The output variables listed below
are available in
Abaqus/Explicit.
Tensors and invariants
- S
- .fil: yes .odb Field: yes .odb History: yes
All stress components.
- MISESMAX
- .fil: no .odb Field: yes .odb History: no
Maximum Mises stress among all of the section points. For a shell element it
represents the maximum Mises value among all the section points in the layer,
for a beam or pipe element it is the maximum Mises stress among all the section
points in the cross-section, and for a solid element it represents the Mises
stress at the integration points.
- Sij
- .fil: no .odb Field: no .odb History: yes
-component
of stress ().
- SP
- .fil: yes .odb Field: yes .odb History: yes
All principal stress components.
- SPn
- .fil: no .odb Field: no .odb History: yes
Minimum, intermediate, and maximum principal stress components (SP1SP2
SP3).
- E
- .fil: yes .odb Field: yes .odb History: yes
All infinitesimal strain components for geometrically linear analysis.
- Eij
- .fil: no .odb Field: no .odb History: yes
-component
of infinitesimal strain ().
- LE
- .fil: yes .odb Field: yes .odb History: yes
All logarithmic strain components.
- LEij
- .fil: no .odb Field: no .odb History: yes
-component
of logarithmic strain ().
- LEP
- .fil: yes .odb Field: yes .odb History: yes
All principal logarithmic strain components.
- LEPn
- .fil: no .odb Field: no .odb History: yes
Minimum, intermediate, and maximum principal logarithmic strain components (LEP1
LEP2
LEP3).
- THE
- .fil: yes .odb Field: yes .odb History: yes
All thermal strain components.
- THEij
- .fil: no .odb Field: no .odb History: yes
-component
of thermal strain ().
- THEP
- .fil: yes .odb Field: yes .odb History: yes
All principal thermal strains.
- THEPn
- .fil: no .odb Field: no .odb History: yes
Minimum, intermediate, and maximum principal thermal strains (THEP1
THEP2
THEP3).
- ER
- .fil: yes .odb Field: yes .odb History: yes
All logarithmic strain rate components.
- ERij
- .fil: no .odb Field: no .odb History: yes
-component
of logarithmic strain rate().
- ERP
- .fil: yes .odb Field: yes .odb History: yes
All principal logarithmic strain rate components.
- ERPn
- .fil: no .odb Field: no .odb History: yes
Minimum, intermediate, and maximum principal strain rate components (ERP1
ERP2
ERP3).
- NE
- .fil: yes .odb Field: yes .odb History: yes
All nominal strain components.
- NEij
- .fil: no .odb Field: no .odb History: yes
-component
of nominal strain ().
- NEP
- .fil: yes .odb Field: yes .odb History: yes
All principal nominal strain components.
- NEPn
- .fil: no .odb Field: no .odb History: yes
Minimum, intermediate, and maximum principal nominal strain components (NEP1
NEP2
NEP3).
- PE
- .fil: yes .odb Field: yes .odb History: yes
All plastic strain components.
- PEij
- .fil: no .odb Field: no .odb History: yes
-component
of plastic strain ().
- PEP
- .fil: no .odb Field: yes .odb History: yes
All principal plastic strains.
- PEPn
- .fil: no .odb Field: no .odb History: yes
Minimum, intermediate, and maximum principal plastic strains.
- ERV
- .fil: yes .odb Field: yes .odb History: yes
Volumetric strain rate.
- MISES
- .fil: yes .odb Field: yes .odb History: yes
Mises equivalent stress, defined as ,
where is the deviatoric
stress tensor, defined as ,
where is the stress
and
is the equivalent pressure stress.
- PRESS
- .fil: yes .odb Field: yes .odb History: yes
Equivalent pressure stress, .
- TRIAX
- .fil: no .odb Field: yes .odb History: yes
Stress triaxiality, .
- YIELDS
- .fil: no .odb Field: yes .odb History: yes
Yield stress, ,
available for Mises, Johnson-Cook, and Hill plasticity material models.
- MASSADJUST
- .fil: no .odb Field: yes .odb History: no
Adjusted or redistributed mass in each element that is included in the
element sets used with mass adjustment. This output is available only in the
first output frame of the first analysis step.
