Beam Section Profile

The Beam Section profile commands are used to create profiles. A profile definition specifies the properties of a beam that are related to its cross-section geometry. When you define a beam section, you must include a reference to a profile in the section definition.

Create beam section profiles

In Mdb

class BeamSectionProfileModel(
name,
description='',
stefanBoltzmann=None,
absoluteZero=None,
waveFormulation=NOT_SET,
modelType=STANDARD_EXPLICIT,
universalGas=None,
copyConstraints=1,
copyConnectors=1,
copyInteractions=1,
)[source]

Bases: ModelBase

Abaqus creates a Model object named Model-1 when a session is started.

Note

This object can be accessed by:

mdb.models[name]

Public Data Attributes:

Inherited from ModelBase

name

A String specifying the repository key.

stefanBoltzmann

None or a Float specifying the Stefan-Boltzmann constant.

absoluteZero

None or a Float specifying the absolute zero constant.

waveFormulation

A SymbolicConstant specifying the type of incident wave formulation to be used in acoustic problems.

universalGas

None or a Float specifying the universal gas constant.

noPartsInputFile

A Boolean specifying whether an input file should be written without parts and assemblies.

endRestartStep

A Boolean specifying that the step specified by restartStep should be terminated at the increment specified by restartIncrement.

shellToSolid

A Boolean specifying that a shell global model drives a solid submodel.

lastChangedCount

A Float specifying the time stamp that indicates when the model was last changed.

description

A String specifying the purpose and contents of the Model object.

restartJob

A String specifying the name of the job that generated the restart data.

restartStep

A String specifying the name of the step where the restart analysis will start.

globalJob

A String specifying the name of the job that generated the results for the global model.

copyConstraints

A boolean specifying the status of constraints created in a model, in the model which instances this model.

copyConnectors

A boolean specifying the status of connectors created in a model, in the model which instances this model.

copyInteractions

A boolean specifying the status of interactions created in a model, in the model which instances this model.

keywordBlock

A KeywordBlock object.

amplitudes

A repository of Amplitude objects.

profiles

A repository of Profile objects.

boundaryConditions

A repository of BoundaryCondition objects.

constraints

A repository of ConstrainedSketchConstraint objects.

analyticalFields

A repository of AnalyticalField objects.

discreteFields

A repository of DiscreteField objects.

predefinedFields

A repository of PredefinedField objects.

interactions

A repository of Interaction objects.

interactionProperties

A repository of InteractionProperty objects.

contactControls

A repository of ContactControl objects.

contactInitializations

A repository of ContactInitialization objects.

contactStabilizations

A repository of ContactStabilization objects.

linkedInstances

A tuple of tuples of Strings specifying the linked child PartInstance name in the current model to the corresponding parent PartInstance name in a different model.

linkedParts

A tuple of tuples of Strings specifying the linked child Part name in the current model to the corresponding parent Part name in a different model.

loads

A repository of Load objects.

materials

A repository of Material objects.

calibrations

A repository of Calibration objects.

sections

A repository of Section objects.

remeshingRules

A repository of RemeshingRule objects.

sketches

A repository of ConstrainedSketch objects.

parts

A repository of Part objects.

steps

A repository of Step objects.

featureOptions

A FeatureOptions object.

adaptiveMeshConstraints

A repository of AdaptiveMeshConstraint objects.

adaptiveMeshControls

A repository of AdaptiveMeshControl objects.

timePoints

A repository of TimePoint objects.

filters

A repository of Filter objects.

integratedOutputSections

A repository of IntegratedOutputSection objects.

fieldOutputRequests

A repository of FieldOutputRequest objects.

historyOutputRequests

A repository of HistoryOutputRequest objects.

optimizationTasks

A repository of OptimizationTask objects.

tableCollections

A repository of TableCollection objects.

eventSeriesTypes

A repository of EventSeriesType objects.

eventSeriesDatas

A repository of EventSeriesData objects.

restartIncrement

An Int specifying the increment, interval, iteration or cycle where the restart analysis will start.

rootAssembly

An Assembly object.

Public Methods:

beamProfilesFromOdb(fileName)

This method creates Profile objects by reading an output database.

ArbitraryProfile(name, table)

This method creates a ArbitraryProfile object.

BoxProfile(name, a, b, uniformThickness, t1)

This method creates a BoxProfile object.

ChannelProfile(name, l, h, b1, b2, t1, t2, t3, o)

This method creates a ChannelProfile object.

CircularProfile(name, r)

This method creates a CircularProfile object.

GeneralizedProfile(name, area, i11, i12, ...)

This method creates a GeneralizedProfile object.

HatProfile(name, l, h, b, b1, b2, t1, t2, t3)

This method creates a HatProfile object.

HexagonalProfile(name, r, t)

This method creates a HexagonalProfile object.

IProfile(name, l, h, b1, b2, t1, t2, t3)

This method creates an IProfile object.

LProfile(name, a, b, t1, t2)

This method creates a LProfile object.

PipeProfile(name, r, t)

This method creates a PipeProfile object.

RectangularProfile(name, a, b)

This method creates a RectangularProfile object.

