Modeling Commands: Difference between revisions

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{{CommandManualMenu}}
The model or domain in OpenSees is a collection (an aggregation in object-oriented terms) of elements, nodes, single- and multi-point constraints and load patterns. It is the aggregation of these components which define the type of model that is being analyzed. The component classes, are as shown in the figure below:
The model or domain in OpenSees is a collection (an aggregation in object-oriented terms) of elements, nodes, single- and multi-point constraints and load patterns. It is the aggregation of these components which define the type of model that is being analyzed. The component classes, are as shown in the figure below:


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Domain o- LoadPattern
Domain o- LoadPattern
</uml>
</uml>


The following are the modeling commands that have been added to OpenSees interpreter to create these components of the finite element model:   
The following are the modeling commands that have been added to OpenSees interpreter to create these components of the finite element model:   


#[[model command| model]]
*[[model command| model]]
#[[element Command|element]]
*[[element Command|element]]
#[[node command | node]]
*[[node command | node]]
# '''SP_Constraint''' (single-point constraint), which prescribe the movement (typically 0) of a single dof at a node. There are a number of commands for creating single-point coonstraints:
* '''SP_Constraint''' (single-point constraint), which prescribe the movement (typically 0) of a single dof at a node. There are a number of commands for creating single-point coonstraints:
#* [[fix command | fix]]
** [[fix command | fix]]
#* [[fixX command | fixX]]
** [[fixX command | fixX]]
#* [[fixY command | fixY]]
** [[fixY command | fixY]]
#* [[fixZ command | fixZ]]
** [[fixZ command | fixZ]]
# '''MP_Constraint''' (multi-point constraint), which prescribe that the movement of certain dof at one node are defined by the movement of certain dof at another node. There again are a number of commands for defining multi-point constraints.
* '''MP_Constraint''' (multi-point constraint), which prescribe that the movement of certain dof at one node are defined by the movement of certain dof at another node. There again are a number of commands for defining multi-point constraints.
#* [[equalDOF command | equalDOF]]
** [[equalDOF command | equalDOF]]
#* [[rigidDiaphragm command | rigidDiaphragm]]
** [[rigidDiaphragm command | rigidDiaphragm]]
#* [[rigidLink command | rigidLink]]
** [[rigidLink command | rigidLink]]
#[[Time Series Command| timeSeries]]
*[[Time Series Command| timeSeries]]
#[[pattern Command|pattern]]
*[[pattern Command|pattern]]
#[[mass Command | mass]]
 
#[[block Command| block]]
 
#[[region Command| region]]
----
#[[Rayleigh Damping Command|rayleigh]]
----
The following Misc commands are used to generate elements or modify properties of elements or nodes already in the model:
 
*[[mass Command | mass]]
*[[block Command| block]]
**[[block2D Command| block2D]]
**[[block3D Command| block3D]]
*[[region Command| region]]
*[[Rayleigh Damping Command|rayleigh]]
*[[ShallowFoundationGen]]


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In addition to these commands, the typical element in OpenSees has the material nonlinearity and sometimes geometric nonlinearities
The typical element in OpenSees has the material nonlinearity and sometimes geometric nonlinearities
contained in other objects, materials and geometric transformations. Commands have been added to the interpreter to create these objects as well.
contained in other objects, materials and geometric transformations. Commands have been added to the interpreter to create these objects as well:


<uml>
<uml>
package "Element" #DDDDDD
package "Element Classes" #DDDDDD
abstract class Element
abstract class Element
abstract class Material
abstract class Material
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Element o- Material
Element o- Material
Element o- GeometricTransformation
Element o- GeometricTransformation
Material <|-- UniaxialMaterial
Material <|-- UniaxialMaterial
Material <|-- SectionForceDeformation
Material <|-- SectionForceDeformation
Material <|-- NDMaterial
Material <|-- NDMaterial
</uml>
</uml>




#[[uniaxialMaterial Command| uniaxialMaterial]]
#[[uniaxialMaterial Command| uniaxial Material]]
#[[nDMaterial Command| ndMaterial]]
#[[nDMaterial Command| ND Material]]
#[[section Command| section]]
#[[section Command| Section]]
#[[frictionModel Command | friction Model]]
#[[Geometric Transformation Command| geometricTransf]]
#[[Geometric Transformation Command| geometricTransf]]


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Latest revision as of 17:26, 11 February 2011




The model or domain in OpenSees is a collection (an aggregation in object-oriented terms) of elements, nodes, single- and multi-point constraints and load patterns. It is the aggregation of these components which define the type of model that is being analyzed. The component classes, are as shown in the figure below:

<uml> package "OpenSees Model" #DDDDDD

abstract class Element Domain o- Element Domain o- Node Domain o- SP_Constraint Domain o- MP_Constraint Domain o- LoadPattern </uml>


The following are the modeling commands that have been added to OpenSees interpreter to create these components of the finite element model:

  • model
  • element
  • node
  • SP_Constraint (single-point constraint), which prescribe the movement (typically 0) of a single dof at a node. There are a number of commands for creating single-point coonstraints:
  • MP_Constraint (multi-point constraint), which prescribe that the movement of certain dof at one node are defined by the movement of certain dof at another node. There again are a number of commands for defining multi-point constraints.
  • timeSeries
  • pattern




The following Misc commands are used to generate elements or modify properties of elements or nodes already in the model:



The typical element in OpenSees has the material nonlinearity and sometimes geometric nonlinearities contained in other objects, materials and geometric transformations. Commands have been added to the interpreter to create these objects as well:

<uml> package "Element Classes" #DDDDDD abstract class Element abstract class Material abstract class UniaxialMaterial abstract class NDMaterial abstract class SectionForceDeformation abstract class GeometricTransformation

Element o- Material Element o- GeometricTransformation

Material <|-- UniaxialMaterial Material <|-- SectionForceDeformation Material <|-- NDMaterial </uml>


  1. uniaxial Material
  2. ND Material
  3. Section
  4. friction Model
  5. geometricTransf