- ALPHA
- .fil: yes .odb Field: yes .odb History: yes
All total kinematic hardening shift tensor components.
- ALPHAij
- .fil: no .odb Field: no .odb History: yes
-component
of the total shift tensor ().
- ALPHAP
- .fil: yes .odb Field: yes .odb History: yes
All principal values of the total shift tensor.
- ALPHAPn
- .fil: no .odb Field: no .odb History: yes
Minimum, intermediate, and maximum principal values of the total shift
tensor (ALPHAP1
ALPHAP2
ALPHAP3).
- SNETk
- .fil: no .odb Field: yes .odb History: yes
All stress components in the
network ().
Available only for the parallel rheological framework.
- SNETk_ij
- .fil: no .odb Field: no .odb History: yes
-component
of stress in the
network (
and ).
Available only for the parallel rheological framework.
- PEEQ
- .fil: yes .odb Field: yes .odb History: yes
Equivalent plastic strain.
For porous metal plasticity PEEQ is the equivalent plastic strain in the matrix material defined
as .
For cap plasticity PEEQ gives
(the cap position).
For crushable foam plasticity with volumetric hardening PEEQ gives the volumetric compacting plastic strain defined as
.
For crushable foam plasticity with isotropic hardening PEEQ gives the equivalent plastic strain defined as
,
where
is the uniaxial compression yield stress.
- PEEQT
- .fil: no .odb Field: yes .odb History: yes
Equivalent plastic strain in uniaxial tension for cast iron, Mohr-Coulomb
tension cutoff, and concrete damaged plasticity, which is defined as
.
- PEEQR
- .fil: no .odb Field: yes .odb History: yes
Equivalent plastic strain rate. Available only for rate-dependent
viscoplastic models.
- PEEQMAX
- .fil: no .odb Field: yes .odb History: no
Maximum equivalent plastic strain, PEEQ, among all of the section points. For a shell element it
represents the maximum PEEQ value among all the section points in the layer, for a beam or
a pipe element it is the maximum PEEQ among all the section points in the cross-section, and for a
solid element it represents the PEEQ at the integration points.
- DMICRTMAX
- .fil: no .odb Field: yes .odb History: no
Maximum damage initiation criteria value among all section points, all
damage initiation criteria, and all time increments up to the current time.
This output variable generates three output quantities as follows:
DMICRTMAXVAL outputs the maximum damage initiation value.
DMICRTPOS outputs the section point in the layer in which the maximum
damage initiation value occurred. For solid elements, the output value is one.
DMICRTTYPE outputs a value that represents the damage initiation criteria
type that reached the maximum value in the element as follows:
For elements that have failure with progressive damage: 1-DUCTCRT, 2-SHRCRT, 3-JCCRT, 4-FLDCRT, 5-MSFLDCRT, 6-FLSDCRT, and 7-MKCRT.
For elements that have fiber-reinforced material damage: 11-HSNFTCRT, 12-HSNFCCRT, 13-HSNMTCRT, and 14-HSNMCCRT.
For cohesive elements with traction-separation behavior: 21-MAXSCRT, 22-MAXECRT, 23-QUADSCRT, and 24-QUADECRT.
- STATUSMP
- .fil: no .odb Field: yes .odb History: no
Status of each material point in the element (1.0 if the material point is
active, 0.0 if it is not active).
Geometric quantities
- COORD
- .fil: no .odb Field: yes .odb History: yes
Coordinates of the integration point for solid elements. These are the
current coordinates if the large-displacement formulation is being used.
- LOCALDIRn
- .fil: no .odb Field: automatic .odb History: no
Direction cosines of the local material directions for an anisotropic
hyperelastic material model, or yarn direction cosines for a fabric material
model. This variable is output automatically if any other element field output
is requested for anisotropic hyperelastic or fabric material (see
Output
and
Output).
Additional element stresses
- TSHR
- .fil: yes .odb Field: yes .odb History: yes
All transverse shear stress components for three-dimensional conventional
shell elements.
- TSHR13
- .fil: no .odb Field: no .odb History: yes
-component
of transverse shear stress.
- TSHR23
- .fil: no .odb Field: no .odb History: yes
-component
of transverse shear stress.
