Structural Scenario Creation

What's New

R2022x FD01 (FP.2205)

R2022x GA

Structural Scenario Creation Basics

Related Guides and Resources

Structural Scenario Creation Access to Content

Content Categories

Access Roles

Content Lifecycle

Predefined Queries

User Interface: Action Bar

Standard Area

Flyout for Undo Options

Flyout for Model

Flyout for Feature Manager

Setup Section

Flyout for Analysis Cases

Flyout for Materials

Flyout for Amplitudes

Procedures Section

Initial Conditions Section

Interactions Section

Flyout for Finding Disconnected Bodies

Flyout for Co-Simulation Experiment Publishing

Restraints Section

Loads Section

Flyout for Pressures

Flyout for Forces

Flyout for Bolts

Flyout for Translations/Rotations

Flyout for Velocities

Flyout for Connector Force/Moment

Flyout for Connector Translation/Rotation

Flyout for Connector Translational/Rotational Velocity

Flyout for Centrifugal/Rotary Forces

Flyout for Base Motions

Thermal Section

Durability Section

Flyout for Analysis Cases

Simulate Section

Flyout for Simulation Options

Flyout for Simulate

Display Section

Keyboard Shortcuts

Customizing Preferences

Offline Mode

Spatially Varying Mapped Data

About Mapped Data

Mapping Data File Formats

Mapping Search Controls

Mapping Search Control Options

Creating or Editing Finite Element Models

Create New Finite Element Model Representations

Edit Existing Finite Element Model Representations

Applying a Finite Element Model to a Simulation

Setup

Amplitudes

About Amplitudes

Tabular Amplitudes

Periodic Amplitudes

Smooth Step Amplitudes

Creating Tabular Amplitudes

Creating Periodic Amplitudes

Creating Smooth Step Amplitudes

Automated FEM

About Automated FEM Methods

General-Purpose Automated FEM Methods

Specialized Automated FEM Methods

About Midsurface Meshes

Creating FEMs Using Standard Meshing Procedures

Empty Automated FEM Method

About the Empty FEM Method

Creating Empty FEMs

Creating Axisymmetric FEMs

Correcting Finite Element Model Problems

Customizing FEM Naming and Quality Options in the Automated FEM Application

Automated FEM: User-Driven Options

FEM Name Prefix

Procedure

Execution

Quality

Export

Automated FEM: User-Driven Context Menu Selections

Procedure Options

Input Options

Mesh of Assembly vs. Assembly of Meshes

Contributing Parts

About Contributing Parts

Tree View

Multibody Parts

Frequency Simulations

Thermal Simulations

Selecting Which Parts to Include in a Simulation

Element Types

About Element Types

Global Assignments

Local Assignments

Assigning Element Types

Review and Edit Global Element Type Assignments

Assign Local Element Types

Available Element Types

Connectors and Masses

Gaskets

Linear Bars

Linear Bricks

Linear Quadrilaterals

Linear Tetrahedrons

Linear Triangles

Linear Wedges

Parabolic Bars

Parabolic Bricks

Parabolic Quadrilaterals

Parabolic Tetrahedrons

Parabolic Triangles

Parabolic Wedges

Pyramids

Surfaces

SOLIDWORKS Model Data

About SOLIDWORKS in Simulations

Importing SOLIDWORKS Desktop Files

Updating Imported SOLIDWORKS Models

Procedures

Step Configuration

Static Steps

About Static Steps

Time Period

Nonlinear Static Analysis

Local Instabilities

Incrementation

Defining Static Steps

Define Static Steps Using Automatic Time Incrementation

Define Static Steps Using Fixed Time Incrementation

Static Riks Steps

About Static Riks Steps

Defining Static Riks Steps

Quasi-Static Steps

About Quasi-Static Steps

Incrementation

Explicit Creep Integration

Integration Scheme for Viscoelasticity and Rate-dependent Yield

Local Instabilities

Defining Quasi-Static Steps

Define Quasi-Static Steps Using Automatic Time Incrementation

Define Quasi-Static Steps Using Fixed Time Incrementation

Implicit Dynamic Steps

About Implicit Dynamic Steps

General Implicit Dynamics Analyses

Specifying the Application Type

Defining Implicit Dynamic Steps

Static Perturbation Steps

About Static Perturbation Steps

Contact in Static Perturbation Steps

Loading and Output

Matrix Storage

Defining Static Perturbation Steps

Buckle Steps

About Buckle Steps

General Eigenvalue Buckling

Base State

Eigenvalue Extraction Methods

LSF and Windows HPC Queues

Defining Buckle Steps

Define Buckle Steps Using the Subspace Solver

Define Buckle Steps Using the Lanczos Solver

Frequency Steps

About Frequency Steps

Eigenvalue Extraction

Eigenvalue Extraction Methods

Structural-Acoustic Coupling

Defining Frequency Steps

Harmonic Response Steps

About Harmonic Response Steps

Defining Harmonic Response Steps

Define Harmonic Response Steps Using the Frequency Increment Interval Type

Define Harmonic Response Steps Using the Eigenfrequency Increment Interval Type