TProfile(name, b, h, l, tf, tw)

This method creates a TProfile object.

TrapezoidalProfile(name, a, b, c, d)

This method creates a TrapezoidalProfile object.

Inherited from ModelBase

__init__(name[, description, ...])

This method creates a Model object.

ModelFromInputFile(name, inputFileName)

This method creates a Model object by reading the keywords in an input file and creating the corresponding Abaqus/CAE objects.

ModelFromOdbFile(name, odbFileName)

This method creates a Model object by reading an output database and creating any corresponding Abaqus/CAE objects.

ModelFromNastranFile(modelName, inputFileName)

This method creates a Model object by reading the keywords in a Nastran bulk data file or Nastran input file and creating any corresponding Abaqus/CAE objects.

setValues([description, noPartsInputFile, ...])

This method modifies the Model object.


Member Details:

ArbitraryProfile(name, table)[source]

This method creates a ArbitraryProfile object.

Note

This function can be accessed by:

mdb.models[name].ArbitraryProfile
session.odbs[name].ArbitraryProfile
Parameters:
name

A String specifying the repository key.

table

A sequence of sequences of Floats specifying the items described below.

Returns:

An ArbitraryProfile object.

Return type:

ArbitraryProfile

Raises:

RangeError

BoxProfile(name, a, b, uniformThickness, t1, t2=0, t3=0, t4=0)[source]

This method creates a BoxProfile object.

Note

This function can be accessed by:

mdb.models[name].BoxProfile
session.odbs[name].BoxProfile
Parameters:
name

A String specifying the repository key.

a

A Float specifying the a dimension of the box profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b

A Float specifying the b dimension of the box profile.

uniformThickness

A Boolean specifying whether the thickness is uniform.

t1

A Float specifying the uniform wall thickness if uniformThickness = ON, and the wall thickness of the first segment if uniformThickness = OFF.

t2=0

A Float specifying the wall thickness of the second segment. t2 is required only when uniformThickness = OFF. The default value is 0.0.

t3=0

A Float specifying the wall thickness of the third segment. t3 is required only when uniformThickness = OFF. The default value is 0.0.

t4=0

A Float specifying the wall thickness of the fourth segment. t4 is required only when uniformThickness = OFF. The default value is 0.0.

Returns:

A BoxProfile object.

Return type:

BoxProfile

Raises:

RangeError

ChannelProfile(name, l, h, b1, b2, t1, t2, t3, o)[source]

This method creates a ChannelProfile object.

Note

This function can be accessed by:

mdb.models[name].ChannelProfile
session.odbs[name].ChannelProfile

Added in version 2024: The ChannelProfile method was added.

Parameters:
name

A String specifying the repository key.

l

A positive Float specifying the l dimension (offset of 1–axis from the bottom flange surface) of the Channel profile. For more information, see Beam Cross-Section Library.

h

A positive Float specifying the h dimension (height) of the Channel profile.

b1

A positive Float specifying the b1 dimension (lower flange width) of the Channel profile.

b2

A positive Float specifying the b2 dimension (upper flange width) of the Channel profile.

t1

A positive Float specifying the t1 dimension (lower flange thickness) of the Channel profile.

t2

A positive Float specifying the t2 dimension (upper flange thickness) of the Channel profile.

t3

A positive Float specifying the t3 dimension (web thickness) of the Channel profile.

o

A positive Float specifying the o dimension (offset of 2–axis from the left edge of web) of the Channel profile.

Returns:

An ChannelProfile object.

Return type:

ChannelProfile

Raises:

RangeError

CircularProfile(name, r)[source]

This method creates a CircularProfile object.

Note

This function can be accessed by:

mdb.models[name].CircularProfile
session.odbs[name].CircularProfile
Parameters:
name

A String specifying the repository key.

r

A positive Float specifying the r dimension (outer radius) of the circular profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

Returns:

A CircularProfile object.

Return type:

CircularProfile

Raises:

RangeError

GeneralizedProfile(name, area, i11, i12, i22, j, gammaO, gammaW)[source]

This method creates a GeneralizedProfile object.

Note

This function can be accessed by:

mdb.models[name].GeneralizedProfile
session.odbs[name].GeneralizedProfile
Parameters:
name

A String specifying the repository key.

area

A Float specifying the cross-sectional area for the profile.

i11

A Float specifying the moment of inertia for bending about the 1-axis, I11I11.

i12

A Float specifying the moment of inertia for cross bending, I12I12.

i22

A Float specifying the moment of inertia for bending about the 2-axis, I22I22.

j

A Float specifying the torsional constant, JJ.

gammaO

A Float specifying the sectorial moment, Γ0Γ0.

gammaW

A Float specifying the warping constant, ΓWΓW.

Returns:

A GeneralizedProfile object.

Return type:

GeneralizedProfile

Raises:

RangeError

HatProfile(name, l, h, b, b1, b2, t1, t2, t3)[source]

This method creates a HatProfile object.

Note

This function can be accessed by:

mdb.models[name].HatProfile
session.odbs[name].HatProfile

Added in version 2024: The HatProfile method was added.

