ZeroLengthImpact3D: Difference between revisions
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After running the example script, the following hysteresis loop is resulted in normal direction under cyclic excitation: | After running the example script, the following hysteresis loop is resulted in normal direction under cyclic excitation: |
Revision as of 20:50, 29 May 2013
- Command_Manual
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This command constructs a node-to-node zero-length contact element in 3D space.
element zeroLengthImpact3D $tag $slaveNode $masterNode $direction $initGap $frictionRatio $Kt $Kn $Kn2 $Delta_y $cohesion |
$tag | Unique element object tag |
$slaveNode | Slave node tag |
$masterNode | Master node tag |
$direction |
1 if normal vector of master plane points to +X direction 2 if normal vector of master plane points to +Y direction 3 if normal vector of master plane points to +Z direction |
$initGap | Initial gap between master plane and slave plane |
$frictionRatio | Friction ratio |
$Kt | Penalty in tangential directions (parallel to master and slave planes) |
$Kn | Penalty in normal direction (normal to master and slave planes) |
$Kn2 | Penalty in normal direction after yielding based on Hertz impact model |
$Delta_y | Yield deformation based on Hertz impact model |
$cohesion | Cohesion, if no cohesion, it is zero |
NOTES:
- This element has been developed on top of the “zeroLengthContact3D”. All the notes available in “zeroLengthContact3D” wiki page would apply to this element as well. It includes the definition of master and slave nodes, the number of degrees of freedom in the domain, etc. Please refer to “zeroLengthContact3D” for detailed descriptions.
- This element adds the capabilities of “ImpactMaterial” to “zeroLengthContact3D”, without the need for extra nodes and elements in the modeling process. That is the capability of having an initial gap in the normal direction and also the capability of considering energy dissipation due to pounding/impact in the normal direction.
- This element has been employed to simulate the bridge hinge movements like superstructure-abutment interaction in bridges at University of Connecticut (UConn) and University of Nevada, Reno (UNR). This element was found to be fast-converging and eliminating the need for many extra elements and nodes in the modeling process.
- For simulating master and slave contact surfaces, this element can be defined for pairs of nodes on master and slave surface.
EXAMPLE SCRIPT:
The following zip file contains an example script and the corresponding input cyclic displacement:
SAMPLE COMMAND OF FOUR NODES ON THE SAME CONTACT SURFACE:
set direction 2; # direction of normal of contact surface
set initGap 0.5; # initial gap
set frictionRatio 0.1; # friction ratio
set Kt 1.0e5; # penalty stiffness for tangential directions
set Kn 1.0e3; # penalty stiffness for normal direction
set Kn2 [expr $Kn * 0.1]; # penalty stiffness after yielding, based on Hertz impact model
set Delta_y 0.001; # yield displacement based on Hertz impact model
set cohesion 0.0; # cohesion
element zeroLengthImpact3D 2111 21 11 $direction $initGap $frictionRatio $Kt $Kn $Kn2 $Delta_y $cohesion;
After running the example script, the following hysteresis loop is resulted in normal direction under cyclic excitation:
REFERENCES:
Code Developed by: Dr. A.E. Zaghi, M. Cashany @ University of Connecticut (UConn)