Define Harmonic Response Steps Using the Direct Range Interval Type

Define Harmonic Response Steps Using the Frequency Spread Interval Type

Modal Dynamic Steps

About Modal Dynamic Steps

Defining Modal Dynamic Steps

Steady-State Heat Transfer Steps

About Steady-State Heat Transfer Steps

Defining Steady-State Heat Transfer Steps

Define Steady-State Heat Transfer Steps Using Automatic Time Incrementation

Define Steady-State Heat Transfer Steps Using Fixed Time Incrementation

Transient Heat Transfer Steps

About Transient Heat Transfer Steps

Defining Transient Heat Transfer Steps

Define Transient Heat Transfer Steps Using Automatic Time Incrementation

Define Transient Heat Transfer Steps Using Fixed Time Incrementation

Adding Automatic Step Stabilization

Add Damping Stabilization

Add Energy Fraction Stabilization

Add Propagated Stabilization

Selecting Eigenmodes for Mode-Based Procedures

Select All Eigenmodes

Select Eigenmodes by Specifying Frequency Ranges

Damping

About Damping

Applying Damping

Damping Options

General Options

Fraction Damping Data Table

Rayleigh Damping Data Table

Structural Damping Data Table

Initial Conditions

Initial DOF Rotational Velocities

About Initial DOF Rotational Velocities

Applying Initial DOF Rotational Velocities

Initial Fields

About Initial Fields

Specifying Initial Fields

Initial Temperatures

About Initial Temperatures

Applying Initial Temperatures

Apply a Uniform Initial Temperature

Apply Varied Initial Temperatures with Mapped Data

Apply Initial Temperatures Calculated in a Thermal Step

Initial Stresses

About Initial Stresses

Uniform Initial Stresses

Initial Stresses in Sequential Stress Analyses

Applying Initial Stresses

Apply a Uniform Initial Stress

Apply Initial Stress in a Sequential Stress Analysis

Initial Velocities

About Initial Velocities

Applying Initial Velocities

Apply Initial Velocities to Structures

Apply Initial Velocities to Fluids

Applying Initial Velocities to Axisymmetric Structures

Void Ratios

About Void Ratios

Applying Void Ratios

Interactions

Contact Controls

About Contact Controls

Contact Control Options

Defining Contact Controls

Contact Detection

About Contact Detection

Shell Thickness and Offset in Contact Detection

Using Contact Detection

Contact Initialization

About Contact Initialization

Defining Contact Initialization

Contact Interference

About Contact Interference

Defining Contact Interference

Contact Properties

About Contact Properties

Contact Properties in Structural Steps

Contact Properties in Thermal Steps

Defining Contact Properties in Structural Steps

Define Tangential Contact Properties Using Rough Friction

Define Tangential Contact Properties Using Coulomb Friction

Define Normal Contact Properties

Defining Contact Properties in Thermal Steps

Define Thermal Conduction Contact Properties

Define Radiation Contact Properties

Define Electrical Conduction Contact Properties

Contact Tools

About Contact Tools

Impact of Display Settings on Model Geometry Visualization

Locating Contacting Bodies

Locating Disconnected Bodies

Locating Intersecting Bodies

Co-Simulation Experiment Interactions

About Co-Simulation Interactions

Defining Input Ports

Defining Output Ports

Defining Port Regions

Publishing Co-Simulation Ports to the 3DEXPERIENCE platform

General Contact

About General Contact

Contact Smoothing

Contact Stabilization

Defining General Contact in Implicit Steps

Model Change Manager

Model Change Manager

Using the Model Change Manager

Surface-Based Contact

About Surface-Based Contact

Defining Surface-Based Contact in Implicit Steps

Define the Main and Secondary Surfaces

Define the Contact Property and Tie the Surfaces Together

Define the Discretization Method and Sliding and Clearance Behaviors

Define the Adjustment Behaviors

Defining Surface-Based Contact in Explicit Dynamic Steps

Defining Surface-Based Contact in Thermal Steps

Tangential Behavior Overrides

About Tangential Behavior Overrides

Applying Tangential Behavior Overrides

Restraints

Ball Joints

About Ball Joints

Applying Ball Joints

Bolt Restraints

About Bolt Restraints

Applying Bolt Restraints

Clamps

About Clamps

Applying Clamps

Fixed Connector Displacement Restraints

About Fixed Connector Displacement Restraints

Applying Fixed Connector Displacement Restraints

Fixed Displacement Restraints

About Fixed Displacement Restraints

Applying Fixed Displacement Restraints

Applying Fixed Displacement Restraints to Axisymmetric Models

Hinges

About Hinges

Applying Hinges

Planar Symmetry Restraints

About Planar Symmetry Restraints

Applying Planar Symmetry Restraints