Parameters:
name

A String specifying the repository key.

l

A positive Float specifying the l dimension (offset of 1–axis from the bottom flange surface) of the Hat profile. For more information, see Beam Cross-Section Library.

h

A positive Float specifying the h dimension (height) of the Hat profile.

b

A positive Float specifying the b dimension (bottom width) of the Hat profile.

b1

A positive Float specifying the b1 dimension (upper flange width) of the Hat profile.

b2

A positive Float specifying the b2 dimension (lower flange width) of the Hat profile.

t1

A positive Float specifying the t1 dimension (upper flange thickness) of the Hat profile.

t2

A positive Float specifying the t2 dimension (lower flange thickness) of the Hat profile.

t3

A positive Float specifying the t3 dimension (web thickness) of the Hat profile.

Returns:

An HatProfile object.

Return type:

HatProfile

Raises:

RangeError

HexagonalProfile(name, r, t)[source]

This method creates a HexagonalProfile object.

Note

This function can be accessed by:

mdb.models[name].HexagonalProfile
session.odbs[name].HexagonalProfile
Parameters:
name

A String specifying the repository key.

r

A positive Float specifying the r dimension (outer radius) of the hexagonal profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

t

A positive Float specifying the t dimension (wall thickness) of the hexagonal profile, t < (sqrt(3)/2)r.

Returns:

A HexagonalProfile object.

Return type:

HexagonalProfile

Raises:

RangeError

IProfile(name, l, h, b1, b2, t1, t2, t3)[source]

This method creates an IProfile object.

Note

This function can be accessed by:

mdb.models[name].IProfile
session.odbs[name].IProfile
Parameters:
name

A String specifying the repository key.

l

A Float specifying the l dimension (offset of 1-axis from the bottom flange surface) of the I profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

h

A Float specifying the h dimension (height) of the I profile.

b1

A Float specifying the b1 dimension (bottom flange width) of the I profile.

b2

A Float specifying the b2 dimension (top flange width) of the I profile.

t1

A Float specifying the t1 dimension (bottom flange thickness) of the I profile.

t2

A Float specifying the t2 dimension (top flange thickness) of the I profile.

t3

A Float specifying the t3 dimension (web thickness) of the I profile.

Returns:

An IProfile object.

Return type:

IProfile

Raises:

RangeError

LProfile(name, a, b, t1, t2)[source]

This method creates a LProfile object.

Note

This function can be accessed by:

mdb.models[name].LProfile
session.odbs[name].LProfile
Parameters:
name

A String specifying the repository key.

a

A positive Float specifying the a dimension (flange length) of the L profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b

A positive Float specifying the b dimension (flange length) of the L profile.

t1

A positive Float specifying the t1 dimension (flange thickness) of the L profile (t1 < b).

t2

A positive Float specifying the t2 dimension (flange thickness) of the L profile (t2< a).

Returns:

A LProfile object.

Return type:

LProfile

Raises:

RangeError

PipeProfile(name, r, t)[source]

This method creates a PipeProfile object.

Note

This function can be accessed by:

mdb.models[name].PipeProfile
session.odbs[name].PipeProfile
Parameters:
name

A String specifying the repository key.

r

A Float specifying the outer radius of the pipe. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

t

A Float specifying the wall thickness of the pipe.

Returns:

A PipeProfile object.

Return type:

PipeProfile

Raises:

RangeError

RectangularProfile(name, a, b)[source]

This method creates a RectangularProfile object.

Note

This function can be accessed by:

mdb.models[name].RectangularProfile
session.odbs[name].RectangularProfile
Parameters:
name

A String specifying the repository key.

a

A positive Float specifying the a dimension of the rectangular profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b

A positive Float specifying the b dimension of the rectangular profile.

Returns:

A RectangularProfile object.

Return type:

RectangularProfile

Raises:

RangeError

TProfile(name, b, h, l, tf, tw)[source]

This method creates a TProfile object.

Note

This function can be accessed by:

mdb.models[name].TProfile
session.odbs[name].TProfile
Parameters:
name

A String specifying the repository key.

b

A positive Float specifying the b dimension (flange width) of the T profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

h

A positive Float specifying the h dimension (height) of the T profile.

l

A positive Float specifying the l dimension (offset of 1-axis from the edge of web) of the T profile.

tf

A positive Float specifying the tf dimension (flange thickness) of the T profile (tf < h).

tw

A positive Float specifying the tw dimension (web thickness) of the T profile (tw< b).

Returns:

A TProfile object.

Return type:

TProfile

Raises:

RangeError

TrapezoidalProfile(name, a, b, c, d)[source]

This method creates a TrapezoidalProfile object.

Note

This function can be accessed by:

mdb.models[name].TrapezoidalProfile
session.odbs[name].TrapezoidalProfile
Parameters:
name

A String specifying the repository key.

a

A positive Float specifying the a dimension of the Trapezoidal profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b

A positive Float specifying the b dimension of the Trapezoidal profile.

c

A positive Float specifying the c dimension of the Trapezoidal profile.

d

A Float specifying the d dimension of the Trapezoidal profile.

Returns:

A TrapezoidalProfile object.