Energy densities
- ENER
- .fil: yes .odb Field: yes .odb History: yes
All energy densities.
- SENER
- .fil: no .odb Field: yes .odb History: yes
Elastic strain energy density, per unit volume.
- PENER
- .fil: no .odb Field: yes .odb History: yes
Energy dissipated by rate-independent and rate-dependent plasticity, per
unit volume.
- CENER
- .fil: no .odb Field: yes .odb History: yes
Energy dissipated by viscoelasticity, per unit volume. (Not supported for
hyperelastic and hyperfoam material models with linear viscoelasticity.)
- VENER
- .fil: no .odb Field: yes .odb History: yes
Energy dissipated by viscous effects, per unit volume.
- DMENER
- .fil: no .odb Field: yes .odb History: yes
Energy dissipated by damage, per unit volume.
State and field variables
- SDV
- .fil: yes .odb Field: yes .odb History: yes
Solution-dependent state variables.
- SDVn
- .fil: no .odb Field: yes .odb History: yes
Solution-dependent state variable n.
- TEMP
- .fil: yes .odb Field: yes .odb History: yes
Temperature.
- DENSITY
- .fil: no .odb Field: yes .odb History: yes
Material density.
- FV
- .fil: no .odb Field: yes .odb History: yes
Field variables.
- FVn
- .fil: no .odb Field: no .odb History: yes
Field variable n.
Composite failure measures
- CFAILURE
- .fil: no .odb Field: yes .odb History: no
All failure measure components.
- MSTRS
- .fil: no .odb Field: no .odb History: no
Maximum stress theory failure measure.
- TSAIH
- .fil: no .odb Field: no .odb History: no
Tsai-Hill theory failure measure.
- TSAIW
- .fil: no .odb Field: no .odb History: no
Tsai-Wu theory failure measure.
- AZZIT
- .fil: no .odb Field: no .odb History: no
Azzi-Tsai-Hill theory failure measure.
- MSTRN
- .fil: no .odb Field: no .odb History: no
Maximum strain theory failure measure.
Additional plasticity quantities
- PEQC
- .fil: yes .odb Field: yes .odb History: yes
All equivalent plastic strains, when the model has more than one
yield/failure surface.
- PEQCn
- .fil: no .odb Field: no .odb History: yes
nth equivalent plastic strain
().
For cap plasticity: PEQC provides equivalent plastic strains for all three possible
yield/failure surfaces (Drucker-Prager failure surface - PEQC1, cap surface - PEQC2, and transition surface - PEQC3) and the total volumetric plastic strain (PEQC4). All identifiers also provide a yes/no flag (1/0 in the output
database), telling whether the yield surface is currently active or not
(AC YIELD: “actively yielding”).
When PEQC is requested as output to the output database, the active yield
flags for each component are named AC YIELD1,
AC YIELD2, etc.
Concrete damaged plasticity
- DAMAGEC
- .fil: no .odb Field: yes .odb History: yes
Compressive damage variable, .
- DAMAGET
- .fil: no .odb Field: yes .odb History: yes
Tensile damage variable, .
- SDEG
- .fil: no .odb Field: yes .odb History: yes
Scalar stiffness degradation variable, d.
- PEEQ
- .fil: no .odb Field: yes .odb History: yes
Equivalent plastic strain in uniaxial compression, which is defined as
.
- PEEQR
- .fil: no .odb Field: yes .odb History: yes
Equivalent plastic strain rate.
Superelastic material quantities
- TE
- .fil: no .odb Field: yes .odb History: yes
Transformation strain tensor.
- TEij
- .fil: no .odb Field: no .odb History: yes
-component
of transformation strain ().
- TEEQ
- .fil: no .odb Field: yes .odb History: yes
Equivalent transformation strain.
- TEVOL
- .fil: no .odb Field: yes .odb History: yes
Volumetric transformation strain.
- MVF
- .fil: no .odb Field: yes .odb History: yes
Fraction of martensite.
- SEQUT
- .fil: no .odb Field: yes .odb History: yes
Equivalent uniaxial tensile stress.
- EEQUT
- .fil: no .odb Field: yes
.odb History: yes
Equivalent uniaxial tensile total strain.
Cracking model quantities
- CKE
- .fil: yes .odb Field: yes .odb History: no
All cracking strain components.
