This section lists the topics in this guide that apply to Abaqus/Explicit.
This page discusses:
Aqua load cases
Blast loading of a circular plate using the CONWEP model
CONWEP blast loading pressures
Impedance boundary conditions
Transient acoustic wave propagation
Volumetric drag
Damped free vibration with initial conditions
Individual connector option tests
Multiple instances of connector elements
Sinusoidal excitation of a damped spring-mass system
Tests for special-purpose connectors
Anisotropic friction for Abaqus/Explicit
Beam impact on cylinder
Contact searching for analytical rigid surfaces
Contact with initial overclosure of curved surfaces
Finite-sliding contact between a deformable body and a rigid surface
Finite-sliding contact between coupled temperature-displacement elements
Multiple surface contact with penalty method
Rolling of steel plate
Self-contact of finite-sliding deformable surfaces
Small-sliding contact between coupled temperature-displacement surfaces
Small-sliding contact with specified clearance or overclosure values
Abaqus/Standard to Abaqus/Explicit co-simulation
Discrete element method analysis
Lumped kinetic molecular method
Particle generator
Linear kinematics element tests
Mass scaling
Single degree of freedom spring-mass systems
Abaqus/Explicit element loading verification
Cohesive element load verification
Coupled temperature-displacement elements
Distributed traction and edge loads
Incident wave loading
Pipe stress/displacement elements
Cohesive surface interaction
Friction models in Abaqus/Explicit
Thermal surface interaction
Annealing temperature
Barlat anisotropic plasticity
Brittle cracking constitutive model
Concrete damaged plasticity
Cracking model: tension shear test
Drucker-Prager plasticity
Drucker-Prager/Cap plasticity model
Elastic materials
Equation of state material
Field-variable-dependent elastic materials
Field-variable-dependent inelastic materials
Johnson-Cook plasticity
Large-strain viscoelasticity with hyperelasticity
Mass proportional damping in Abaqus/Explicit
Material damping in Abaqus/Explicit
Mullins effect and permanent set
Nonlinear large-strain viscoelasticity with hyperelasticity
Porous metal plasticity
Progressive damage and failure in fiber-reinforced materials
Progressive damage and failure of ductile metals
Rate-dependent plasticity in Abaqus/Explicit
Rate-independent plasticity
Temperature-dependent elastic materials
Temperature-dependent inelastic materials
Thermal expansion test
Viscoelastic materials
Using generated cross-section properties in a beam analysis
Adjusting nodal coordinates
Amplitude
Coupling constraints
Define a part instance that will be used for display only
Defining temperature, field variable, pressure stress, and pore fluid pressure values
Defining the cutting surface
Embedded element technique
Mesh-independent spot welds
Modified contact pressure-overclosure relationship
Multi-point constraints
Shell-to-solid coupling constraints
Spatially varying element properties
Specifying geometric imperfection and parameter shape variation
Specifying user-defined field variables directly in the input file
Surface-based fluid cavities
Surface-based tie constraint
Integrated output variables
CEL analysis of a rotating water disk
Media transport
Smoothed particle hydrodynamic analysis
Analysis of unbounded acoustic regions
Mass adjust verification
Nonstructural mass verification
Rebar in Abaqus/Explicit
Rigid bodies with temperature DOFs, heat capacitance, and nodal-based thermal loads
Membrane patch test
Patch test for acoustic elements
Patch test for axisymmetric elements
Patch test for beam elements
Patch test for heat transfer elements
Patch test for three-dimensional solid elements
Including deformable element types in a rigid body
Rigid body as an MPC
Rigid body constraint
Rigid body mass properties
Tie and pin node sets
Beam added inertia
Beam fluid inertia
Beam with end moment
Cohesive elements
Composite shell sections
Flexure of a deep beam
Initial curvature of beams and shells
Normal definitions of beams and shells
Shear flexible beams and shells: I
Shear flexible beams and shells: II
Simple shear
Simple tests of beam kinematics
Temperature-dependent film condition
Tensile test
Thermal stress in a cylindrical shell
Acoustic submodeling
Axisymmetric continuum stress/displacement submodeling
Coupled temperature-displacement submodeling
Heat transfer submodeling
Membrane submodeling
Miscellaneous submodeling tests
Shell submodeling
Shell-to-solid submodeling
Three-dimensional continuum stress/displacement submodeling
Two-dimensional continuum stress/displacement submodeling
Analysis of cyclic symmetric models
Conductivity and specific heat
Field-variable-dependent conductivity
Gap conductance
Adding and removing elements during results transfer
Changing the material definition during import
Miscellaneous results transfer tests
Transferring connector elements into Abaqus/Explicit
Transferring hourglass forces
Transferring mass and rotary inertia elements
Transferring results between Abaqus/Explicit and Abaqus/Standard
Transferring results for a hyperelastic sheet with a circular hole
Transferring results from multiple previous analyses
Transferring results from one Abaqus/Explicit analysis to another Abaqus/Explicit analysis
Transferring results of an analysis model multiple times
Transferring results with damage
Transferring results with general beam sections
Transferring results with general shell sections
Transferring results with hyperelasticity
Transferring results with hyperfoam
Transferring results with nodal temperature and field variables
Transferring results with orientation
Transferring results with parallel rheological framework
Transferring results with plasticity
Transferring results with viscoelasticity
Transferring rigid elements
UANISOHYPER_INV and VUANISOHYPER_INV
VDISP
VDLOAD: nonuniform loads
VFRIC, VFRIC_COEF, and VFRICTION
VHETVAL
VSDVINI
VUAMP
VUCHARLENGTH
VUCREEPNETWORK
VUEL
VUFIELD
VUGENS
VUHARD
VUINTER
VUINTERACTION
VUMAT: rotating cylinder
VUMATHT
VUSDFLD
VUVISCOSITY
VWAVE