Return type:

TrapezoidalProfile

Raises:

RangeError

beamProfilesFromOdb(fileName)[source]

This method creates Profile objects by reading an output database. The new profiles are placed in the profiles repository.

Note

This function can be accessed by:

mdb.models[name].beamProfilesFromOdb
Parameters:
fileName

A String specifying the name of the output database file (including the .odb extension) to be read. The String can also be the full path to the output database file if it is located in another directory.

Returns:

A list of Profile objects.

Return type:

list[Profile]

In Odb

class BeamSectionProfileOdb(name, analysisTitle='', description='', path='')[source]

Bases: OdbBase

The Odb object is the in-memory representation of an output database (ODB) file.

Note

This object can be accessed by:

import odbAccess
session.odbs[name]

Public Data Attributes:

Inherited from OdbBase

isReadOnly

A Boolean specifying whether the output database was opened with read-only access.

amplitudes

A repository of Amplitude objects.

filters

A repository of Filter objects.

rootAssembly

An OdbAssembly object.

jobData

A JobData object.

parts

A repository of OdbPart objects.

materials

A repository of Material objects.

steps

A repository of OdbStep objects.

sections

A repository of Section objects.

sectionCategories

A repository of SectionCategory objects.

sectorDefinition

A SectorDefinition object.

userData

A UserData object.

customData

A RepositorySupport object.

profiles

A repository of Profile objects.

Public Methods:

ArbitraryProfile(name, table)

This method creates a ArbitraryProfile object.

BoxProfile(name, a, b, uniformThickness, t1)

This method creates a BoxProfile object.

ChannelProfile(name, l, h, b1, b2, t1, t2, t3, o)

This method creates a ChannelProfile object.

CircularProfile(name, r)

This method creates a CircularProfile object.

GeneralizedProfile(name, area, i11, i12, ...)

This method creates a GeneralizedProfile object.

HatProfile(name, l, h, b, b1, b2, t1, t2, t3)

This method creates a HatProfile object.

HexagonalProfile(name, r, t)

This method creates a HexagonalProfile object.

IProfile(name, l, h, b1, b2, t1, t2, t3)

This method creates an IProfile object.

LProfile(name, a, b, t1, t2)

This method creates a LProfile object.

PipeProfile(name, r, t)

This method creates a PipeProfile object.

RectangularProfile(name, a, b)

This method creates a RectangularProfile object.

TProfile(name, b, h, l, tf, tw)

This method creates a TProfile object.

TrapezoidalProfile(name, a, b, c, d)

This method creates a TrapezoidalProfile object.

Inherited from OdbBase

__init__(name[, analysisTitle, description, ...])

This method creates a new Odb object.

close()

This method closes an output database.

getFrame(frameValue[, match])

This method returns the frame at the specified time, frequency, or mode.

save()

This method saves output to an output database (.odb ) file.

update()

This method is used to update an Odb object in memory while an Abaqus analysis writes data to the associated output database.


Member Details:

ArbitraryProfile(name, table)[source]

This method creates a ArbitraryProfile object.

Note

This function can be accessed by:

mdb.models[name].ArbitraryProfile
session.odbs[name].ArbitraryProfile
Parameters:
name

A String specifying the repository key.

table

A sequence of sequences of Floats specifying the items described below.

Returns:

An ArbitraryProfile object.

Return type:

ArbitraryProfile

Raises:

RangeError

BoxProfile(name, a, b, uniformThickness, t1, t2=0, t3=0, t4=0)[source]

This method creates a BoxProfile object.

Note

This function can be accessed by:

mdb.models[name].BoxProfile
session.odbs[name].BoxProfile
Parameters:
name

A String specifying the repository key.

a

A Float specifying the a dimension of the box profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b

A Float specifying the b dimension of the box profile.

uniformThickness

A Boolean specifying whether the thickness is uniform.

t1

A Float specifying the uniform wall thickness if uniformThickness = ON, and the wall thickness of the first segment if uniformThickness = OFF.

t2=0

A Float specifying the wall thickness of the second segment. t2 is required only when uniformThickness = OFF. The default value is 0.0.

t3=0

A Float specifying the wall thickness of the third segment. t3 is required only when uniformThickness = OFF. The default value is 0.0.

t4=0

A Float specifying the wall thickness of the fourth segment. t4 is required only when uniformThickness = OFF. The default value is 0.0.

Returns:

A BoxProfile object.

Return type:

BoxProfile

Raises:

RangeError

ChannelProfile(name, l, h, b1, b2, t1, t2, t3, o)[source]

This method creates a ChannelProfile object.

Note

This function can be accessed by:

mdb.models[name].ChannelProfile
session.odbs[name].ChannelProfile

Added in version 2024: The ChannelProfile method was added.

Parameters:
name

A String specifying the repository key.

l

A positive Float specifying the l dimension (offset of 1–axis from the bottom flange surface) of the Channel profile. For more information, see Beam Cross-Section Library.

h

A positive Float specifying the h dimension (height) of the Channel profile.

b1

A positive Float specifying the b1 dimension (lower flange width) of the Channel profile.

b2

A positive Float specifying the b2 dimension (upper flange width) of the Channel profile.

t1

A positive Float specifying the t1 dimension (lower flange thickness) of the Channel profile.

t2

A positive Float specifying the t2 dimension (upper flange thickness) of the Channel profile.

t3

A positive Float specifying the t3 dimension (web thickness) of the Channel profile.

o

A positive Float specifying the o dimension (offset of 2–axis from the left edge of web) of the Channel profile.