- CKEij
- .fil: no .odb Field: no .odb History: no
-component
of cracking strain.
- CKLE
- .fil: yes .odb Field: yes .odb History: no
All cracking strain components in local crack axes.
- CKLEij
- .fil: no .odb Field: no .odb History: no
-component
of cracking strain in local crack axes.
- CKEMAG
- .fil: yes .odb Field: yes .odb History: no
Cracking strain magnitude, defined as .
- CKLS
- .fil: yes .odb Field: yes .odb History: no
All stress components in local crack axes.
- CKLSij
- .fil: no .odb Field: no .odb History: no
-component
of stress in local crack axes.
- CRACK
- .fil: yes .odb Field: no .odb History: no
Crack orientations.
- CKSTAT
- .fil: yes .odb Field: yes .odb History: no
Crack status of each crack. CKSTAT can have the following values for each crack: 0.0=uncracked,
1.0=closed crack, 2.0=actively cracking, 3.0=crack closing/reopening.
Failure with progressive damage
- DMICRT
- .fil: no .odb Field: yes .odb History: yes
All active components of the damage initiation criteria.
- DUCTCRT
- .fil: no .odb Field: no .odb History: yes
Ductile damage initiation criterion.
- JCCRT
- .fil: no .odb Field: no .odb History: yes
Johnson-Cook damage initiation criterion.
- SHRCRT
- .fil: no .odb Field: no .odb History: yes
Shear damage initiation criterion.
- FLDCRT
- .fil: no .odb Field: no .odb History: yes
Forming limit diagram (FLD) damage
initiation criterion.
- FLSDCRT
- .fil: no .odb Field: no .odb History: yes
Forming limit stress diagram (FLSD) damage
initiation criterion.
- MSFLDCRT
- .fil: no .odb Field: no .odb History: yes
Müschenborn-Sonne forming limit stress diagram
(MSFLD) damage initiation criterion.
- MKCRT
- .fil: no .odb Field: no .odb History: yes
Marciniak-Kuczynski (M-K) damage initiation
criterion.
- SDEG
- .fil: no .odb Field: yes .odb History: yes
Overall scalar stiffness degradation.
- ERPRATIO
- .fil: no .odb Field: yes .odb History: yes
Ratio of principal strain rates, ,
used for the MSFLD damage initiation
criterion.
- SHRRATIO
- .fil: no .odb Field: yes .odb History: yes
Shear stress ratio, ,
used for the shear damage initiation criterion.
Fiber-reinforced materials damage
- DMICRT
- .fil: no .odb Field: yes .odb History: yes
All active components of the damage initiation criteria.
- HSNFTCRT
- .fil: no .odb Field: no .odb History: yes
Hashin's fiber tensile damage initiation criterion.
- HSNFCCRT
- .fil: no .odb Field: no .odb History: yes
Hashin's fiber compressive damage initiation criterion.
- HSNMTCRT
- .fil: no .odb Field: no .odb History: yes
Hashin's matrix tensile damage initiation criterion.
- HSNMCCRT
- .fil: no .odb Field: no .odb History: yes
Hashin's matrix compressive damage initiation criterion.
- DAMAGEFT
- .fil: no .odb Field: yes .odb History: yes
Fiber tensile damage variable.
- DAMAGEFC
- .fil: no .odb Field: yes .odb History: yes
Fiber compressive damage variable.
- DAMAGEMT
- .fil: no .odb Field: yes .odb History: yes
Matrix tensile damage variable.
- DAMAGEMC
- .fil: no .odb Field: yes .odb History: yes
Matrix compressive damage variable.
- DAMAGESHR
- .fil: no .odb Field: yes .odb History: yes
Shear damage variable.
Fabric material
Output variable LOCALDIR (described above) is output automatically for fabric
materials. - SFABRIC
- .fil: no .odb Field: yes .odb History: yes
All fabric stress components.
- EFABRIC
- .fil: no .odb Field: yes .odb History: yes
All fabric strain components.
- SFABRICij
- .fil: no .odb Field: no .odb History: yes
-component
of fabric stress ().
- EFABRICij
- .fil: no .odb Field: no .odb History: yes
-component
of fabric strain ().
