un fluido esterno in Creo Simulation Live
Esempio: rimozione della geometria interna
Definizione dell'ambito di una simulazione live
Contatti in Creo Simulation Live
Supporto per più corpi in Creo Simulation Live
Utilizzo di assiemi in Creo Simulation Live
Importazione degli studi di simulazione live a livello di parte nel livello di assieme
Limite di tempo
Qualità simulazione
Input di simulazione - Creo Simulation Live
Vincoli
Vincolo fisso - Creo Simulation Live
Vincolo di spostamento - Creo Simulation Live
Vincolo cilindrico
Vincolo sfera - Creo Simulation Live
Vincolo planare - Creo Simulation Live
Condizioni al limite termico
Condizione al limite di temperatura imposta - Creo Simulation Live
Temperatura iniziale - Creo Simulation Live
Condizione al limite di convezione - Creo Simulation Live
Condizione al limite di radiazione convezione - Creo Simulation Live
Condizioni al limite di simulazione dei fluidi
Velocità di flusso - Creo Simulation Live
Pressione in entrata
Pressione in uscita
Condizione al limite di un flusso di massa - Creo Simulation Live
Simmetria di slittamento - Creo Simulation Live
Condizione al limite di una parete rotante
Condizione al limite di entrata a vortice
Carichi di struttura
Carico di forza - Creo Simulation Live
Carico di momento - Creo Simulation Live
Carichi di pressione - Creo Simulation Live
Carico di gravità - Creo Simulation Live
Carico centrifugo - Creo Simulation Live
Carico di accelerazione lineare - Creo Simulation Live
Carichi termici
Carico di flusso di calore - Creo Simulation Live
Carico di potenza termica - Creo Simulation Live
Risultati di Simulation Live
Opzioni relative ai risultati - Creo Simulation Live
Opzioni di visualizzazione dei risultati per le linee di flusso
Opzioni di visualizzazione dei risultati per le particelle
Opzioni di visualizzazione dei risultati per i vettori
Utilizzo della legenda dei risultati in Creo Simulation Live
Esempio: risultati con diversi metodi di rendering
Tempo di simulazione
Visualizzazione dei risultati delle analisi dei fluidi in Creo Simulation Live
Visualizzazione di linee di flusso nei risultati di uno studio di Creo Simulation Live
Visualizzazione di particelle nei risultati
Visualizzazione di vettori nei risultati di uno studio di Creo Simulation Live
Visualizzazione dei piani di taglio nei risultati - Creo Simulation Live
Visualizzazione dei campi di direzione nei risultati - Creo Simulation Live
Interrogazione e salvataggio dei risultati
Report dei risultati della simulazione
Esportazione dei risultati di Simulation Live
Guida alla verifica - Creo Simulation Live e Creo Ansys Simulation
Casi di verifica - Analisi strutturali statiche
Casi di verifica - Analisi modali
Casi di verifica per analisi termiche
Casi di benchmark
Creo Ansys Simulation
Panoramica di Creo Ansys Simulation
Introduzione a Creo Ansys Simulation
Avvio dell'applicazione Creo Ansys Simulation
Interfaccia utente - Creo Ansys Simulation
Workflow - Creo Ansys Simulation
Impostazioni per Creo Ansys Simulation
Opzioni di configurazione - Creo Ansys Simulation
Unità in Creo Ansys Simulation
Assegnazione di materiali - Creo Ansys Simulation
Vincoli strutturali in Creo Ansys Simulation
Vincolo fisso - Creo Ansys Simulation
Vincolo di spostamento - Creo Ansys Simulation
Esempio: applicazione di un vincolo di spostamento da un punto remoto
Vincolo planare - Creo Ansys Simulation
Vincolo cilindrico - Creo Ansys Simulation
Vincolo sfera - Creo Ansys Simulation
Vincolo senza attrito - Creo Ansys Simulation
Componente inerziale - Creo Ansys Simulation
Carichi strutturali
Carico di forza - Creo Ansys Simulation
Carico di momento - Creo Ansys Simulation
Carichi portanti - Creo Ansys Simulation
Best practice - Carichi in Creo Ansys Simulation
Carichi di pressione - Creo Ansys Simulation
Carico di gravità - Creo Ansys Simulation
Carico centrifugo - Creo Ansys Simulation
Carico di accelerazione lineare - Creo Ansys Simulation
Carico di temperatura strutturale - Creo Ansys Simulation
Condizioni al limite termico in Creo Ansys Simulation
Condizione al limite di temperatura imposta - Creo Ansys Simulation
Condizione al limite di convezione - Creo Ansys Simulation
Condizione al limite di radiazione - Creo Ansys Simulation
Carichi termici
Carico di flusso di calore - Creo Ansys Simulation
Carico di potenza termica - Creo Ansys Simulation
Carico di generazione termica - Creo Ansys Simulation
Idealizzazioni
Idealizzazioni di massa - Creo Ansys Simulation
Molle - Creo Ansys Simulation
Comportamento di molla - Creo Ansys Simulation
Idealizzazioni di travatura - Creo Ansys Simulation
Sezioni di travatura - Creo Ansys Simulation
Libertà di travatura - Creo Ansys Simulation
Gusci - Creo Ansys Simulation
Coppie di gusci - Creo Ansys Simulation
Connessioni
Contatti in Creo Ansys Simulation
Giunti - Creo Ansys Simulation
Comportamenti di giunto - Creo Ansys Simulation
Feature Dividi superficie in due - Creo Ansys Simulation
Creazione di mesh in Creo Ansys Simulation
Controllo di una mesh
Controllo Dimensione mesh globale - Creo Ansys Simulation
Affinazione mesh locale
Esecuzione di studi di simulazione
Esecuzione di studi di simulazione - Creo Ansys Simulation
Utilizzo di Gestione processi in Creo Ansys Simulation
Diagnostica per Creo Ansys Simulation
Verifica geometria - Creo Ansys Simulation
Risultati in Creo Ansys Simulation
Risultati in Creo Ansys Simulation
Visualizzazione dei risultati di base
Definizione e visualizzazione dei risultati avanzati - Creo Ansys Simulation
Utilizzo delle maschere dei risultati - Creo Ansys Simulation
Legenda dei risultati in Creo Ansys Simulation
Interrogazione dei risultati - Creo Ansys Simulation
Utilizzo di finestre ausiliarie in Creo Ansys Simulation
Tipi di risultati in Creo Ansys Simulation
Personalizzazione dell'elenco dei risultati utilizzati di frequente
Salvataggio ed esportazione dei risultati in Creo Ansys Simulation
Stato degli oggetti di simulazione in Creo Ansys Simulation
Impostazioni del solutore in Creo Ansys Simulation
Importazione di oggetti di simulazione da altri strumenti di simulazione in Creo Ansys Simulation
Guida alla verifica - Creo Ansys Simulation
Contratto di licenza con l'utente finale Intel
Creo Simulate
Creo Simulate Overview
About Creo Simulate
Updates for Creo Simulate
Getting Started with Creo Simulate
Getting Started
Operating Modes
Operating Modes
Integrated Mode
Standalone Mode
Creo Simulate Products
The Creo Simulate Product Line
Creo Simulate Structure
Creo Simulate Thermal
Creo Simulate Workflow
Creo Simulate Workflow
Native Mode Workflow
FEM Mode Workflow
Planning and Modeling Considerations
Planning and Modeling Considerations
Building Part and Assemblies
Planning and Building Parts and Assemblies
Using Flexible Modeling Tools in Creo Simulate
Strategy: Keeping Models Simple
Strategy: Suppressing Nonessential Features
Strategy: Techniques for Refining your Geometry
Strategy: Techniques for Fully Specifying Your Geometry
Planning for Shape Changes
Planning for Shape Changes
Strategy: Planning Ahead for Shape Changes
Strategy: Developing a Featuring Scheme
Strategy: Identifying Relationships that Affect Shape Changes
Strategy: Changing Dimension Names
Strategy: Avoiding Topology Conflicts
Assembly Considerations
Simplified Assembly Representations in Creo Simulate
Retrieving Assemblies Modified in Creo Direct
Multi-CAD Assemblies in Creo Simulate
Using Creo Product Insight with Creo Simulate
About File Names in Creo Simulate
Using Effective Modeling Techniques
Simulation Modeling Techniques and Prerequisites
About Units
Using Coordinate Systems
Using Datum Features
Working with Surface and Volume Regions
To Dynamically Edit a Feature
About Editing and Replacing the References of Features
Using Parameters
Taking Advantage of Symmetry
Working with Symmetric Models
Example: Using Mirror Symmetry
Example: Using Cyclic Symmetry
Preparing a 2D Model
Planning for Optimization
Planning for Optimization Effects
Optimization and Suppressed Features
Optimization and Assemblies
Optimization and Generic Parts
Optimization and Reference Parts
User Interface Basics
Working with the User Interface
Using Dialog Boxes and Message Boxes
Creo Simulate Ribbon User Interface
Customizing the Ribbon
Process Guide
About Process Guide
Process Guide Session
Starting a New Process Guide Session
Re-entering an Existing Process Guide Session
Process Guide Dialog Box
Process Guide Templates
Process Template
Designing Process Guide Templates
Template Structure
Sample Process Guide Template
Process Guide Tasks
Model Objects and Attributes
Process Guide Template Dialog Box
To Create a Process Guide Template
Selection Methods
Mini Toolbar
About the Mini Toolbar in Creo Simulate
Mini Toolbar Commands in 2D Models
Mini Toolbar Commands in 3D Models
About Customizing the Mini Toolbar and Right Mouse Button Commands
Using Layers
Managing Modeling Entities Through Suppression and Family Tables
Simulation Display
Setting Simulation Visibility
Settings Tab
To Set Transparency for a Model
Modeling Entities Tab
Loads/Constraints Tab
Set Visibilities Tab
Mesh Tab
Applying Colors to Simulation Objects
Getting Information on Your Model
Removing Simulation Entities from Your Model
Printing Your Model
Creo Simulate Options
Changing Configuration Settings
Configuration File Options
About Configuration File Options
About Unit Settings Option
About Simulation Display Options
About General Modeling Options
About FEM Mode Modeling, Meshing, and Output Options
About Fatigue Options
About Run Options
About Result Display Options
About Miscellaneous Options
Online Help
Getting Help for Simulate
Online Help for Simulate
Supplemental Online Documents for Simulate
Modeling Structure and Thermal Problems
About Creating Models in Creo Simulate
About Regenerating Models
Support for Multibody Models in Creo Simulate
Using the Notification Center
Model Type
Setting Up a Model
About Model Types
Creo Simulate Lite
About Creo Simulate Lite
To Run a Creo Simulate Lite Analysis
To Display Simulation Entities in Model Tree
To Create a Model Note
To modify a Model Note
Structure Model Types
3D Model Type
2D Plane Stress Structure Model Type
2D Plane Strain Structure Model Type
2D Axisymmetric Structure Model Type
Thermal Model Type
3D Model Type
2D Plane Stress Thermal Model Type
2D Plane Strain Thermal Model Type
2D Axisymmetric Thermal Model Type
Guidelines for Working with Model Types
To Specify a Mode and Model Type
To Define 2D Model Types
Features
About Features
Datum Feature Interoperability
Datum Feature Interoperability
Promoting Datum Features
Creating Features
Datum Feature Creation
Simulation Feature Creation Methods
Guidelines for Simulation Features
Datum Point
Datum Point
To Create Datum Points
Datum Plane
Datum Plane
To Create Datum Planes
Datum Axis