Returns:

An ChannelProfile object.

Return type:

ChannelProfile

Raises:

RangeError

CircularProfile(name, r)[source]

This method creates a CircularProfile object.

Note

This function can be accessed by:

mdb.models[name].CircularProfile
session.odbs[name].CircularProfile
Parameters:
name

A String specifying the repository key.

r

A positive Float specifying the r dimension (outer radius) of the circular profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

Returns:

A CircularProfile object.

Return type:

CircularProfile

Raises:

RangeError

GeneralizedProfile(name, area, i11, i12, i22, j, gammaO, gammaW)[source]

This method creates a GeneralizedProfile object.

Note

This function can be accessed by:

mdb.models[name].GeneralizedProfile
session.odbs[name].GeneralizedProfile
Parameters:
name

A String specifying the repository key.

area

A Float specifying the cross-sectional area for the profile.

i11

A Float specifying the moment of inertia for bending about the 1-axis, I11I11.

i12

A Float specifying the moment of inertia for cross bending, I12I12.

i22

A Float specifying the moment of inertia for bending about the 2-axis, I22I22.

j

A Float specifying the torsional constant, JJ.

gammaO

A Float specifying the sectorial moment, Γ0Γ0.

gammaW

A Float specifying the warping constant, ΓWΓW.

Returns:

A GeneralizedProfile object.

Return type:

GeneralizedProfile

Raises:

RangeError

HatProfile(name, l, h, b, b1, b2, t1, t2, t3)[source]

This method creates a HatProfile object.

Note

This function can be accessed by:

mdb.models[name].HatProfile
session.odbs[name].HatProfile

Added in version 2024: The HatProfile method was added.

Parameters:
name

A String specifying the repository key.

l

A positive Float specifying the l dimension (offset of 1–axis from the bottom flange surface) of the Hat profile. For more information, see Beam Cross-Section Library.

h

A positive Float specifying the h dimension (height) of the Hat profile.

b

A positive Float specifying the b dimension (bottom width) of the Hat profile.

b1

A positive Float specifying the b1 dimension (upper flange width) of the Hat profile.

b2

A positive Float specifying the b2 dimension (lower flange width) of the Hat profile.

t1

A positive Float specifying the t1 dimension (upper flange thickness) of the Hat profile.

t2

A positive Float specifying the t2 dimension (lower flange thickness) of the Hat profile.

t3

A positive Float specifying the t3 dimension (web thickness) of the Hat profile.

Returns:

An HatProfile object.

Return type:

HatProfile

Raises:

RangeError

HexagonalProfile(name, r, t)[source]

This method creates a HexagonalProfile object.

Note

This function can be accessed by:

mdb.models[name].HexagonalProfile
session.odbs[name].HexagonalProfile
Parameters:
name

A String specifying the repository key.

r

A positive Float specifying the r dimension (outer radius) of the hexagonal profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

t

A positive Float specifying the t dimension (wall thickness) of the hexagonal profile, t < (sqrt(3)/2)r.

Returns:

A HexagonalProfile object.

Return type:

HexagonalProfile

Raises:

RangeError

IProfile(name, l, h, b1, b2, t1, t2, t3)[source]

This method creates an IProfile object.

Note

This function can be accessed by:

mdb.models[name].IProfile
session.odbs[name].IProfile
Parameters:
name

A String specifying the repository key.

l

A Float specifying the l dimension (offset of 1-axis from the bottom flange surface) of the I profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

h

A Float specifying the h dimension (height) of the I profile.

b1

A Float specifying the b1 dimension (bottom flange width) of the I profile.

b2

A Float specifying the b2 dimension (top flange width) of the I profile.

t1

A Float specifying the t1 dimension (bottom flange thickness) of the I profile.

t2

A Float specifying the t2 dimension (top flange thickness) of the I profile.

t3

A Float specifying the t3 dimension (web thickness) of the I profile.

Returns:

An IProfile object.

Return type:

IProfile

Raises:

RangeError

LProfile(name, a, b, t1, t2)[source]

This method creates a LProfile object.

Note

This function can be accessed by:

mdb.models[name].LProfile
session.odbs[name].LProfile
Parameters:
name

A String specifying the repository key.

a

A positive Float specifying the a dimension (flange length) of the L profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b

A positive Float specifying the b dimension (flange length) of the L profile.

t1

A positive Float specifying the t1 dimension (flange thickness) of the L profile (t1 < b).

t2

A positive Float specifying the t2 dimension (flange thickness) of the L profile (t2< a).

Returns:

A LProfile object.

Return type:

LProfile

Raises:

RangeError

PipeProfile(name, r, t)[source]

This method creates a PipeProfile object.

