An Introduction to Abaqus for CATIA V5
An Overview of Abaqus for CATIA V5
Accessing CATIA V5 Functionality from Abaqus for CATIA V5
Getting the Most Out of the Documentation
Support for Abaqus 2018 Analyses
Working with Files in an ENOVIA V5 Database
Getting Started with the Nonlinear Structural Analysis Workbench
Assigning a Material to a Part
Creating an Abaqus Analysis Case
Generating a Mesh and Submitting an Analysis Job
Getting Started with the Thermal Analysis Workbench
Assigning Temperature-Dependent Material Properties to a Part
Defining Film Conditions and Initial Conditions in a Heat Transfer Step
Computing and Viewing Nodal Temperatures
Postprocessing and Cut Plane Analysis
Creating a Finite Element Model
Choosing Between General Static and Explicit Dynamics Steps
Accounting for Nonlinear Geometric Effects
Creating and Modifying Field Output Requests
Creating and Modifying History Output Requests
Creating and Modifying Data File Output Requests
Specifying Abaqus Material Properties
Creating a Two-Dimensional Orthotropic User Material
Creating a 2D Property Enhancement
Additional Element Formulations
Modifying Global Element Assignments
Modifying Local Element Assignments
Creating a Connection Behavior
Creating a Mechanical Connection Behavior
Creating a Thermal Connection Behavior
Creating a Cyclic Symmetry Property
Creating a Bolt Pretension Property
Importing Composite Properties
Importing Composite Properties from the Composite Design Workbench
Reading Composite Properties from an XML Mapping File
Defining Search Parameters for the Interaction Wizard
Defining Default Interaction Parameters for the Interaction Wizard
Reviewing and Creating Interactions Using the Interaction Wizard
Editing Detected or Existing Interactions Using the Interaction Wizard
Creating General Analysis Connections
Creating Point Analysis Connections
Creating Point Analysis Connections Within One Part
Creating Line Analysis Connections
Creating Line Analysis Connections Within One Part
Creating Surface Analysis Connections
Creating Surface Analysis Connections Within One Part
Creating Points to Points Analysis Connections
Creating Point Analysis Interfaces
Creating Bolt Tightening Connection Properties
Creating Pressure Fitting Connection Properties
Creating Rigid Connection Properties
Creating Smooth Connection Properties
Creating Spring Connection Properties
Creating Virtual Rigid Bolt Tightening Connection Properties
Creating Virtual Spring Bolt Tightening Connection Properties
Creating Spot Welding Connection Properties
Creating Seam Welding Connection Properties
Creating Surface Welding Connection Properties
Point-based Connection Properties
Creating Nodes to Nodes Connection Properties
Creating Node Interface Properties
Creating Rigid Body Constraints
Creating Analytical Rigid Surfaces
Creating Smooth Spring Virtual Parts
Creating Rigid Spring Virtual Parts
Using Abaqus Element Quality Checks
Assigning Continuum Shell Properties to Solids
Assigning Gasket Properties to Solids
Assigning Membrane Properties to Surfaces
Analyzing the Global Model and the Submodel
Using Cyclic Symmetry in a Model
Defining Pretensioned Bolts in a Model
Creating a Tetrahedral Mesh for 3D Bolt Models
Creating a Hexahedral Mesh for 3D Bolt Models
Selecting the Proper Tool for Bolt Modeling
Using Local Coordinate Systems
Advanced Selection Options for Supports
Structural Simulation History and Environment Definition
Inserting a New General Static Step
Inserting a New Static Linear Perturbation Step
Inserting a New Frequency Step
Inserting a New Mode-based Steady-State Dynamics Step
Inserting a New Subspace-based Steady-State Dynamics Step
Inserting a New Explicit Dynamics Step
Creating Displacement Boundary Conditions
Creating Clamp Boundary Conditions
Creating Velocity Boundary Conditions
Creating Acceleration Boundary Conditions
Creating Submodel Boundary Conditions
Creating Base Motion Boundary Conditions
Creating Rotational Body Force Loads
Creating Temperature Histories
Creating Surface Mass Densities
Creating Distributed Masses and Inertias
Thermal Simulation History and Environment Definition
Inserting a New Heat Transfer Step
Creating Temperature Boundary Conditions
Creating Smooth Step Amplitudes
Editing Step-Dependent Objects
Preparing an Assembly for Analysis
Checking the Consistency of an Analysis Case
Checking the Consistency of a CATIA V5 Model
Navigating the Job Customization Options
Choosing the Job Source and Type
Specifying File Storage Directories
Specifying the Input File Format
Controlling Parallel Execution
Monitoring the Progress of a Job
Viewing the Results of Your Job
Understanding the Files Generated by Analyzing a Model in Abaqus
Submitting Batch Jobs Locally and Remotely
Compiling and Attaching User Subroutine Files
Using Analysis Sensors in an Optimization Problem
Creating Optimization Parameters
Querying Values for a Results Image
Exporting and Plotting History Data
Postprocessing for Damage Initiation Output
Nonlinear Structural Analysis Workbench Description
Nonlinear and Thermal Properties Toolbar
Thermal Analysis Workbench Description
Nonlinear and Thermal Properties Toolbar
Installing Abaqus for CATIA V5
Installing Abaqus for CATIA V5 (AFC)
Configuring Abaqus for CATIA V5
Configuring Licensing for Abaqus for CATIA V5 Prerequisite (ACP) and Abaqus for CATIA V5
Configuring an Abaqus Analysis
Accessing the Abaqus for CATIA V5 Documentation
Conventions and Default Settings
Customizable and Persistent Default Values in Abaqus for CATIA V5 Dialog Boxes
Abaqus for CATIA V5 Automation Interface
Automation Interface Description
An Example of Using the Abaqus for CATIA V5 Automation Interface