Datum Axis
To Create Datum Axes
Datum Curve
Datum Curve
To Create a Datum Curve through Points
To Create a Datum Curve from Equations
To Create a Datum Curve Using a Cross Section
Editing Curves in Creo Simulate
To Create a Wrapped Datum Curve
To Copy Curves or Edges
To Create a Projected Datum Curve by Selecting Chains
To Create a Projected Datum Curve by Sketching
To Create a Projected Datum Curve by Cosmetic Sketching
To Offset a Curve Along a Surface
To Intersect Surfaces
To Offset a Curve Normal to Surface
To Trim a Curve or Quilt
Coordinate Systems
About Coordinate Systems
To Create a Coordinate System
Datum Reference
Intent Objects
Creating Intent Surfaces from Patterned Geometry
Datum References
To Create Datum References
Using Lattices in Creo Simulate
Working with Homogenized Lattices in Creo Simulate
Regions
Divide Surface
Divide Surface Feature—Creo Simulate
Volume Region
Volume Region
To Create Volume Regions
Split Surface
Separate Surface Region
To Create a Separate Surface Using Automatic Selection of Contours
To Create a Separate Surface Using Manual Selection of Contours
Connections
About Connections
Welds
About Welds
Weld Definition Dialog Box
About Automatic Midsurface Connections
End Welds
End Welds
End Weld Definition
Example: Extend Adjacent Surfaces for End Weld
To Create an End Weld
Perimeter Welds
Perimeter Welds
Perimeter Weld Definition
To Create a Perimeter Weld
Spot Welds
Spot Welds
Spot Weld Definition
To Create a Spot Weld
Weld Feature Welds
Weld Feature
Weld Feature Weld Definition
To Create a Weld Feature Weld
To Automatically Detect Weld Feature Welds
Fasteners
About Fasteners
About Fasteners
Fastener Modeling Prerequisites
Example: Intervening Geometry
Rotation and Separation in Fasteners
Example: Unwanted Rotation About a Fastener
Creating Fasteners
Fastener Definition Dialog Box—Connecting Shells
Fastener Definition Dialog Box—Connecting Solids
Defining Fasteners Using Diameter and Material
Defining Fasteners Using Spring Stiffness Properties
Modeling Fasteners—Connecting Shells
Modeling Fasteners—Connecting Solids
To Create a Fastener
Opening Models with Fasteners Created in Pre-Creo Simulate 1.0 Releases
Rigid Link
About Rigid Links
To Create a Rigid Link
To Edit a Rigid Link
To Delete a Rigid Link
To Create an Advanced Rigid Link
Rigid Links (FEM mode)
About Rigid Links (FEM Mode)
Rigid Links in NASTRAN
Creating Rigid Links (FEM mode)
To Create a Rigid Link (FEM Mode)
Weighted Links
About Weighted Links
Creating Weighted Links
To Create a Weighted Link
Weighted Links (FEM mode)
About Weighted Links (FEM Mode)
Creating Weighted Links (FEM mode)
To Create a Weighted Link (FEM Mode)
Interfaces
About Interfaces
Creating Interfaces
Structure Interfaces
Bonded Interfaces
Free Interfaces
Contact Interfaces
Thermal Interfaces
Bonded Interfaces
Adiabatic Interfaces
Thermal Resistance Interface
Gaps
About Gaps (FEM Mode)
Creating Gaps (FEM Mode)
To Create a Gap (FEM Mode)
Precedence Rules
Idealizations
About Idealizations
Shells
About Shells
Standard Shells
Shell Definition
Simple Shells
To Define a Simple Shell
Advanced Shells
To Define an Advanced Shell
Midsurface Shells
Before You Define a Shell Model
Before You Define a Shell Model
Pairing Schemes
Unopposed Surfaces
Model Entities and Idealizations
Gaps in Parts
Gaps in Assemblies
Shell Model Development
Defining Solid or Shell Models
Specifying Mesh Treatment for Models with Midsurfaces
Shell Pair Definition
Edit Shell Pair Definition
To Create a Shell Pair
Example: Variable thickness Shell Pairs
Example: Extend Adjacent Surfaces
Auto Detect Shell Pairs
Shell Compression
Shell Compression
To Test Shell Compression
Beams
About Beams
Example: Beam Display
Beam Coordinate Systems
Creating Beams
Beam Definition Dialog Box
Beam References
Beam Type
Y Direction for Beams
To Create a Beam
Masses
About Masses
Native Mode
Mass Definition Dialog Box
Setting a Coordinate System for an Advanced Mass
To Add a Mass to a Point
FEM Mode
Mass Definition Dialog Box (FEM mode)
To Add a Mass (FEM mode)
Springs
About Springs
Guidelines for Spring Creation
Simple Springs
Using Simple Springs
To Create a Simple Spring
To Create a Nonlinear Spring
To Ground Springs
Using To Ground Springs
To Create a To Ground Spring
Advanced Springs
Using Advanced Springs
Advanced Spring Restrictions (FEM mode)
Y Direction for Advanced Springs
To Create an Advanced Spring
Cracks
About Cracks
To Define a Crack
Precedence Rules
Zoom Into Idealizations
Properties
About Properties
Deleting Properties
Background Information
Properties on Idealizations and Geometry
Considerations for Using Properties
Beam Sections
About Beam Sections
Beam Section Library
Library Lists for Beam Sections, Shell Properties, and Spring Properties
Managing Library Files
Beam Section Definition Dialog Box
Sketched Solid and Sketched Thin
To Create a Sketched Thin Beam Section
Connections in Thin Wall Beam Sections
To Create Connections for a Sketched Thin Beam Section
Beam Stress Calculations
Beam Section Icons
Beam Section Property Calculations
To Create a Beam Section
Beam Orientation
About Beam Orientations
Beam Action Coordinate System
Beam Shape Coordinate System
Beam Centroidal Principal Coordinate System
Beam Orientation Definition Dialog Box
To Define Beam Orientation
Beam Releases
About Beam Releases
Beam Release Definition Dialog Box
Beam Release Icons
To Create a Beam Release
Example: Beam Releases on Composite Curves
Shell Properties
About Shell Properties
Shell Property Library
Library Lists for Beam Sections, Shell Properties, and Spring Properties
Managing Library Files
Shell Property Types
Guidelines for Using Shell Properties
About the Shell Properties Dialog Box
Shell Property Definition Dialog Box
Homogeneous Stiffness
Laminate Stiffness
About the Laminate Layup
To Define Shell Properties
Spring Properties
About Spring Properties
Spring Property Library
Library Lists for Beam Sections, Shell Properties, and Spring Properties
Managing Library Files
Defining Spring Stiffness and Damping Properties
Defining Spring Properties for 2D and 3D Models
To Define Spring Properties
Mass Properties
About Mass Properties
Specifying the Off-diagonal Moments of Inertia
Materials
About Materials
Guidelines and Background
Guidelines for Using Materials
About Material Properties
Material Types
Material Property Requirements
Material Basics
Material Definition for Native and FEM Mode
Opening a Model containing Materials from a release before Pro/ENGINEER Wildfire 3.0
Converting the Material Library File to the Pro/ENGINEER Wildfire 3.0 Format
Material Library
Material Library
Default Material Library
Units for Materials
Materials
Materials Dialog Box
Assign a Material
Assign a Material
To Assign a Material
Create a Material
Material Definition Dialog Box
Structural Options for Material Definition
Thermal Options for Material Definition
To Create a Material
Edit a Material
Edit a Material
To Edit a Material
Copy a Material
Copy a Material
To Copy a Material
Delete a Material
Delete a Material
To Delete a Material
Material Functions
To Create a Table Function
Table Function
Reference Topics - Materials
Hyperelastic Materials
Arruda-Boyce
Coefficient of Thermal Expansion — Isotropic
Graphs for Hyperelastic Material Definition
Hyperelastic Materials in Material Library
Hyperelastic Material
Hyperelastic Material Definition Dialog Box
Isotropic
Linear Isotropic Materials
Material Model for Hyperelastic Material Definition
Material Limits
Mooney-Rivlin
Neo-Hookean
Orthotropic
Poisson's Ratio — Isotropic
Polynomial Form of order 2
Reduced Polynomial Form of Order 2
Tests for Hyperelastic Material Definition
Uniaxial Tests
Biaxial Tests
Planar Tests
Volumetric Tests
Transversely Isotropic
Yeoh
Young's Modulus
Young's Modulus — Isotropic
Elastoplastic Materials
Creating Elastoplastic Materials
To Define an Elastoplastic Material
To Create an Elastoplastic Material Using Tests
Tensile Yield Stress
Coefficient of Thermal Softening
Stress and Strain Data for the Material Definition Dialog Box
Material Assignment
About Material Assignment
Material Assignment Dialog Box
Guidelines for Material Assignment
Material Orientation
About Material Orientation
Default Material Orientation
Guidelines for Material Orientation
Material Orientations Dialog Box
About the Material Orientations Dialog Box
Create a Material Orientation
Material Orientation Definition Dialog Box
About the Material Orientation Definition Dialog Box
Defining Material Orientation for Volumes
To Create a Volumetric Material Orientation
Defining Material Orientation for Surfaces
To Create a Material Orientation for Surfaces
Copy a Material Orientation
To Duplicate a Material Orientation
Structural Constraints
About Structure Constraints
Adding Constraints
Constraints, Loads, and Analysis Types
Taking Advantage of Planar Symmetry
Constraints on Entities
Guidelines for Structure Constraint Sets
Guidelines for Structure Constraint Sets
Understanding Structure Constraint Sets
Guidelines for Structure Constraints
Displacement Constraints
Displacement Constraints
Constraint Settings
Constraint Options
Structure Constraint Icons
To Define Displacement Constraints
Troubleshooting Your Constraints
Verifying a Constraint
Performing a Body Check for Assemblies
Handling Stress Concentrations
Symmetry Constraints
Symmetry Constraints
Working with Symmetric Models
Cyclic Symmetry Constraints
Cyclic Symmetry Constraints
Guidelines for Cyclic Symmetry
To Add a Cyclic Symmetry Constraint
To Create a Cyclic Symmetry Model Section
To Define a Cyclic Symmetry Constraint
Mirror Symmetry Constraints
Mirror Symmetry Constraints
To Define a Mirror Symmetry Constraint
Planar, Pin and Ball Constraints
About Surface Constraints
To Define a Planar Constraint
To Define a Pin Constraint
To Define a Ball Constraint
Thermal Boundary Conditions
Guidelines for Thermal Boundary Conditions
Guidelines for Thermal Boundary Conditions for Geometry
Boundary Condition Sets
Boundary Condition and Load Sets in Thermal Analyses
Guidelines for Thermal Boundary Condition Sets
Convection Conditions
Convection Conditions
Convection Coefficient, h
Bulk Temperature, Tb
Spatial Variation for Convection Conditions
Temperature Dependent Convection Condition
To Create a Time-Dependent Convection Condition
Background
Calculating the Convective Heat Transfer Rate
Calculating the Radiative Heat Transfer Rate
Ramping of Heat Loads and Convection Conditions
Using External Data
External Data for Convection Conditions
Creating FNF Files for External Loads and Constraints
Sample FNF File for External Convection Conditions
FNF Files in Product Data Management
Radiation Conditions
Radiation Conditions
Emissivity, ε
Ambient Temperature
Spatial Variation for Radiation Conditions
Temperature Dependent Radiation Condition