Note

This function can be accessed by:

mdb.models[name].PipeProfile
session.odbs[name].PipeProfile
Parameters:
name

A String specifying the repository key.

r

A Float specifying the outer radius of the pipe. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

t

A Float specifying the wall thickness of the pipe.

Returns:

A PipeProfile object.

Return type:

PipeProfile

Raises:

RangeError

RectangularProfile(name, a, b)[source]

This method creates a RectangularProfile object.

Note

This function can be accessed by:

mdb.models[name].RectangularProfile
session.odbs[name].RectangularProfile
Parameters:
name

A String specifying the repository key.

a

A positive Float specifying the a dimension of the rectangular profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b

A positive Float specifying the b dimension of the rectangular profile.

Returns:

A RectangularProfile object.

Return type:

RectangularProfile

Raises:

RangeError

TProfile(name, b, h, l, tf, tw)[source]

This method creates a TProfile object.

Note

This function can be accessed by:

mdb.models[name].TProfile
session.odbs[name].TProfile
Parameters:
name

A String specifying the repository key.

b

A positive Float specifying the b dimension (flange width) of the T profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

h

A positive Float specifying the h dimension (height) of the T profile.

l

A positive Float specifying the l dimension (offset of 1-axis from the edge of web) of the T profile.

tf

A positive Float specifying the tf dimension (flange thickness) of the T profile (tf < h).

tw

A positive Float specifying the tw dimension (web thickness) of the T profile (tw< b).

Returns:

A TProfile object.

Return type:

TProfile

Raises:

RangeError

TrapezoidalProfile(name, a, b, c, d)[source]

This method creates a TrapezoidalProfile object.

Note

This function can be accessed by:

mdb.models[name].TrapezoidalProfile
session.odbs[name].TrapezoidalProfile
Parameters:
name

A String specifying the repository key.

a

A positive Float specifying the a dimension of the Trapezoidal profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b

A positive Float specifying the b dimension of the Trapezoidal profile.

c

A positive Float specifying the c dimension of the Trapezoidal profile.

d

A Float specifying the d dimension of the Trapezoidal profile.

Returns:

A TrapezoidalProfile object.

Return type:

TrapezoidalProfile

Raises:

RangeError

Other Classes

class ArbitraryProfile(name, table)[source]

Bases: Profile

The ArbitraryProfile object defines the properties of an arbitrary profile. The ArbitraryProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The table data for this object are: The first sequence in the table specifies the following:

  • 1-coordinate of the first point defining the profile.

  • 2-coordinate of the first point defining the profile.

All other sequences in the table specify the following:

  • 1-coordinate of the next point defining the profile.

  • 2-coordinate of the next point defining the profile.

  • The thickness of the segment ending at that point.

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

setValues(*args, **kwargs)[source]

This method modifies the ArbitraryProfile object.

Raises:

RangeError

table : --is-rst--:py:class:`tuple`\ \[:py:class:`tuple`\ \[:py:class:`float`, :py:data:`...<Ellipsis>`], :py:data:`...<Ellipsis>`] = ()[source]

A sequence of sequences of Floats specifying the items described below.

class Profile[source]

Bases: object

The Profile object defines the geometrical properties of a beam cross-section. Profile is an abstract base type.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

Member Details:

beamProfilesFromOdb(fileName)[source]

This method creates Profile objects by reading an output database. The new profiles are placed in the profiles repository.

Note

This function can be accessed by:

mdb.models[name].beamProfilesFromOdb
Parameters:
fileName

A String specifying the name of the output database file (including the .odb extension) to be read. The String can also be the full path to the output database file if it is located in another directory.

Returns:

A list of Profile objects.

Return type:

list[Profile]

name : --is-rst--:py:class:`str` = ''[source]

A String specifying the repository key.

class BoxProfile(name, a, b, uniformThickness, t1, t2=0, t3=0, t4=0)[source]

Bases: Profile

The BoxProfile object defines the properties of a box profile. The BoxProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

a : --is-rst--:py:class:`float`[source]

A Float specifying the a dimension of the box profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b : --is-rst--:py:class:`float`[source]

A Float specifying the b dimension of the box profile.

setValues(t2=0, t3=0, t4=0)[source]

This method modifies the BoxProfile object.

Parameters:
t2=0

A Float specifying the wall thickness of the second segment. t2 is required only when uniformThickness = OFF. The default value is 0.0.

t3=0

A Float specifying the wall thickness of the third segment. t3 is required only when uniformThickness = OFF. The default value is 0.0.

t4=0

A Float specifying the wall thickness of the fourth segment. t4 is required only when uniformThickness = OFF. The default value is 0.0.