Sliders

About Sliders

Applying Sliders

Loads

Base Motions

About Base Motions

Applying Displacement Base Motions

Applying Velocity Base Motions

Applying Acceleration Base Motions

Bearing Loads

About Bearing Loads

Applying Bearing Loads

Bolt Displacements

About Bolt Displacements

Applying Bolt Displacements

Bolt Forces

About Bolt Forces

Applying Bolt Forces

Bolt Torques

About Bolt Torques

Applying Bolt Torques

Cavity Pressures

About Cavity Pressures

Applying Cavity Pressures

Centrifugal Forces

About Centrifugal Forces

Applying Centrifugal Forces

Connector Forces

About Connector Forces

Applying Connector Forces

Connector Moments

About Connector Moments

Applying Connector Moments

Connector Rotations

About Connector Rotations

Applying Connector Rotations

Connector Rotational Velocities

About Connector Rotational Velocities

Applying Connector Rotational Velocities

Connector Translations

About Connector Translations

Applying Connector Translations

Connector Translational Velocities

About Connector Translational Velocities

Applying Connector Translational Velocities

Field Evolution

About Field Evolution

Specifying Field Evolution

Forces

About Forces

Applying Forces

Gravity

About Gravity

Applying Gravity

Imported Forces

About Imported Forces

Data Format

Frequency Domain Data

Defining Imported Forces

Inertia Relief

About Inertia Relief

Applying Inertia Relief

Load Sets and Load Cases

About Load Sets and Load Cases

Creating Load Sets and Load Cases

Create Load Sets

Add Restraints or Loads to Load Sets

Create Load Cases

Prescribed Temperatures

About Prescribed Temperatures

Uniform and Spatially Varying Prescribed Temperatures (All Simulation Types)

Prescribed Temperatures from a Thermal Step (Sequential Thermal-Stress Simulations Only)

Applying Prescribed Temperatures

Apply Uniform Prescribed Temperatures

Apply Spatially Varying Prescribed Temperatures with Mapped Data

Apply Prescribed Temperatures from Thermal Steps

Pressures

About Pressures

Applying Pressures

Apply Uniform Pressures

Apply Hydrostatic Pressure Distributions

Apply Varied Pressures with Mapped Data

Remote Forces

About Remote Forces

Applying Remote Forces

Remote Torques

About Remote Torques

Applying Remote Torques

Rotary Acceleration Forces

About Rotary Acceleration Forces

Applying Rotary Acceleration Forces

Rotational Velocities

About Applied Rotational Velocities

Applying Rotational Velocities

Rotations

About Applied Rotations

Applying Rotations

Shell Edge Loads

About Shell Edge Loads

Applying Shell Edge Loads

Sliding Velocities

About Sliding Velocities

Applying Sliding Velocities

Torques

About Torques

Applying Torques

Translational Velocities

About Translational Velocities

Applying Translational Velocities

Applying Translational Velocities to Axisymmetric Models

Translations

About Applied Translations

Applying Translations

Applying Translations to Axisymmetric Models

Thermal

Film Conditions

About Film Conditions

Applying Film Conditions

Apply Uniform Film Conditions

Apply Varied Film Conditions with Mapped Data

Heat Fluxes

About Heat Fluxes

Applying Heat Fluxes

Apply Uniform Heat Fluxes

Apply Varied Heat Fluxes with Mapped Data

Radiation Cavity Approximation

About Radiation Cavity Approximation

Defining a Radiation Cavity Approximation

Radiation to Ambient

About Radiation to Ambient

Defining Radiation to Ambient

Volumetric Heat Sources

About Volumetric Heat Sources

Defining Volumetric Heat Sources

Durability

Overview of Durability Simulations

Basic Process of Fatigue Analysis

Detailed Discussion of the Steps for Fatigue Analysis

Frames from Structural Analysis Cases Referenced in the Fatigue Loading

Durability Analysis Cases

About Durability Analysis Cases

Creating Durability Analysis Cases

About Durability Output

Introduction to Durability Output

Durability Output Variable Descriptions

Fatigue Loading

About Fatigue Loading

Events

Driving Field of a Fatigue Event

Sequence of Frames

Superposition

inter-event Transitions

Fatigue Loading Behavior When a Structural Analysis Case Has Several Strain Fields in Its Output

Defining Fatigue Loading

Surface Finishes

About Surface Finishes

Roughness and Surface Finish Factor

Base Surface Finish and Local Surface Finishes

Defining Surface Finishes

Define Surface Finishes Based on a Kt Value

Define Surface Finishes Based on a Predefined Roughness Setting

Define Surface Finishes Based on UTS and Rz Values

Define Surface Finishes Based on Rz Values in a Saved Surface Finish File

Customizing the Default Surface Finish Parameters

Simulate

Using B.I. Essentials in Structural Scenario Creation