Prescribed Temperatures
Prescribed Temperature Conditions
Spatially Varying Temperatures
Spatially Varying Temperatures
Guidelines for Spatially Varying Temperatures
Interpolated Over Entity
Function of Coordinates
To Define a Prescribed Temperature
Structure Loads
About Loads
About Structure Loads
Applying Loads
Load Basics
Guidelines for Structure Loads
Guidelines for Load Sets
Understanding Load Sets
Guidelines for Load Sets
Force and Moment Loads
Force and Moment Loads
Guidelines for Force and Moment Loads
Specifying Magnitude and Direction for Loads
Distribution for Load
Spatial Variation
Preview
To Define Force and Moment Loads
Bearing Loads
Bearing Loads
Guidelines for Bearing Loads
Preview
To Define Bearing Loads
Bolt Preloads
Bolt Preloads
To Create a Prismatic Bolt Preload
To Create a General Bolt Preload
Rules for Setting Solid Type
Centrifugal Loads
Centrifugal Loads
Guidelines for Centrifugal Loads
From and To Fields for Centrifugal Loads
Preview
To Define Centrifugal Loads
Gravity Loads
Gravity Loads
Guidelines for Gravity Loads
Preview
To Define Gravity Loads
Pressure Loads
Pressure Loads
Guidelines for Pressure Loads
Pressure Load Direction
Preview
To Define Pressure Loads
Temperature Loads
Temperature Loads
Guidelines for Temperature Loads
MEC/T Temperature Loads
MEC/T Temperature Loads
Guidelines for MEC/T Temperature Loads
Use Previous Design Study
Step
To Define MEC/T Temperature Loads
MEC/T History Temperature Loads
MEC/T History Temperature Loads
To Define MEC/T History Temperature Loads
Guidelines for MEC/T History Temperature Loads
Use Previous Design Study
Mechanism Loads
Mechanism Loads
To Import Mechanism Loads
Troubleshooting Your Loads
Troubleshooting Loads
Verifying a Load
Reviewing Resultant Loads
To Review Resultant Loads
Performing a Body Check for Assemblies
Handling Stress Concentrations
Thermal Loads
About Loads
About Heat Loads
Guidelines for Heat Loads
Guidelines for Load Sets
Understanding Load Sets
Guidelines for Load Sets
Example: Load Set
Defining Heat Loads
Load Per Unit Type
Total Load for Heat Loads
Heat Transfer Rate (Q)
Function of Time
To Define Heat Loads
Defining Component Heat Loads
Heat Transfer Rate (Q)
Function of Time
Reviewing Total Heat Loads
To Review Total Heat Loads
Measures
About Simulation Measures
Uses of Measures
Measure Basics
Measure Basics
Guidelines for Measures
Predefined, User-Defined, and Automatically-Defined Measures
Predefined Measures
Predefined Measures
Predefined Measures in Structure
Predefined Measures in Thermal
User-Defined Measures
User-Defined Measures
Reasons to Create User-Defined Measures
Automatically-Defined Measures
Global and Local Measures
Global and Local Measures
Point Measures
Near Point Measures
Parameter-Based Measures
Parameter-Based Measures
Parameter-Based Measure Basics
Results Specific to a Parameter-Based Parameter
Results for a Specialized Quantity
Setting Up Optimization Goals
Setting Up Optimization Limits
Setting Up Parameters for Regeneration Analyses
Example: Using Parameter-Based Measures
Coordinate Systems and Measures
Measures and Output
Measures Dialog Box
Measures Dialog Box
To Define Measures for Structural Analyses
To Define Measures for Thermal Analyses
Measures Definition Dialog Box
Measure Definition Dialog Box
Define Measures in Structure
Measures for Basic Analyses
User-Defined Measures for Basic Analyses
Basic Analysis Measure Selections
Measures for Dynamic Analyses
Measures for Dynamic Analyses
User-Defined Measures for Dynamic Analyses
Dynamic Analysis Measure Selections
Measure Quantities
Stress, Strain
Failure Index
Displacement
Rotation
Force
Moment
Computed Measure
Velocity
Acceleration
Rotational Velocity
Rotational Acceleration
Stress Intensity Factor (SIF)
Phase
Time
Fatigue Measures
Interface Measures
Center of Mass
Moment of Inertia
Driven Parameter
Define Measures in Thermal
User-Defined Measures for Thermal Analyses
Thermal Analysis Measure Selections
Temperature
Heat Flux, Temperature Gradient
Results Available for Measures
Selecting One or More Measures
Meshes
Native Mode Meshes
About AutoGEM
Controlling an AutoGEM Mesh
Controlling an AutoGEM Mesh
Maximum Element Size
Edge Length By Curvature Control
Minimum Edge Length
To Control Minimum Edge Length in an AutoGEM Mesh
Isolate for Exclusion (IEAC)
Hard Points
Hard Curves
Hard Surface Control
Edge Distribution
To Control Edge Distribution in an AutoGEM Mesh
Prismatic Elements
Requirements for Creating Valid Prismatic Elements
Example: AutoGEM Mesh with Prismatic Control
Thin Solid
Example: AutoGEM Mesh with Thin Solid Control
Requirements for Creating Valid Thin Solid Regions
Auto Detect Thin Solids
Example: Limitations Involving Side Surfaces
Example: Split Surfaces
Precedence Rules
About Mapped Meshing
Mapped Mesh
To Create a Mapped Mesh Control
Example: AutoGEM Mesh with Mapped Mesh Control
Guidelines for Mapped Meshing
Wedge and Tri Mapped Mesh Regions
Ignored AutoGEM Control
Creating an AutoGEM Mesh
Preparing Your Model
AutoGEM Dialog Box
Creating AutoGEM Mesh Elements
AutoGEM File Menu
AutoGEM Info Menu
Element Types
How AutoGEM Uses Existing Geometry
How AutoGEM Uses Existing Elements
Surface
Surface
Using Surface
Strategies for Using the Surface Option
Volume
Status Messages
If AutoGEM Completes Successfully
Interrupting AutoGEM
Diagnosing AutoGEM Problems
Using the AutoGEM Log File
Example: Reducing the Element Count
Reduce the Number of Solid Elements
Applying AutoGEM Settings
AutoGEM Settings Dialog Box
Specifying Mesh Treatment for Models with Midsurfaces
Working with Geometry Tolerances
About Geometry Tolerance
Geometry Tolerance Settings Dialog Box
Absolute and Relative Tolerance Settings
FEM Meshes
About FEM Meshes
Transient and Retained FEM Meshes
Transient and Retained Meshes
If You Use Transient Meshes
If You Use Retained Meshes
Meshing Guidelines
Guidelines for Transient Meshes
Guidelines for Retained Meshes
Invalidating a Mesh
Troubleshooting FEM Mesh Generation
Assembly Meshing
Assembly Meshing Methods
Flat Meshing
Hierarchical Meshing
Hierarchical Meshing
Hierarchical Meshing Workflow
Understanding Hierarchical Meshes
Example: Hierarchical Mesh Generation
Connections in Assembly Meshing
Creating Load Paths for FEM Meshing
Load Paths for Flat Meshes
Load Paths for Hierarchical Meshes
Controlling a FEM Mesh
Controlling a FEM Mesh
Maximum Element Size (FEM mode)
Minimum Element Size (FEM mode)
Hard Points (FEM mode)
Hard Curves (FEM mode)
Hard Surface Control
Edge Distribution (FEM mode)
Shell Element Direction (FEM mode)
Displacement Coordinate System (FEM mode)
Mesh Numbering (FEM mode)
Mesh ID Offset (FEM mode)
About Mapped Meshing
Mapped Mesh
To Create a Mapped Mesh Control
Example: AutoGEM Mesh with Mapped Mesh Control
Guidelines for Mapped Meshing
Wedge and Tri Mapped Mesh Regions
Ignored Mesh Control (FEM mode)
Mesh Control Icons (FEM mode)
Creating a FEM Mesh
Types of FEM Meshes
To Create a FEM Mesh
Shell Mesh
Mixed Mesh (FEM mode)
About Quilts
FEM Mesh Settings
FEM Mesh Settings Dialog Box
Performing FEM Mode Mesh Operations
Performing FEM Mesh Operations
Importing NASTRAN Files
Improving a FEM Mesh
Reviewing a FEM Mesh
Reviewing a FEM Mesh
Review Nodes Dialog Box
Review Elements Dialog Box
Reviewing Analyses
Checking Elements
Checking a FEM Mesh
Aspect Ratio (FEM mode)
Warp Angle (FEM mode)
Skew (FEM mode)
Taper (FEM mode)
Edge Angle (FEM mode)
Distortion (FEM mode)
Mid Ratio (FEM mode)
Saving a FEM Mesh
Retrieving a FEM Mesh
Verifying Models
Checking Your Model
Validity Checking
Structure and Thermal Errors
Structure and Thermal Errors
Missing Properties
Invalid Analysis Definitions
Structure Errors
Structure Errors
Constraint–Constraint Conflicts
Missing Constraints
Thermal Errors
Thermal Errors
Missing Prescribed Temperatures or Convection Conditions
Conflicting Prescribed Temperatures
Creating Analyses
About Analyses
Creating Analyses and Design Studies
Analyses and Design Studies Dialog Box
Analysis Types
Displaying Analyses on the Model Tree
Structural Analysis
About Structural Analysis
Constraint and Load Sets in Structural Analyses
Static and Prestress Static Analyses
Static Analysis
Static Analysis Overview
To Create a Static Analysis
Prestress Static Analysis
Prestress Static Analysis Overview
To Create a Prestress Static Analysis
Nonlinear Analyses
Nonlinear Options
Large Deformation Static Analysis
Static Analysis of Models with Large Deformation
Static Analysis with Large Deformation Overview
To Create a Static Analysis with Large Deformation
Example: Large Deformation Analysis for Elastoplastic Materials
Static Analysis of Models with Contact Interfaces
Static Analysis of Models with Hyperelastic Materials
Static Analysis of Models with Elastoplastic Materials
Convergence Options
Convergence Options for Structural Analyses
Convergence Measures
Convergence Method
Advanced SPA Convergence Control
Convergence Options for Thermal Analyses
Convergence Percentage Calculation
Convergence Quantities for Steady Thermal Analysis
Convergence Quantity for Buckling Analyses
Convergence Quantity for Modal and Prestress Modal Analyses
Convergence Quantity for Static, Prestress Static, Large Deformation, and Contact Analyses
Check Contact Force
Press fit (initial interpretation)
Include Snap-through
To Set Convergence for a Structural Analysis
To Set Convergence for a Thermal Analysis
Modal and Prestress Modal Analyses
Modal and Prestress Modal Analyses
Modal Analysis Overview
To Create a Modal Analysis
Prestress Modal Analysis Overview
To Create a Prestress Modal Analysis
Buckling Analysis
Buckling Analysis
Buckling Analysis Overview
To Create a Buckling Analysis
Fatigue Analysis
About Fatigue Analysis
Fatigue Analysis Overview
About the External Fatigue Material File
Example: External Fatigue Material File
To Use an External Fatigue Material File in a Fatigue Analysis
To Create a Fatigue Analysis
Thermal Analysis
About Thermal Analysis
Boundary Condition and Load Sets in Thermal Analyses
Steady Thermal Analysis
Steady Thermal Analysis
Nonlinear Steady Thermal Analysis
Steady Thermal Analysis Overview
To Create a Steady Thermal Analysis
Transient Thermal Analysis
Transient Thermal Analysis
Transient Thermal Analysis Overview
To Create a Transient Thermal Analysis
Vibration Analysis
About Vibration Analysis
Guidelines for Using Dynamic Analyses
Steps in a Dynamic Analysis
Dynamic Time Analysis
Dynamic Time Analysis
Dynamic Time Analysis Overview
Base Excitation for a Dynamic Time Analysis
Translations at Three Points
Output for a Dynamic Time Analysis
Calculate Quantities for a Dynamic Time Analysis
Mode Options for Dynamic Analyses
To Create a Dynamic Time Analysis
To Select Output Options for a Dynamic Time Analysis
Dynamic Frequency Analysis
Dynamic Frequency Analysis