Raises:

RangeError

t1 : --is-rst--:py:class:`float`[source]

A Float specifying the uniform wall thickness if uniformThickness = ON, and the wall thickness of the first segment if uniformThickness = OFF.

t2 : --is-rst--:py:class:`float` = 0[source]

A Float specifying the wall thickness of the second segment. t2 is required only when uniformThickness = OFF. The default value is 0.0.

t3 : --is-rst--:py:class:`float` = 0[source]

A Float specifying the wall thickness of the third segment. t3 is required only when uniformThickness = OFF. The default value is 0.0.

t4 : --is-rst--:py:class:`float` = 0[source]

A Float specifying the wall thickness of the fourth segment. t4 is required only when uniformThickness = OFF. The default value is 0.0.

uniformThickness : --is-rst--:py:data:`~typing.Union`\ \[:py:class:`~abaqus.UtilityAndView.AbaqusBoolean.AbaqusBoolean`, :py:class:`bool`][source]

A Boolean specifying whether the thickness is uniform.

class ChannelProfile(name, l, h, b1, b2, t1, t2, t3, o)[source]

Bases: Profile

The ChannelProfile object defines the properties of a channel profile. The ChannelProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Added in version 2024: The ChannelProfile class was added.

Member Details:

b1 : --is-rst--:py:class:`float`[source]

A positive Float specifying the b1 dimension (lower flange width) of the Channel profile.

b2 : --is-rst--:py:class:`float`[source]

A positive Float specifying the b2 dimension (upper flange width) of the Channel profile.

h : --is-rst--:py:class:`float`[source]

A positive Float specifying the h dimension (height) of the Channel profile.

l : --is-rst--:py:class:`float`[source]

A positive Float specifying the l dimension (offset of 1–axis from the bottom flange surface) of the Channel profile. For more information, see Beam Cross-Section Library.

o : --is-rst--:py:class:`float`[source]

A positive Float specifying the o dimension (offset of 2–axis from the left edge of web) of the Channel profile.

setValues(*args, **kwargs)[source]

This method modifies the ChannelProfile object.

Raises:

RangeError

t1 : --is-rst--:py:class:`float`[source]

A positive Float specifying the t1 dimension (lower flange thickness) of the Channel profile.

t2 : --is-rst--:py:class:`float`[source]

A positive Float specifying the t2 dimension (upper flange thickness) of the Channel profile.

t3 : --is-rst--:py:class:`float`[source]

A positive Float specifying the t3 dimension (web thickness) of the Channel profile.

class CircularProfile(name, r)[source]

Bases: Profile

The CircularProfile object defines the properties of a solid circular profile. The CircularProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

r : --is-rst--:py:class:`float`[source]

A positive Float specifying the r dimension (outer radius) of the circular profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

setValues(*args, **kwargs)[source]

This method modifies the CircularProfile object.

Raises:

RangeError

class GeneralizedProfile(name, area, i11, i12, i22, j, gammaO, gammaW)[source]

Bases: Profile

The GeneralizedProfile object defines the properties of a profile via its area, moment of inertia, etc. The GeneralizedProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM GENERAL SECTION

Member Details:

area : --is-rst--:py:class:`float`[source]

A Float specifying the cross-sectional area for the profile.

gammaO : --is-rst--:py:class:`float`[source]

A Float specifying the sectorial moment, Γ0Γ0.

gammaW : --is-rst--:py:class:`float`[source]

A Float specifying the warping constant, ΓWΓW.

i11 : --is-rst--:py:class:`float`[source]

A Float specifying the moment of inertia for bending about the 1-axis, I11I11.

i12 : --is-rst--:py:class:`float`[source]

A Float specifying the moment of inertia for cross bending, I12I12.

i22 : --is-rst--:py:class:`float`[source]

A Float specifying the moment of inertia for bending about the 2-axis, I22I22.

j : --is-rst--:py:class:`float`[source]

A Float specifying the torsional constant, JJ.

setValues(*args, **kwargs)[source]

This method modifies the GeneralizedProfile object.

Raises:

RangeError

class HatProfile(name, l, h, b, b1, b2, t1, t2, t3)[source]

Bases: Profile

The HatProfile object defines the properties of a hat profile. The HatProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

b : --is-rst--:py:class:`float`[source]

A positive Float specifying the b dimension (bottom width) of the Hat profile.

b1 : --is-rst--:py:class:`float`[source]

A positive Float specifying the b1 dimension (upper flange width) of the Hat profile.

b2 : --is-rst--:py:class:`float`[source]

A positive Float specifying the b2 dimension (lower flange width) of the Hat profile.

h : --is-rst--:py:class:`float`[source]

A positive Float specifying the h dimension (height) of the Hat profile.

l : --is-rst--:py:class:`float`[source]

A positive Float specifying the l dimension (offset of 1–axis from the bottom flange surface) of the Hat profile. For more information, see Beam Cross-Section Library.

setValues(*args, **kwargs)[source]

This method modifies the HatProfile object.

Raises:

RangeError

t1 : --is-rst--:py:class:`float`[source]

A positive Float specifying the t1 dimension (upper flange thickness) of the Hat profile.

t2 : --is-rst--:py:class:`float`[source]

A positive Float specifying the t2 dimension (lower flange thickness) of the Hat profile.

t3 : --is-rst--:py:class:`float`[source]

A positive Float specifying the t3 dimension (web thickness) of the Hat profile.

class HexagonalProfile(name, r, t)[source]

Bases: Profile

The HexagonalProfile object defines the properties of a hexagonal profile. The HexagonalProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

r : --is-rst--:py:class:`float`[source]

A positive Float specifying the r dimension (outer radius) of the hexagonal profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

setValues(*args, **kwargs)[source]

This method modifies the HexagonalProfile object.

