BeamContact3D: Difference between revisions
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## ''masterreaction'' - returns the full reactions (forces and moments) acting on the master nodes. | ## ''masterreaction'' - returns the full reactions (forces and moments) acting on the master nodes. | ||
## The BeamContact3D elements are set to consider frictional behavior as a default, but the frictional state of the BeamContact3D element can be changed from the input file using the [[setParameter]] command. When updating, value of 0 corresponds to the frictionless condition, and a value of 1 signifies the inclusion of friction. An example command for this update procedure is provided below | ## The BeamContact3D elements are set to consider frictional behavior as a default, but the frictional state of the BeamContact3D element can be changed from the input file using the [[setParameter]] command. When updating, value of 0 corresponds to the frictionless condition, and a value of 1 signifies the inclusion of friction. An example command for this update procedure is provided below | ||
# The BeamContact3D element works well in static analysis situations. Extension to transient analysis is underway. | |||
Revision as of 22:44, 17 May 2011
- Command_Manual
- Tcl Commands
- Modeling_Commands
- model
- uniaxialMaterial
- ndMaterial
- frictionModel
- section
- geometricTransf
- element
- node
- sp commands
- mp commands
- timeSeries
- pattern
- mass
- block commands
- region
- rayleigh
- Analysis Commands
- Output Commands
- Misc Commands
- DataBase Commands
This command is used to construct a BeamContact3D element object.
element BeamContact3D $eleTag $iNode $jNode $sNode $lNode $radius $crdTransf $matTag $gTol $fTol <$cFlag$> |
$eleTag | unique integer tag identifying element object |
$iNode $jNode | master nodes (-ndm 3 -ndof 6) |
$sNode | slave node (-ndm 3 -ndof 3) |
$lNode | Lagrange multiplier node (-ndm 3 -ndof 3) |
$radius | constant radius of circular beam associated with beam element |
$crdTransf | unique integer tag associated with previously-defined geometricTransf object |
$matTag | unique integer tag associated with previously-defined nDMaterial object |
$gTol | gap tolerance |
$fTol | force tolerance |
$cFlag | optional initial contact flag |
$cFlag = 0 >> contact between bodies is initially assumed (DEFAULT) | |
$cFlag = 1 >> no contact between bodies is initially assumed |
The BeamContact3D element is a three-dimensional beam-to-node contact element which defines a frictional contact interface between a beam element and a separate body. The master nodes (6 DOF) are the endpoints of the beam element, and the slave node (3 DOF) is a node from a second body. The Lagrange multiplier node (3 DOF) is required to enforce the contact condition. Each contact element should have a unique Lagrange multiplier node. The Lagrange multiplier node should not be fixed, otherwise the contact condition will not work.
NOTE:
- The BeamContact3D element has been written to work exclusively with the ContactMaterial3D nDMaterial object.
- The valid recorder queries for this element are:
- force - returns the contact force acting on the slave node in vector form.
- frictionforce - returns the frictional force acting on the slave node in vector form.
- forcescalar - returns the scalar magnitudes of the single normal and two tangential contact forces.
- masterforce - returns the reactions (forces only) acting on the master nodes.
- mastermoment - returns the reactions (moments only) acting on the master nodes.
- masterreaction - returns the full reactions (forces and moments) acting on the master nodes.
- The BeamContact3D elements are set to consider frictional behavior as a default, but the frictional state of the BeamContact3D element can be changed from the input file using the setParameter command. When updating, value of 0 corresponds to the frictionless condition, and a value of 1 signifies the inclusion of friction. An example command for this update procedure is provided below
- The BeamContact3D element works well in static analysis situations. Extension to transient analysis is underway.
EXAMPLE:
BeamContact3D element with tag 1, connectivity with nodes 1, 2, 3, and 4, geomTransf object with tag 1, and material with tag 1
element BeamContact3D 1 1 2 3 4 0.25 1 1 1.0e-10 1.0e-10 0
Update all of the BeamContact3D elements with tags between 10 and 20 to consider a frictionless interface
setParameter -value 0 -eleRange 10 20 friction
Code Developed by: Kathryn Petek, Pedro Arduino, & Peter Mackenzie-Helnwein, at the University of Washington