Dynamic Frequency Analysis Overview
Base Excitation for a Dynamic Frequency Analyses
Translations at Three Points
Output for a Dynamic Frequency Analysis
Calculate Quantities for a Dynamic Frequency Analysis
To Create a Dynamic Frequency Analysis
To Select Output Options for a Dynamic Frequency Analysis
Dynamic Random Analysis
Dynamic Random Analysis
Dynamic Random Analysis Overview
Base Excitation for a Dynamic Random Analysis
Translations at Three Points
Output for a Dynamic Random Analysis
Calculate Quantities for a Dynamic Random Analysis
To Create a Dynamic Random Analysis
To Select Output Options for a Dynamic Random Analysis
Dynamic Shock Analysis
Dynamic Shock Analysis
Direction of Base Excitation for a Dynamic Shock Analysis
To Create a Dynamic Shock Analysis
Output for a Dynamic Shock Analysis
Calculate Quantities for a Dynamic Shock Analysis
Response Spectrum Options for Dynamic Shock Analysis
To Select Load Functions for a Dynamic Analysis
To Select Output Options for a Dynamic Shock Analysis
To Define the Response Spectrum for a Dynamic Shock Analysis
Load Set Functions
Modes Included
To Select Mode Options for a Dynamic Analysis
To Use Previous Analysis Results in a Dynamic Analysis
FEM Analysis
About FEM Analysis
FEM Analyses
Defining a FEM Analysis
Defining a Modal FEM Analysis
To Create a FEM Analysis
Creating Design Studies
About Design Studies
Strategies for Running a Standard Design Study
Design Study Files
Design Variables
Overview of Design Variables
Example: Design Variable
Prepare Your Model for Design Variables
Types of Design Variables
Design Variables
Creating Design Studies
Analyses and Design Studies Dialog Box
To Create a Design Study
To Add a Dimension to a Design Study
To Add a Section Dimension to a Design Study
Defining Variables in a Design Study
Design Study Options Dialog Box
Standard Study for Structure and Thermal
Standard Design Study
To Create a Standard Design Study
Regeneration Analysis
To Run a Regeneration Analysis
Global Sensitivity Study for Structure and Thermal
Global Sensitivity Study
Repeat P-Loop Convergence
Regeneration Analysis
To Create a Global Sensitivity Study
Local Sensitivity Study for Structure and Thermal
Local Sensitivity Study
Regeneration Analysis
To Create a Local Sensitivity Study
Optimization Study for Structure and Thermal
Optimization Design Study
Goal
To Define a Goal for an Optimization Study
Design Limits
To Define Design Limits for an Optimization Study
Optimization Convergence
Optimization Algorithm
Maximum Iterations
Regeneration Analysis
To Create an Optimization Study
To Save an Optimized Shape
Shape Animate
Shape Animate
Example: Shape Animation
To Perform a Shape Animation
Running Solvers
Native Mode Solvers
Running Analyses and Design Studies
Before You Run an Analysis or Design Study
Before You Run an Analysis or Design Study
Before Creo Simulate Starts a Run
Analyses and Design Studies Dialog Box
Results Menu
To Start an Analysis or Design Study Run
Setting Up a Run
Setting Up a Run
Directory for Temporary Files
Directory for Output Files
Elements
Output File Format
Memory Allocation
Use Iterative Solver
Start
Start
Existing Design Study Files
Invalid Design Studies
Error Detection
Batch
Creating a Batch File
What Batch Does
Run a Batched Analysis or Design Study
Run Distributed Batch
Stop
Monitoring an Analysis or Design Study Run
Monitoring an Analysis or Design Study Run
Run Status
Summary Report Contents
RMS Stress Error Estimates
Error Messages
Time and Disk Usage Information
Interactive Diagnostics
Troubleshoot Run Problems
Troubleshoot Run Problems
Troubleshoot High Elapsed Run Times
mecbatch
mecbatch
Use mecbatch
msengine
msengine
Use msengine
Use External Optimizers
FEM Solvers
About Running FEM Analyses and Generating Output Decks
Solving a Model Using an FEA Program
Selecting a Solver
FEM Analysis Types
Element Shape
Determining a Run Method
Run Methods
Reviewing a FEM Mesh
Outputting Data to an Offline FEA Program
Outputting to a User-Defined Solver
Creo Simulate Results Window
Results for Native Mode
About Results
Working with the Results User Interface
About the Quick Access Toolbar
Results User Interface Ribbon
Results User Interface Ribbon
About Command Search
About Minimizing the Ribbon
Graphics Toolbar
Graphics Toolbar
Default View
Spin Center
Refit
Shortcut Menus in Graphics Window
Basic Functions for the Results User Interface
Loading Result Windows
Loading Result Windows
Insert Result Windows from Template Dialog Box
Defining Result Windows
Result Window Definition Dialog Box
Study Selection Area
Step/Combination Selection
Display Type Area
Quantity Tab
Quantity for Result Windows
Display Options Tab
Fringe Display Type
Vectors Display Type
Graph Display Type
Model Display Type
To Display a Result Window
Display Location Tab
To Define a Result Window
Updating Results Window
Viewing Results
Viewing Results
Orienting Results
The Orientation Dialog Box
To Tie the Orientation of Multiple Windows
Controlling Result Windows and Model Appearance
Controlling Result Windows and Model Appearance
Visibilities
Overlay
Exploded
Spin Center
Animating Results Display
Animating Your Results Display
To Animate a Results Display
To Format a Fringe, Contour, Vector, Model, or Animation Result Window
Example: Comparing Mode Animations for the Same Model
Capping and Cutting Surfaces
Examining Model Interiors for Fringe and Contour Plots
Results Surface Definition Dialog Box
Defining Cutting or Capping Surface References
Defining Reference Planes for Cutting or Capping Surfaces
Defining Cutting or Capping Surface Depth
Dynamic Cutting and Capping Surface Displays
Defining Graph along Reference Planes for Cutting or Capping Surfaces
To Create a Capping Surface
To Create a Cutting Surface
To Modify a Capping Surface
To Modify a Cutting Surface
Arranging Multiple Result Windows
Arranging Multiple Result Windows
To Reorder Result Windows
To Swap Result Windows
Annotating Result Windows
Annotating Result Windows
To Annotate a Result Window
Querying Results
Dynamic Query
About the Linearized Stress Report Dialog Box
To Query for Linearized Stress
Querying Quantities for Fringe Plots and Linearized Stress Analyses
Querying on Cutting or Capping Surfaces
To Query for Linearized Stress on Cutting or Capping Surfaces
Clearing Query Tags from a Result Window
Evaluating Results
Evaluating Results
Evaluating Fringe Contour and Vector Plots
Adjusting the Legend
Adjusting the Fringe, Contour, and Vector Legends
Edit Legend Dialog Box
Adjusting Color Scale for Fringe, Contour, and Vector Legends
Using Maximum and Minimum Legend Values to Get More Details
Saving Spectrum
Comparing Results
Probing Fringe, Contour, and Vector Plots
Shading Your Model
Evaluating Graphs
Managing Graphs
Probing Graphs
Evaluating Animations
Controlling Animations
Comparing Animations
Example: Comparing Mode Animations for the Same Model
Example: Comparing Animation Stages for the Same Model
Reviewing and Editing Result Windows
To Edit a Result Window
Copying, Deleting and Editing Result Windows
About Saving Results in Creo Simulate
About Saving Results in Creo Simulate
Save Options in Creo Simulate Results
Graph Report
Excel
HTML Report
To Export a File in HTML
Export HTML Dialog Box
About HTML Report Preferences File
Export Movie
Movie Export Dialog Box
To Export a File as a Movie
NASTRAN Mesh
To Export a Surface Mesh in NASTRAN format
Creo View
VRML
To Mail Analyses Results
To Save Results to the Active Workspace
To Save Results as HTML Reports to the Active Workspace
Printing Result Windows
Results for FEM
About FEM Results
Using the Postprocessor in FEM Mode
Loading NASTRAN Results Database
Graphical Result Windows
Viewing FEM Analysis Results
Supported FEA Solvers
Diagnostics and Troubleshooting in Creo Simulate
Diagnostics
Diagnostics Menu
Diagnostics Messages
Singularities
Singularities
Singularities and Constraints
Singularities and Loads
Strategy: Minimizing Singularities
Selecting Singularities for IEAC
Best Practices in Creo Simulate
Best Practice: Using Failure Index Results to Predict Material Failure in a Model
Best Practice: Using Fasteners in Creo Simulate
Creo Simulate Verification Guide
Verification Overview
Static Analysis Problems
Modal Analysis Problems
Steady-State Thermal Analysis Problems
Transient Thermal Analysis Problems
Dynamic Time Response Analysis Problem
Dynamic Frequency Response Analysis Problem
Dynamic Shock Response Analysis Problem
Dynamic Random Response Analysis Problems
Buckling Analysis Problems
2D-3D Contact Analysis Problems
Static Analysis with Large Deformation Problem
Static Analysis with Plasticity Problems
Prestress Modal Analysis Problem
Optimization Analysis Problem
Additional Information
Units
About Units
Guidelines for Specifying Units
Specifying Units for Simulation Entities
Units Manager Dialog Box
Systems of Units Management
Predefined Systems of Units
Set the Principal System of Units
To Set a Principal System of Units
Custom System of Units
To Create a Custom System of Units
To Edit a Custom System of Units
To Review a System of Units
Units Management
Predefined Units
Custom Units
To Create a Custom Unit
To Edit a Custom Unit
To Review an Individual Unit
To Convert Simulation Values to Principal System of Units
Unit Conversion Tables
Units for Result Window
Working with Functions
Functions Dialog Box
Function Definition Dialog Box
Function Definition Dialog Box
Symbolic Function Type
Independent Variables
Valid Symbols
Table Function
Interpolation Method
Graph Function Dialog Box
To Create a Function
Working With Normals
Surface Normals
Surface Normals
Normal Direction for Surfaces and Shells
Specifying Y Direction for Beams
Shell Normals
Improving Performance
Improving Performance
Managing RAM, Solram and Swap Space
Memory Usage—Different Scenarios
Managing Performance
Guidelines for Allocating RAM for Solver and Element Data
Guidelines for Managing Disk Space Resources
Guidelines for Disk Usage and Allocating Swap Space
Guidelines for Setting Solram
Strategy: If Solver RAM Is Too High
Strategy: If Solver RAM Is Too Low
Strategy: Running the Engine with Parallel Processing
Background Information
Long-Term Limitations
Icons Used in Creo Simulate
Bibliography
The Database
Database Considerations
Files Created by Creo Simulate
Information Transfer
FEM Neutral Format File
Specialized Information
Understanding Fatigue Analysis
Shell Property Equations
Glossary
Glossary for Creo Simulate
Reference Links
–ascii
–bsram ram_size
–elram ram_size
Run a Batched Analysis or Design Study
–asm_elm_fix_p_order_off
–sim_accurate_asm_links
–pmax n
–results_always
–no_pert
–contact_penetration pen_percent
–no_supercon_recovery
–i input_dir
–iter n
-massnorm
–p password
–solram ram_size
–sturm option
–w working_dir1;working_dir2;...