Equation of state
- BURNF
- .fil: no .odb Field: yes .odb History: yes
Burn fraction of the ignition and growth material.
- DBURNF
- .fil: no .odb Field: yes .odb History: yes
Reaction rate of the ignition and growth material.
- RHOE
- .fil: no .odb Field: yes .odb History: yes
Density of the unreacted explosive in the ignition and growth material.
- RHOP
- .fil: no .odb Field: yes .odb History: yes
Density of the reacted gas product in the ignition and growth material.
- PALPH
- .fil: no .odb Field: yes .odb History: yes
Distension, ,
of the
porous material.
- PALPHMIN
- .fil: no .odb Field: yes .odb History: yes
Minimum value, ,
of the distension attained during plastic compaction of the
porous material.
Rebar quantities
- RBFOR
- .fil: yes .odb Field: yes .odb History: yes
Force in rebar.
- RBANG
- .fil: yes .odb Field: yes .odb History: yes
Angle, in degrees, between rebar and the user-specified isoparametric
direction. Available only for shell and membrane elements.
- RBROT
- .fil: yes .odb Field: yes .odb History: yes
Change in angle, in degrees, between rebar and the user-specified
isoparametric direction. Available only for shell and membrane elements.
Integration point coordinates
- COORD
- .fil: no .odb Field: yes .odb History: yes
Coordinates of element integration point.
Coupled thermal-stress elements
- HFL
- .fil: yes .odb Field: yes .odb History: yes
Current magnitude and components of the heat flux per unit area vector.
- HFLM
- .fil: no .odb Field: no .odb History: yes
Current magnitude of the heat flux per unit area vector.
- HFLn
- .fil: no .odb Field: no .odb History: yes
Component n of the heat flux vector
().
Cohesive elements
- MAXSCRT
- .fil: no .odb Field: no .odb History: yes
Maximum nominal stress damage initiation criterion.
- MAXECRT
- .fil: no .odb Field: no .odb History: yes
Maximum nominal strain damage initiation criterion.
- QUADSCRT
- .fil: no .odb Field: no .odb History: yes
Quadratic nominal stress damage initiation criterion.
- QUADECRT
- .fil: no .odb Field: no .odb History: yes
Quadratic nominal strain damage initiation criterion.
- DMICRT
- .fil: no .odb Field: yes .odb History: yes
All active components of the damage initiation criteria.
- SDEG
- .fil: no .odb Field: yes .odb History: yes
Overall scalar stiffness degradation.
- STATUS
- .fil: no .odb Field: yes .odb History: yes
Status of the element (the status of an element is 1.0 if the element is
active, 0.0 if the element is not).
- MMIXDME
- .fil: no .odb Field: yes .odb History: yes
Mode mix ratio during damage evolution. It has a value of
before initiation of damage.
- MMIXDMI
- .fil: no .odb Field: yes .odb History: yes
Mode mix ratio at damage initiation. It has a value of
before initiation of damage.
Eulerian elements
- EVF
- .fil: no .odb Field: yes .odb History: yes
Eulerian volume fraction. Output includes volume fraction data for each
material defined in the Eulerian section, plus the volume fraction of void.
- DENSITYVAVG
- .fil: no .odb Field: yes .odb History: no
Density, computed as a volume fraction weighted average of all materials in
the element.
- MISESVAVG
- .fil: no .odb Field: yes .odb History: no
Mises stress, computed as a volume fraction weighted average of all
materials in the element.
- PEVAVG
- .fil: no .odb Field: yes .odb History: no
Plastic strain components, computed as a volume fraction weighted average of
all materials in the element.
- PEEQVAVG
- .fil: no .odb Field: yes .odb History: no
Equivalent plastic strain, computed as a volume fraction weighted average of
all materials in the element.
- PRESSVAVG
- .fil: no .odb Field: yes .odb History: no
Equivalent pressure stress, computed as a volume fraction weighted average
of all materials in the element.
- SVAVG
- .fil: no .odb Field: yes .odb History: no
Stress components, computed as a volume fraction weighted average of all
materials in the element.
- TEMPMAVG
- .fil: no .odb Field: yes .odb History: no
Temperature, computed as a mass fraction weighted average of all materials
in the element.
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