Raises:

RangeError

t : --is-rst--:py:class:`float`[source]

A positive Float specifying the t dimension (wall thickness) of the hexagonal profile, t < (sqrt(3)/2)r.

class IProfile(name, l, h, b1, b2, t1, t2, t3)[source]

Bases: Profile

The IProfile object defines the properties of an I profile. The IProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

b1 : --is-rst--:py:class:`float`[source]

A Float specifying the b1 dimension (bottom flange width) of the I profile.

b2 : --is-rst--:py:class:`float`[source]

A Float specifying the b2 dimension (top flange width) of the I profile.

h : --is-rst--:py:class:`float`[source]

A Float specifying the h dimension (height) of the I profile.

l : --is-rst--:py:class:`float`[source]

A Float specifying the l dimension (offset of 1-axis from the bottom flange surface) of the I profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

setValues(*args, **kwargs)[source]

This method modifies the IProfile object.

Raises:

RangeError

t1 : --is-rst--:py:class:`float`[source]

A Float specifying the t1 dimension (bottom flange thickness) of the I profile.

t2 : --is-rst--:py:class:`float`[source]

A Float specifying the t2 dimension (top flange thickness) of the I profile.

t3 : --is-rst--:py:class:`float`[source]

A Float specifying the t3 dimension (web thickness) of the I profile.

class LProfile(name, a, b, t1, t2)[source]

Bases: Profile

The LProfile object defines the properties of a L profile. The LProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

a : --is-rst--:py:class:`float`[source]

A positive Float specifying the a dimension (flange length) of the L profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b : --is-rst--:py:class:`float`[source]

A positive Float specifying the b dimension (flange length) of the L profile.

setValues(*args, **kwargs)[source]

This method modifies the LProfile object.

Raises:

RangeError

t1 : --is-rst--:py:class:`float`[source]

A positive Float specifying the t1 dimension (flange thickness) of the L profile (t1 < b).

t2 : --is-rst--:py:class:`float`[source]

A positive Float specifying the t2 dimension (flange thickness) of the L profile (t2< a).

class PipeProfile(name, r, t)[source]

Bases: Profile

The PipeProfile object defines the properties of a circular pipe profile. The PipeProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

r : --is-rst--:py:class:`float`[source]

A Float specifying the outer radius of the pipe. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

setValues(*args, **kwargs)[source]

This method modifies the PipeProfile object.

Raises:

RangeError

t : --is-rst--:py:class:`float`[source]

A Float specifying the wall thickness of the pipe.

class RectangularProfile(name, a, b)[source]

Bases: Profile

The RectangularProfile object defines the properties of a solid rectangular profile. The RectangularProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

a : --is-rst--:py:class:`float`[source]

A positive Float specifying the a dimension of the rectangular profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b : --is-rst--:py:class:`float`[source]

A positive Float specifying the b dimension of the rectangular profile.

setValues(*args, **kwargs)[source]

This method modifies the RectangularProfile object.

Raises:

RangeError

class TProfile(name, b, h, l, tf, tw)[source]

Bases: Profile

The TProfile object defines the properties of a T profile. The TProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

b : --is-rst--:py:class:`float`[source]

A positive Float specifying the b dimension (flange width) of the T profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

h : --is-rst--:py:class:`float`[source]

A positive Float specifying the h dimension (height) of the T profile.

l : --is-rst--:py:class:`float`[source]

A positive Float specifying the l dimension (offset of 1-axis from the edge of web) of the T profile.

setValues(*args, **kwargs)[source]

This method modifies the TProfile object.

Raises:

RangeError

tf : --is-rst--:py:class:`float`[source]

A positive Float specifying the tf dimension (flange thickness) of the T profile (tf < h).

tw : --is-rst--:py:class:`float`[source]

A positive Float specifying the tw dimension (web thickness) of the T profile (tw< b).

class TrapezoidalProfile(name, a, b, c, d)[source]

Bases: Profile

The TrapezoidalProfile object defines the properties of a trapezoidal profile. The TrapezoidalProfile object is derived from the Profile object.

Note

This object can be accessed by:

import section
mdb.models[name].profiles[name]
import odbSection
session.odbs[name].profiles[name]

The corresponding analysis keywords are:

  • BEAM SECTION

Member Details:

a : --is-rst--:py:class:`float`[source]

A positive Float specifying the a dimension of the Trapezoidal profile. For more information, see [Beam cross-section library](https://help.3ds.com/2021/English/DSSIMULIA_Established/SIMACAEELMRefMap/simaelm-c-beamcrosssectlib.htm?ContextScope=all).

b : --is-rst--:py:class:`float`[source]

A positive Float specifying the b dimension of the Trapezoidal profile.

c : --is-rst--:py:class:`float`[source]

A positive Float specifying the c dimension of the Trapezoidal profile.

d : --is-rst--:py:class:`float`[source]

A Float specifying the d dimension of the Trapezoidal profile.

setValues(*args, **kwargs)[source]

This method modifies the TrapezoidalProfile object.

Raises:

RangeError