About Creating and Running Analyses and Design Studies
About Material Models
About Press Fit
About Thermal Boundary Conditions
Account for Stiffness
Accuracy
Add for Interpolation
Adjusting Cyclic Material Properties for Fatigue
Adjusting the Biaxiality Parameter for Fatigue
Adjusting the Material Confidence Level for Fatigue
Adjusting the Mean Stress Parameter for Fatigue
Advanced Tuning for Fatigue Advisor
After P-Loop Pass
Alignment
Allowable Edge and Face Angles
Allowable Errors
Analyses and Design Studies Toolbar
Analysis and Design Study Workflow
Analysis Results in Product Data Management
Analyzing a Model (Native Mode)
ANSYS
Apparent Frequency
Area
Arruda-Boyce
Assembly Modeling Entities, Idealizations, and Connections
At Each Step
At Each Step—Time Evaluation (Thermal Analysis)
At Each Step—Time or Frequency Evaluation Method
AutoGEM File Names
AutoGEM Interruption Guidelines
AutoGEM Overconstrained
Automatic Interrupt
Automatically Smooth Convections
Axis and Component Equivalents in Different Coordinate Systems
About the Linearization Basis
Beam Contribution
Beam Resultant Results Quantity
Beam Sections Dialog Box
Before You Use the Results Command
BLF Convergence
Bonding Elements
Boundary Edges
Boundary Faces
Boundary Processing Takes Too Long
Buckling Load Factor and Optimization Studies
Building and Saving Queries
Calculate Quantities for Analyses
Calculating Stresses and Strains
Cartesian Coordinate System
Channel
Clearing Query Tags from a Result Window
Coefficient of Thermal Expansion
Coefficient of Thermal Expansion — Isotropic
Color Scale
Combine Results with Results from Previous Static Analysis
Combine Spatial and Temporal Functions
Comparing Mirror and Cyclic Symmetry
Component
Component—Basic Analyses
Component—Center of Mass Quantities
Component—Contact Force Quantity
Component—Displacement, Rotation, and Reaction Quantities
Component—Dynamic Analyses
Component—Moment of Inertia Quantities
Component—Stress and Strain Quantities
Component—Stress, Strain
Component—Thermal Analyses
Component and Layer Visibility in Results
Component for Linearized Stress Results
Components for Acceleration, Displacement, Reaction, Rotation, Rotation Acceleration, Rotation Velocity, or Velocity
Components for Beam Bending, Tension, Torsion, and Total
Components for Beam Resultant
Components for Fatigue
Components for Flux and Temp Gradient
Components for Reactions at Point Constraints
Components for Shear and Moment
Components for Shell Resultant
Components for Stress or Strain
Compressive Ultimate Stress
Conflicting Coordinate Systems
Connected and Unconnected Parts
Considerations for Multiple Model Sessions
Constrained, With Rigid Mode Search
Constraint Sets for Analysis
Constraints and Loads on Compressed Geometry
Constraints and Modal Analysis
Constraints on Compressed Midsurfaces
Contact — 2D Models
Contact — 3D Models
Static Analyses with Contacts in Design Studies
Contact Pressure Results Quantity
Contact Slippage Indicator Results Quantity
Contact Tangential Traction Magnitude Result Quantity
Contour Labels
Contour Results Display
Controlling FEM Mesh Display
Controlling Mesh Display
Convergence Indicators
Conversion of Tensile Ultimate Stress from Wildfire 4.0 Models
Coordinate System Guidelines
Coordinate System Types
Coordinate Systems and Functions
Coordinate Systems and Loads and Constraints
Coordinates for Cylindrical UCS
Coordinates for Spherical UCS
Count
Create a Full Set of Elements
Create a Material
Create Links Where Needed
Creating
Creating a Mesh (FEM Mode)
Creating Rigid Links
Customizing Graph Display Settings
Cylindrical UCS
Damping Coefficient (%)
Datum Points for User-Defined Measures
Default Interface
Default Result Windows Templates
Defining an Analysis (FEM Mode)
Defining Design Changes (Native Mode)
Deformed Results Display
Degrees of Freedom for Rigid Links
Degrees of Freedom for Weighted Links
Density
Design Variable Errors
Design Variables with Laminate Layup
Detailed Fillet Modeling
Summary, Log, and Checkpoints
Determining the Minimum and Maximum Locations for a Quantity
Developing a Model (FEM Mode)
Developing a Model (Native Mode)
Diamond
Dimension Selection Dialog Box
Direction of Base Excitation for a Dynamic Shock Analysis
Displacement Results Quantity
Display AutoGEM Prompts
Displaying Element IDs, Node IDs, and Result Values (FEM mode)
Displaying Result Windows
Displaying the Mesh Model
Distortion Energy (von Mises) Failure Criterion
Driven and Driving Parameters
Dynamic Evaluation in Structure
Dynamic Evaluation in Thermal
Elements with Approximated Linear Edges
Entering Creo Simulate with Failed Features
Error Detection in Optimization Studies
Error Resolution
Estimated Variation
Example: 2D Axisymmetric Modeling
Example: 2D Plane Strain Modeling
Example: 2D Surface Directions
Example: Advanced Rigid Link
Example: Assembly Model with Gap
Example: Auto-mapping an Imported Coefficient Mesh
Example: Avoiding Interference
Example: Axis of Symmetry
Example: Bearing Load
Example: Bearing Load on a Surface
Example: Bearing Load on an Open Curve
Example: Bonding Elements
Example: Brick
Example: Collet Illustration
File Types Supported in Creo Simulate Standalone
Example: Contour Plot
Example: Creating Load Paths for Pre-meshed Components
Example: Curved Surface Directions
Example: Cut for Cyclic Symmetry
Example: Cylindrical Coordinate System
Example: Dependent Movement in Patterned Features
Example: Excluded Elements — Point and Line Loads
Example: Excluded Elements — Point Loads
Example: Excluded Elements — Reentrant Corners
Example: Featuring Your Part
Example: Fringe Display
Example: Function of Coordinates
Example: Geometric Precedence Rules
Example: Insert Points
Example: Interface Types
Example: Invalidating a Modeling Entity
Example: Laminate Layup
Example: Laminate Orientation
Example: Material Coordinate System for a Cylindrical UCS
Example: Material Directions
Example: Max Principal Stress Vector Plot
Example: Modeling Specialized Loads with a Cylindrical Coordinate System
Example: Near Point Measures and Geometric Intersection
Example: Near Point Measures and Model Types
Example: Orientation and Tolerance Settings
Example: Orienting the BSCS Shear Center
Example: Orienting the BSCS to the BACS
Example: Part with Unopposed Surfaces
Example: Point Loads
Example: Pre-planning for Shape Changes
Example: Pressure Load
Example: Project a Vector onto a Surface
Example: Reentrant Corners
Example: Relations
Example: Resultant Force for a Simple Spring or Beam Model
Example: Reviewing Laminate Layup and Stiffness
Example: Rigid Link
Example: Rotation for Shells and Surfaces
Example: Setting up a Solid Model for a 2D Analysis on an Internal Surface
Example: Spatially Varying Loads
Example: T-Bracket
Example: Tetra
Example: Unpaired Surface on L-Bracket
Example: Using a Simplified Part
Example: Variable Material Orientation
Example: Vector Plot
Example: Wedge
Example: Weighted Link
Excluded Elements Options for Structural Analyses
Excluded Elements Options for Thermal Analyses
Export HTML Setup Dialog Box
External Coefficients Field
Extra Tab on Beam Definition Dialog Box
Factors Determining the Selection of Entities
Failure Criterion
Failure Index Results Quantity
Fatigue
Fatigue Results Quantity
FEM Mesh Display Buttons
FEM Mesh File Names
FEM Mode
FEM Mesh Settings
FEM Neutral Format
Fix and Flip Normals
Fixing Parabolic Elements
Flux Results Quantity
For Individual Modes
Force-Deflection Curve
Force Per Unit Type
Force Per Unit Type Guidelines
Visibilities
Frequency Convergence
Frequency Range
From and To Fields for Dir Points & Mag
Full Results
Function Definition Dialog Box
Function—Material Properties
Function of Arc Length
Function of Coordinates
Function of Frequency
Functional Form of Interpolation
General
Generate Report for Measure Results
Saving Linearized Stress Results
To Save a Report for Linearized Stress
Global Energy Index
Global RMS Stress Index
Global Spatial Evaluation Methods
Graph Function Dialog Box
Graph Abscissa
Graphic Size
Graphs for Hyperelastic Material Definition
Function Graphs
Grouping for ANSYS
Guidelines and Tips for Using Datum Points
Guidelines for Assigning Mass Properties
Guidelines for Bonding Elements
Guidelines for Entering Polynomial Order
Guidelines for Fitting the Material Model
Guidelines for Meshing Large Assemblies
Guidelines for NASTRAN Deck Import
Guidelines for Prescribed Displacement Constraints
Guidelines for Spatially Varying Loads
Guidelines for Surface-Surface Connections and Interfaces (FEM mode)
Guidelines for Using IEAC Mesh Control
Guidelines for Using Process Guide
Guidelines for Using Relations
Heat Flux
Heat Loads on Internal Surfaces
Heat Transfer Rate Measure
Help Not Available for Selected Menu Item
Hollow Circle
Hollow Ellipse
Hollow Rect
How Loads Transfer to Structure
How Creo Simulate Handles Your Working Model
How Stress Components Relate to Textbook Examples
How Structure Imports Loads from Mechanism Design
Hyperelastic Material
Hyperelastic Material Definition Dialog Box
Hyperelastic Materials in Material Library
I-Beam
Ignore for Excluded Elements
Ignore Heat Flux in Excluded Elements
Improperly Connected Idealizations
Improperly Constrained Springs, Beams, or Shells
Inconsistent Shell Normals
Inertia Relief
Initial Temperature Distribution
Insert Points
Insufficiently Constrained Models
Interface Flux Results Quantity
Interface Types
Interfaces in FEM Mode
Interfaces in Native Mode
Interpolated Over Entity
Invalid Curves for 2D Axisymmetric Models
Invalid Surfaces for 2D Axisymmetric Models
Isolating Elements for IEAC
Isotropic
Iyy, Iyz, Izz
J
L-Section
Label
Limit Polynomial Order for Excluded Element
Limitations for Meshing Large Assemblies
Limitations of Averaging in Results
Linear Isotropic Materials
About the Linearized Stress Report
Calculating the Linearized Stress Value
Load History Options for Fatigue Analysis
Combination Criteria for Load Histories:
Load Interpolation
Load Preview Dialog Box
Total Heat Load Dialog Box
Load Resultant Dialog Box for Structure Loads
Load Scale Factor for Prestress Analyses
Load Sets for Analysis
About Loads, Idealizations and Connections in Static Analysis with Large Deformation
Loading Types for Fatigue Analysis
Local Disp/Energy Index, Local Temp/Energy Index
Local Sensitivity Graph Notes
Local Sensitivity Studies
Local Temperatures and Local and Global Energy Norms
Local Temperatures and Local Energy Norms
Localized Mesh Refinement
Log Scale
Managing Constraints in Process Guide
Managing Loads in Process Guide
Mass Participation Factor Results
Mass of a Supported Part
Masses Based on Components
Masses Based on Components (FEM mode)
Matching Parameters
Material Directions 1, 2, and 3
Material Model for Hyperelastic Material Definition
About the Material or Sub-laminate Menu
Material Property Requirements—Failure Criterion
Max Absolute
Max Aspect Ratio
Max Edge Turn (Degrees)
Maximum
Maximum—Time Evaluation (Thermal Analysis)
Maximum—Time or Frequency Evaluation Method
Maximum Absolute—Time Evaluation (Thermal Analysis)
Maximum Absolute—Time or Frequency Evaluation Method
Maximum and Minimum Shell Values
Maximum Number of Iterations
Maximum Shear Stress (Tresca) Failure Criterion
Maximum Strain Failure Criterion
Maximum Stress Failure Criterion
Measure Convergence
Measure Results Quantity
Measures Dialog Box
Measures Not Calculated for Dynamic Random Analyses
mech_extopt.in File Format
mech_extopt.out File Format
Creo Simulate Fatigue Advisor
Mechanism Load Import Dialog Box
Methods of Simplifying Your Model
Min Frequency, Max Frequency
Minimum
Minimum—Time Evaluation (Thermal Analysis)
Minimum—Time or Frequency Evaluation Method
Minimum and Maximum Angles
Mode Options for Modal and Prestress Modal Analyses
Model Accuracy
Temperature Distribution for Static Analyses
Modified Mohr Failure Criterion
Modify or Delete Existing Elements
Modifying Analyses and Design Studies
Mooney-Rivlin
Move or Delete Existing Points
MSC/NASTRAN
Multi-Pass Adaptive Convergence Method
Multiple Measure Copy Dialog Box
NASTRAN Templates
Navigation Area Task Status
Neo-Hookean
Normalized Tsai-Wu Interaction Term
Note Style Dialog Box
Number of Master Steps
Number of Modes, All Modes in Frequency Range
Object Action
Object Action Shortcut Menus
Omit Unopposed Surfaces
Optimization Studies
Optimizing a Model (Native Mode)
Order of Rotation
Orientation
Orthotropic
Output Format
Output Formats
Output Steps for Thermal Analyses
Output for Structural Analyses
Output Options for Thermal Analyses
Output Steps
P-Level Results Quantity
Pairing Unopposed Surfaces
Paper
Parameter
Parameter-Based Measures—Goal
Parameter-Based Measures—Limit
Parameter-Based Measures—Parameters
Parameter-Capable Edit Fields
Parameter-Capable Edit Fields
Pass or Fail Results — 2D
Pass or Fail Results — 3D
Percent Convergence
Percent Convergence
Permanent and Session-based Configuration Files
Phase Type
Plotting Grid
Plotting Grid
Point Loads, Point Constraints, Point Heat Loads, Point Prescribed Temperatures, Point Convection Conditions
Point–Point Pairs
Poisson's Ratio
Poisson's Ratio — Isotropic
Polynomial Form of order 2
Polynomial Order
Precedence Rules for Interfaces
Precedence Rules for Mesh Controls
Preview for Interpolation
Previous Analysis Options for Buckling Analysis
Previous Analysis Options for Dynamic Analysis
Previous Analysis Options for Fatigue Analysis
Previous Analysis Options for Prestress Analyses
Parameters as Design Variables
Parameters as Measures
Problems with Elements
Problems with Loads and Constraints
Problems with Properties
Projected Vector in WCS
Properties According to Mass Type (FEM mode)
Property Type
Quantity—Basic Analyses
Quantity—Dynamic Analyses
Quantity—Thermal Analyses
About the Quantity Option for Measure Definition
Components for Raw and Normalized Stress
Element Stress Error Estimate Quantity
To Define a Stress Error Estimate Quantity
Quantity Notes for Modal and Dynamic Analyses
Radius
Ramp Function
Reaction Results Quantity
Reaction Results Reporting
Reactions at Point Constraints Quantity
Recovery Points for Beam Results
Rectangle
Redefine the Design Study
Reduced Polynomial Form of Order 2
Reentrant Corners
Reference Entities for Weighted Links
Relabel Contour
Relative To
Remove for Interpolation
Required Modeling Entities
Reserved Material Parameters
Restrictions When Specifying Multiple Working Directories
Resultant Measure
Output Steps
Results Relative to Beam Orientation
Results Relative to Coordinate
–results_io_cache_size
Results Relative to Coordinate Systems
Results Relative to Curve Arc Length
Results Relative to Material Orientation
Results Relative to Ply Orientation
Results When Using Automatic Midsurface Connections
Review Beam Section Properties
Reviewing the Results
Rigid Link Icon
RMS
Rotate About
Rotation Acceleration Results Quantity
Acceleration Results Quantity
Rotation Results Quantity
Rotation Velocity Results Quantity
Sample FNF file for External Pressure Load
Sample FNF File for External Temperature
Sample HTML Report Preferences File
Sample mecbatch File
Sample Uses for Prestress and Buckling Analyses
Search Tool
Search Tool Dialog Box
Secondary Quantity Menu
Segmenting a Graph
Select the Solver
Selecting geometry in Results User Interface
Selecting Load Sets and Modes for Optimization Studies
Setting a Current Coordinate System
Shear & Moment Results Quantity
Shear DY, Shear DZ
Shear FY, Shear FZ
Shear Modulus
Shear Ultimate Stress
Shell Contribution
Shell , 2D Plate Element Type, 2D Solid Element Type
Shell Resultant Results Quantity
Shell Thickness
SIM SELECT Menu
Simulation Model
Simulation Geometry Dialog Box
Single-Pass Adaptive Convergence Method
Slippage Indicator Measures
Solid Circle
Solid Ellipse
Solids
Solid-Shell Links
Solving a Model (FEM Mode)
Spatial Evaluation—Structure
Spatial Evaluation—Thermal
Spatial Evaluation Method—Basic and Dynamic Analyses
Spatial Evaluation Method—Thermal Analyses
Spherical UCS
Spin Softening
Spring References
Square
Stability Check
Standard Design Study with Variables
Standard Studies, Dynamic Shock Analyses
Standard Studies: Dynamic Time, Frequency, and Random Analyses
Standard Studies: Static, Large Deformation Static, Contact, Prestress Static, Modal, Prestress Modal, Buckling, Steady-State Thermal, and Transient Thermal Analyses
Steady Thermal Convergence Method
Storing and Retrieving FEA Results
Strain Energy Density Results Quantity
Strain Measures in Large Deformation Static Analysis
Strain Results Quantity
Strategy: After You Run an Optimization Study
Strategy: Defining Optimization Studies
Strategy: Displaying Graphs with Logarithmic Scales
Strategy: Establishing Geometrically-Consistent Node Locations
Strategy: Fixing Convergence Problems
Strategy: Identifying and Resolving Potential Trouble Spots in a Model
Strategy: Improving Convergence
Strategy: Interpreting Beam Resultant Forces and Moments
Strategy: Optimizing a Model
Strategy: Preparing for Optimization Studies
Strategy: Running a Global Sensitivity Study
Strategy: Scaling Results for Centrifugal Loads in a Combined Load Set
Strategy: Specifying Polynomial Order for a Multi-Pass Adaptive Analysis
Strategy: Using Static Analysis with Contacts Effectively
Strategy: Using Convergence Graphs to Review Results
Strategy: Using Design Variables
Strategy: Viewing Optimization Results
Stress Grids
Stress Notes
Stress Results Quantity
Structural Temperature Loads
Structure Constraints and Coordinate Systems
Structure Constraints on Datum Points
Structure Constraints on Geometry
Structure Constraints on Regions
Structure Loads on Geometry
Structure Loads on Points
Structure Loads on Regions
Sum Load Sets
Suppression and Family Tables
Surface-Surface Gaps
Surfaces and Curves Used in Shell Definition
Symmetry Type
Table Force-Deflection Functions beyond the specified Range
Techniques for Establishing Consistent Hierarchical Meshes
Temp Gradient Results Quantity
Temperature Distribution
Temperature Distribution
Temperature Options for Transient Thermal Analysis
Temperature Results Quantity
Tensile Ultimate Stress
Tests for Hyperelastic Material Definition
Thermal Measures
Thermal Strain Results Quantity
Thermal Conductivity as a Function of Temperature
Thermal Values for Isotropic Properties
Thermal Values for Orthotropic Properties
Thermal Values for Transversely Isotropic Properties
Thickness
Time Dependent Convection Condition
Time Evaluation Method—Thermal Analyses
Time or Frequency Evaluation Method—Dynamic Analyses
Time Range
Time Range
Time Range Specification
Time Stamp
Time/Frequency Eval
Time/Frequency Eval Options
Tips for Fringe Displays
To Assign a Creo Simulate Material in Creo Parametric
To Assign Fatigue Properties to Materials
To Auto Detect and Create Contacts
To Control Icon Appearance
To Create a Bonded Interface
To Create a Contact Interface
To Create a Free Interface
To Create a Hyperelastic Material
To Create a Hyperelastic Material Using Tests
To Create a Modal FEM Analysis
To Create a Symbolic Function
To Create a Table Function
To Create a Thermal Resistance Interface
To Create Adiabatic Interfaces
To Create an Interface
To Create an Orientation for Parts, Solids, Volumes
To Create an Orientation for Surfaces
To Create an Output File
To Create Shells
To Customize Annotation Styles
To Define a Beam Resultant Quantity
To Define a Center of Mass Measure
To Define a Contact Pressure Quantity
To Define a Contact Slippage Indicator Quantity
To Define a Contact Tangential Traction Magnitude Quantity
To Define a Contour Results Display
To Define a Deformed Results Display
To Define a Displacement Measure
To Define a Displacement Quantity
To Define a Driven Parameter Measure
To Define a Failure Index Measure
To Define a Failure Index Quantity
To Define a Fatigue Measure
To Define a Fatigue Quantity
To Define a Flux or Temp Gradient Quantity
To Define a Force Measure
To Define a Fringe Results Display
To Define a Graph Results Display
To Define a Heat Flux or Temperature Gradient Measure
To Define a Heat Transfer Rate Measure
To Define an Interface Flux Results Quantity
To Define an Interface Measure for Structural Analysis
To Define a Interface Measure for Thermal Analysis
To Define a Measure Quantity
To Define a Model Results Display
To Define a Moment Measure
To Define a Moment of Inertia Measure
To Define a Phase Measure
To Define a Reaction Quantity
To Define a Reactions at Point Constraints Quantity
To Define a Results Display Location
To Define a Rotation Acceleration Quantity
To Define a Rotation Measure
To Define a Rotation Quantity
To Define a Rotation Velocity Quantity
To Define a Rotational Acceleration Measure
To Define a Rotational Velocity Measure
To Define a Shear & Moment Quantity
To Define a Shell Resultant Quantity
To Define a Strain Energy Density Quantity
To Define a Strain Quantity
To Define a Stress or Strain Measure
To Define a Stress Intensity Factor Measure
To Define a Stress Quantity
To Define a Temperature Measure
To Define a Temperature Quantity
To Define a Thermal Strain Quantity
To Define a Time Measure
To Define a Vectors Results Display
To Define a Velocity Measure
To Define a Velocity Quantity
To Define an Acceleration Measure
To Define an Acceleration Quantity
To Define Convection Condition
To Define Radiation Condition
To Define Structural Temperature Loads
To Define the Load History for a Fatigue Analysis
To Display Run Errors
To Edit a Coordinate System Definition
To Exclude Elements From a Structural Analysis
To Exclude Elements From a Thermal Analysis
To Export Simulation Geometry
To Save a Report for Linearized Stress
To Modify an Offset Coordinate System
To Promote Simulation Features
To Review and Save Laminate Layup and Stiffness
To Review the Mesh
To Segment a Graph
To Select Master Steps
To Select Mode Options for a Modal Analysis
To Select Output Options for a Structural Analysis
To Select Output Options for a Steady Thermal Analysis
To Select Output Options for a Transient Thermal Analysis
To Select Temperature Options for a Transient Thermal Analysis
To Select the Iterative Solver
To Set a Current Coordinate System
To Set Icon Visibilities for Loads and Constraints
To Set Icon Visibilities for Modeling Entities
To Set Labels
To Set Simulation Entity Prehighlighting Filters
To Solve a FEM Model Online or in the Background
To Specify a Result Window Quantity
To Specify Result Window Display Options
To Suppress Modeling Entities Through a Family Table
To Use Previous Analysis Results in a Buckling Analysis
To Use Previous Analysis Results in a Fatigue Analysis
To Use Previous Analysis Results in a Prestress Analysis
Tolerance Report
Top and Bottom Shell Location
Total Load
Total Load at Point
Total Bearing Load at Point
Track Specific Mode
Transient Thermal Convergence Method
Translations at Three Points
Transversely Isotropic
Troubleshoot Shape Change Problems
Troubleshooting Constraints
Tsai-Wu Failure Criterion
Tsai Definition for Poisson's Ratios
Types of Measure Results Graphs
UCS-Based Measures
Unconstrained
Understanding Accuracy
Understanding the Instruction Area
Understanding the Navigation Area
Understanding Thermal Boundary Condition Sets
Units According to Model Type and Entity
Units of Modal Frequency Results
Use Modes From Previous Design Study
Use of Function Definitions
Use Static Analysis Results From Previous Design Study
Use Temperatures from Previous Design Study
User-defined Steps
User-defined Steps for Thermal Analyses
Using Global Sensitivity Studies Effectively
Using the Coordinate System Option
Using Heat Transfer Rate Measure
Using Mapkeys
Using Measures More than Once for Optimization Limits
Using Solver Results in the Postprocessor
Validate
Variation in Properties
Varying a Single Variable in a Global Sensitivity Study
Velocity Results Quantity
Warp & Mass Tab
Weighted Link Icon
When a Nonessential Feature Causes Unexpected Model Behavior Changes
When a Nonessential Feature Provides Hidden Benefits
Working in Online and Offline Modes in Creo Simulate
Working with the Laminate Layup Dialog Box
Working with the Process Guide Dialog Box
Y Direction for Gaps
Yeoh
Young's Modulus
Young's Modulus — Isotropic
Orientation for Zero Length Springs in 2D Models
Mechanism Design e Mechanism Dynamics
Panoramica su Mechanism Design e Mechanism Dynamics
Mechanism Design e Mechanism Dynamics
Mechanism Design, Mechanism Dynamics e Design Animation
Interfaccia utente Meccanismo (Mechanism)
L'albero meccanismo
Visualizzazione delle informazioni di visualizzazione
Esempio: riepilogo dettagliato
Errori di diagnostica in un meccanismo
Mechanism Design
Utilizzo dell'analisi cinematica in Mechanism Design
Workflow di un'analisi cinematica in Mechanism Design
Per controllare il modello
Per aggiungere entità di modellazione per l'analisi cinematica in Mechanism Design
Per preparare un'analisi di posizione o cinematica
Per eseguire un'analisi di posizione o cinematica
Per salvare e visualizzare i risultati delle analisi in Mechanism Dynamics
Creazione di modelli di meccanismo
Per assemblare un modello di meccanismo
Per modificare un modello di meccanismo
Per creare un modello per Mechanism Design
Suggerimento: correzione degli errori nella creazione di un assieme
Impostazioni di Mechanism Design
Per definire le impostazioni del meccanismo
Per definire le impostazioni di rilevamento delle collisioni
Opzioni avanzate di trascinamento
Connessioni e gradi di libertà
Insiemi di vincoli predefiniti
Ridefinizione dei componenti scollegati
Connessioni di puntale di guida legacy
Gradi di libertà
Per calcolare gradi di libertà e ridondanze
Ridondanze
Impostazioni asse del moto
Impostazioni asse del moto
Finestra di dialogo Asse moto (Motion Axis)
Per specificare le impostazioni dell'asse del moto
Valore di rigenerazione
Per impostare un valore di rigenerazione
Impostazione di un limite dell'intervallo
Proprietà dinamiche
Per specificare un attrito
Coefficiente di restituzione
Corpi rigidi
Corpi rigidi di Mechanism Design
Per ridefinire un componente come terra
Per evidenziare i corpi rigidi
Camme
Connessioni di puntale di camma
Per creare una connessione di puntale di camma
Definizione delle proprietà delle connessioni di puntale di camma
Connessioni di puntale di camma con distaccamento
Progettazione di connessioni di puntale di camma
Superfici per le connessioni di puntale di camma
Curve per le connessioni di puntale di camma
Riferimenti di profondità per le connessioni di puntale di camma
Per modificare le connessioni di puntale di camma
Utilizzo delle connessioni di puntale di camma nelle operazioni di trascinamento
Per eliminare le connessioni di puntale di camma
Modellazione delle entità
Ingranaggi
Coppie di ingranaggi generici
Coppie di ingranaggi dinamici
Tipi di coppia di ingranaggi dinamici
Per creare una coppia di ingranaggi dinamici
Per creare una coppia di ingranaggi generici
Per creare una coppia di ingranaggi cilindrici
Per creare una coppia di ingranaggi conici
Per creare una coppia di ingranaggi a vite senza fine
Per creare una coppia di ingranaggi cremagliera e pignone
Per definire l'orientamento delle coppie di ingranaggi
Per modificare una coppia di ingranaggi
Utilizzo delle coppie di ingranaggi nelle analisi di Mechanism Dynamics
Misure per gli ingranaggi generici e dinamici
Servomotori
Servomotori
Cenni generali sui motori geometrici
Per definire un motore
Per modificare un motore
Per definire una tabella Funzione motore
Per definire una funzione motore definita dall'utente
Impostazioni per le funzioni motore SCCA
Definizione espressione definita dall'utente
Per definire una funzione motore definita dall'utente
Finestra di dialogo Grafico espressione (Expression Graph)
Finestra di dialogo Funzioni (Functions)
Finestra di dialogo Operatori (Operators)
Finestra di dialogo Variabili (Variables)
Finestra di dialogo Costanti (Constants)
Cinghie e pulegge
Cinghie e pulegge
Interfaccia utente per le cinghie e le pulegge
Per creare un sistema di cinghie e pulegge
Analisi
Analisi di posizione
Analisi di posizione
Per creare un'analisi di posizione
Per immettere le preferenze per le analisi cinematiche e di posizione
Analisi cinematiche
Analisi cinematica
Creazione di un'analisi cinematica
Misure, grafici e metodi di valutazione
Misure
Risultati della misurazione
Rappresentazione grafica dei risultati delle misurazioni
Finestra di dialogo Misura risultati
Misure associate con le entità di modello
Per creare misure
Tipi di misura
Posizione, velocità e accelerazione
Misure di posizione, velocità e accelerazione
Creazione di misure impulso di puntale di guida
Componenti
Componenti delle misure di reazione delle connessioni a perno
Componenti delle misure di reazione per le connessioni a scorrimento
Componenti delle misure di reazione delle connessioni cilindriche
Componenti delle misure di reazione delle connessioni sferiche
Componenti delle misure di reazione delle connessioni piane
Componenti delle misure di reazione delle connessioni portanti
Componenti delle misure di reazione delle connessioni di saldatura
Componenti delle misure di reazione delle connessioni con 6 gradi di libertà
Componenti per le connessioni generali
Componenti delle misure di reazione delle connessioni dei puntali di guida
Componenti per le misure di velocità angolare, accelerazione angolare e centro di massa dei corpi rigidi
Componenti per le misure di inerzia al centroide dei corpi rigidi
Componenti per le misure di orientamento dei corpi rigidi
Componenti per le misure di sistema del momento lineare, del momento angolare e del centro di massa
Componenti per le misure di sistema di inerzia al centroide
Altre misure
Misure di sistema
Per creare misure di sistema
Misure dei corpi rigidi
Per creare misure dei corpi rigidi
Misure di separazione
Per creare misure di separazione
Misure di camma
Misure definite dall'utente
Per creare misure definite dall'utente
Quantità per le misure definite dall'utente
Grafici
Grafici multipli
Grafici
metodi di valutazione
Metodi di valutazione
Metodo di valutazione All'ora
Metodo di valutazione integrale
Esempio: metodi di valutazione
Curve di traccia
Curve di traccia
Finestra di dialogo Curva traccia
Per creare una curva di traccia
Per modificare curve di traccia 3D
Utilizzo dei risultati delle analisi
Riproduzione
Riproduzione
Finestra di dialogo Riproduzioni
Visualizzazione di un insieme di risultati
Per tenere traccia di una misura durante la riproduzione
Scheda Programmaz filmato (Movie Schedule)
Frecce di visualizzazione
Misure disponibili per le frecce di visualizzazione
Carichi di input disponibili per le frecce di visualizzazione
Salvataggio di un insieme di risultati in un file
Ripristino di un file contenente un insieme di risultati
Finestra di dialogo Animare
Finestra di dialogo Cattura
Cattura di un insieme di risultati di riproduzione
Per creare un inviluppo di movimento
Finestra di dialogo Crea inviluppo movimento (Create Motion Envelope)
Rimozione di un insieme di risultati di riproduzione
Esportazione di un insieme di risultati di riproduzione
Mechanism Dynamics
Utilizzo di Mechanism Dynamics
Per creare un modello per Mechanism Dynamics
Workflow in Mechanism Dynamics
Per aggiungere entità di modellazione per Mechanism Dynamics
Per utilizzare servomotori in Mechanism Dynamics
Per definire le analisi in Mechanism Dynamics
Per eseguire analisi in Mechanism Dynamics
Condizioni iniziali
Condizioni iniziali
Finestra di dialogo Definizione di condizione iniziale (Initial Condition Definition)
Creazione di una condizione iniziale
Modifica di una condizione iniziale
Per creare una condizione iniziale da una riproduzione
Per specificare la direzione del vettore di velocità
Suggerimento: utilizzo delle condizioni iniziali
Condizioni iniziali incompatibili
Controlli di convalida delle condizioni iniziali
Per impostare la posizione dell'asse del moto per le condizioni iniziali tramite la finestra di dialogo Trascina (Drag)
Condizioni terminazione (Termination Conditions)
Condizioni di terminazione
Per creare una condizione di terminazione
Esempio: utilizzo di una condizione di terminazione
Linee guida per la creazione di condizioni di terminazione
Proprietà di massa
Proprietà di massa
Finestra di dialogo Proprietà massa (Mass Properties)
Specifica delle proprietà di massa di una parte
Specifica delle proprietà di massa di un assieme
Inerzia
Contatto 3D
Interfaccia utente Contatto 3D
Contatto 3D
Per creare un contatto 3D
Modellazione delle entità
Forze motrici
Forze motrici
Forze e coppie
Forza e coppia
Creazione di una forza o di una coppia
Modifica di una forza o di una coppia
Gravità
Gravità
Finestra di dialogo Gravità
Per definire o modificare la gravità
Rimozione della gravità
Attrito del puntale di camma
Molle e smorzatori
Molle
Interfaccia utente di Molla
Per creare una molla
Per modificare una molla
Smorzatori
Interfaccia utente Smorzatori
Creazione di uno smorzatore
Per modificare uno smorzatore
Per visualizzare molle e smorzatori nell'albero modello dell'assieme
Carichi boccola
Informazioni sui carichi boccola
Per creare un carico boccola
Carichi personalizzati
Informazioni sui carichi personalizzati
Funzioni per i carichi personalizzati
Funzioni e valori dei relativi argomenti
Linee guida per la creazione di un'applicazione di carichi applicati
Linee guida per l'utilizzo di un'applicazione di carichi applicati
Analisi
Analisi
Finestra di dialogo Definizione analisi
Esecuzione di un'analisi
Suggerimento: esecuzione di un'analisi
Entità bloccate per le analisi
Per copiare un'analisi
Per eliminare un'analisi
Modifica di una definizione di analisi
Specifica dei motori per un'analisi
Specifica dei carichi esterni per un'analisi
Per attivare l'attrito totale
Per attivare la gravità
Per immettere informazioni relative ai carichi esterni
Per immettere informazioni relative ai motori
Controlli di convalida per le analisi
Per salvare e visualizzare i risultati delle analisi di posizione e cinematiche
Analisi dinamiche
Analisi dinamica
Creazione di un'analisi dinamica
Per definire le preferenze per l'analisi dinamica
Per immettere le preferenze per le analisi dinamiche
Analisi di bilanciamento delle forze
Analisi di bilanciamento delle forze
Creazione di un'analisi di bilanciamento delle forze
Definizione delle preferenze per l'analisi di bilanciamento delle forze
Per immettere le preferenze per un'analisi di bilanciamento delle forze
Analisi statica
Analisi statica
Creazione di un'analisi statica
Per immettere le preferenze per le analisi statiche
Esempi: analisi statiche
Misure
Misure di reazione connessione
Creazione di misure di reazione di connessione
Per creare misure di reazione connessione con un SISCOO specifico
Altre misure
Misure di carico netto
Confronto tra le misure di carico netto e di reazione connessione
Per creare misure di carico netto
Misure di reazione cella di carico
Creazione di misure di reazione di celle di carico
Per creare blocchi di celle di carico
Misure di impatto
Creazione di misure di impatto
Misure impulso
Creazione di misure impulso dell'asse di moto
Creazione di misure impulso di puntale di camma
Componente di slittamento per connessioni di puntale di camma
Per creare misure di camma
Creazione di misure di reazione della connessione puntale di camma
Creazione di misure di posizione, di velocità o di accelerazione
Trasferimento di carichi in PTC Creo Simulate
Trasferimento dei carichi in modalità Structure di Creo Simulate
Finestra di dialogo Esporta carico (Load Export)
Informazioni sull'elenco Informazioni carico (Load Information)
Linee guida per l'esportazione di carichi in modalità Structure di Creo Simulate
Procedura di trasferimento dei carichi in modalità Structure di Creo Simulate
Per esportare carichi in modalità Structure di Creo Simulate
Esempio: trasferimento dei carichi in un assieme di camme
Glossario
Glossario di Mechanism Design
Design Animation
Panoramica su Design Animation
Animazione del progetto
Design Animation
Animazione
Interfaccia utente dell'animazione
Creazione di un'animazione
Per definire un'animazione
Impostazione dell'animazione di un'istantanea
Impostazione di un'animazione esplosa
Esecuzione di un'animazione
Per modificare un'animazione
Definizione di corpi rigidi
Corpi rigidi
Per creare un corpo rigido
Finestra di dialogo Definizione corpo rigido (Rigid Body Definition)
Creazione di sequenze di fotogrammi chiave
Sequenze dei fotogrammi chiave
Finestra di dialogo Sequenza fotogrammi chiave (Key Frame Sequence)
Per definire una sequenza di fotogrammi chiave
Per controllare i corpi rigidi in una sequenza di fotogrammi chiave
Gestisci sequenze fotogrammi chiave
Scheda Corpi (Bodies) nella finestra di dialogo Sequenza fotogrammi chiave (Key Frame Sequence)
Scheda Sequenza (Sequence) nella finestra di dialogo Sequenza fotogrammi chiave (Key Frame Sequence)
Finestra di dialogo Istanza KFS
Esempio: corpo rigido di riferimento
Creazione di servomotori
Servomotori
Creazione di un servomotore
Per gestire i servomotori
Servomotori geometrici
Per definire una tabella Funzione motore
Per creare una funzione motore definita dall'utente
Esempio: tipi di profili di motore
Funzioni del servomotore SCCA
Grafici
Per includere un servomotore in un'animazione
Per definire la temporizzazione del servomotore
Impostazioni asse del moto
Per specificare le impostazioni dell'asse del moto
Definizione dei riferimenti zero per il movimento
Blocco di corpi rigidi
Blocco di corpi rigidi
Per bloccare i corpi rigidi
Definizione dello stato di connessione
Stato di connessione
Per definire uno stato di connessione
Icone di connessione
Definizione di eventi
Eventi
Per definire un evento
Inclusione delle animazioni dipendenti
Animazioni dipendenti
Finestra di dialogo Animazione dipendente (Subanimation)
Esecuzione e riproduzione dell'animazione
Riproduzione
Per riprodurre un'animazione
Barra degli strumenti Animaz
Finestra di dialogo Cattura
Finestra di dialogo Crea inviluppo movimento (Create Motion Envelope)
Definizione del dominio temporale
Domini temporali
Per impostare un dominio temporale
Tipi di dominio temporale
Definizione delle viste
Finestra di dialogo Visualizza in base a valore temporale (View @ Time)
Per definire le viste di un'animazione
Definizione degli stili di visualizzazione
Finestra di dialogo Stile in base a valore temporale (Style @ Time)
Per definire uno stile di visualizzazione per un'animazione
Definizione delle impostazioni
Impostazioni dell'animazione
Per definire le impostazioni di un'animazione
Definizione della trasparenza
Trasparenza in base a valore temporale
Finestra di dialogo Trasparenza in base a valore temporale (Transparency at Time)
Per definire le trasparenze per un'animazione
Finestra di dialogo Interpolazione (Interpolation)
Sequenza temporale di Design Animation
Sequenza temporale dell'animazione
Modifica della visualizzazione della sequenza temporale
Glossario
Glossario di Design Animation
Creo Flow Analysis
Introduzione a Creo Flow Analysis
Workflow in Creo Flow Analysis
Interfaccia di Creo Flow Analysis
Procedura guidata
Editor espressioni
Nozioni di base dell'Editor espressioni
Funzioni
Variabili
Variabili globali
Variabili correlate al modulo
Esempi
Aggiunta di una curva a ventaglio
Casi di convalida
Casi di convalida
Trasferimento di calore
Flusso turbolento
Flusso laminare
DrivAer
Fisica avanzata - Cavitazione e miscelazione di più componenti
Fisica avanzata o dam-break
Pre-elaborazione
Estrazione del dominio fluido
Creazione di mesh
Definizione della fisica
Definizione della fisica
Flusso
Flusso - Introduzione
Definizioni
Fisica
Modelli di flusso
Condizioni
Condizioni
Proprietà di materiale
Condizioni al limite
Modello di resistenza
Frame non inerziale
Origine
Condizione iniziale e stato
Variabili di output
Turbolenza
Turbolenza: introduzione
Definizioni
Fisica
Fisica
Fisica delle pareti
Modelli di turbolenza
Condizioni
Condizioni
Viscosità turbolenta
Condizioni al limite
Origine
Condizione iniziale e stato
Variabili di output
Calore
Calore - Introduzione
Definizioni
Fisica
Fisica
Modelli di calore
Condizioni
Condizioni
Proprietà di materiale
Condizioni al limite
Condizioni di interfaccia
Origine
Condizione iniziale e stato
Variabili di output
Multifase
Multifase - Introduzione
Definizioni
Fisica
Modelli euleriani e equazioni governanti
Considerazioni speciali del modello VOF (volume di fluido)
Considerazioni numeriche
Condizioni
Proprietà di materiale
Condizioni al limite
Condizione iniziale e stato
Variabili di output
Cavitazione
Cavitazione - Introduzione
Definizioni
Fisica
Equazioni governanti
Teoria dei modelli di cavitazione
Modelli di cavitazione
Modellazione dei limiti di cavitazione
Condizioni
Proprietà di materiale
Condizioni al limite
Condizione iniziale e stato
Variabili di output
Radiazione
Radiazione - Introduzione
Definizioni
Fisica
Caratteristiche di radiazione termica
Modellazione del trasferimento termico radiativo
Condizioni
Proprietà di materiale
Origine
Condizioni al limite
Multicomponent Mixing
Miscelazione di più componenti - Introduzione
Definizioni
Fisica
Condizioni
Proprietà di materiale
Condizione iniziale e stato
Condizioni al limite
Variabili di output
Particella
Particella - Introduzione
Fisica
Modello di particelle distinte
Modellazione dell'erosione delle particelle
Parametri di particella
Condizioni al limite
Output di particelle
Linea di flusso
Linea di flusso - Introduzione
Definizioni
Fisica
Condizioni al limite
Impostazioni di visualizzazione
Dinamica
Dinamica - Introduzione
Definizioni
Fisica
Movimenti di un corpo rigido
Solutore ODE
Condizioni
Traslazionale
Modello di equilibrio delle forze per la traslazione (1 grado di libertà)
Rotazionale
Modello di equilibrio delle forze per la rotazione (1 grado di libertà)
Condizioni al limite
Variabili di output
Specie
Specie - Introduzione
Definizione
Fisica
Condizioni
Proprietà di materiale
Condizioni al limite
Condizione iniziale e stato
Variabili di output
Comune
Comune (Common) - Introduzione
Definizioni
Condizioni
Valori numerici e convergenza
Valori numerici
Convergenza
Creazione di file FNF per la simulazione strutturale
Esecuzione della simulazione
Postelaborazione
Simulazione
Postelaborazione
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