Triple Friction Pendulum Element: Difference between revisions

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{|
| style="background:yellow; color:black" | '''EXAMPLE 1:'''
|}


EXAMPLE 1: Unidirectional static pushover of a TPB element with constant friction coefficients.
Unidirectional static pushover of a TPB element with constant friction coefficients.


Tcl code: [[Media:CheckingTripleFrictionPendulum_StaticCyclicPushover.tcl]]
Tcl code: [[Media:CheckingTripleFrictionPendulum_StaticCyclicPushover.tcl]]
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EXAMPLE 2: Unidirectional dynamic seismic analysis of a single mass supported by a TPB element with constant friction coefficients.
{|
| style="background:yellow; color:black" | '''EXAMPLE 2:'''
|}
 
Unidirectional dynamic seismic analysis of a single mass supported by a TPB element with constant friction coefficients.


Tcl code: [[Media:CheckingTripleFrictionPendulum_1DDynamics_ConstFriction.tcl]]
Tcl code: [[Media:CheckingTripleFrictionPendulum_1DDynamics_ConstFriction.tcl]]
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EXAMPLE 3: Unidirectional dynamic seismic analysis of a single mass supported by a TPB element with variable friction coefficients.
{|
| style="background:yellow; color:black" | '''EXAMPLE 3:'''
|}
 
Unidirectional dynamic seismic analysis of a single mass supported by a TPB element with variable friction coefficients.


Tcl code: [[Media:CheckingTripleFrictionPendulum_1DDynamics_VariableFriction.tcl]]
Tcl code: [[Media:CheckingTripleFrictionPendulum_1DDynamics_VariableFriction.tcl]]
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EXAMPLE 4: 2-dimensional dynamic seismic analysis of a single mass supported by a TPB element with constant friction coefficients.
{|
| style="background:yellow; color:black" | '''EXAMPLE 4:'''
|}
 
2-dimensional dynamic seismic analysis of a single mass supported by a TPB element with constant friction coefficients.


Tcl code: [[Media:CheckingTripleFrictionPendulum_2DDynamic_ConstFriction.tcl]]
Tcl code: [[Media:CheckingTripleFrictionPendulum_2DDynamic_ConstFriction.tcl]]
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EXAMPLE 5: 2-dimensional dynamic seismic analysis of a single mass supported by a TPB element with variable friction coefficients.
{|
| style="background:yellow; color:black" | '''EXAMPLE 5:'''
|}
 
2-dimensional dynamic seismic analysis of a single mass supported by a TPB element with variable friction coefficients.


Tcl code: [[Media:CheckingTripleFrictionPendulum_2DDynamic_VariableFriction.tcl]]
Tcl code: [[Media:CheckingTripleFrictionPendulum_2DDynamic_VariableFriction.tcl]]
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EXAMPLE 6: 3-dimensional dynamic seismic analysis of a single mass supported by a TPB element with constant friction coefficients.
{|
| style="background:yellow; color:black" | '''EXAMPLE 6:'''
|}
 
3-dimensional dynamic seismic analysis of a single mass supported by a TPB element with constant friction coefficients.


Tcl code: [[Media:CheckingTripleFrictionPendulum_3DDynamic_ConstFriction.tcl]]
Tcl code: [[Media:CheckingTripleFrictionPendulum_3DDynamic_ConstFriction.tcl]]
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EXAMPLE 7: 3-dimensional dynamic seismic analysis of a single mass supported by a TPB element with variable friction coefficients.
{|
| style="background:yellow; color:black" | '''EXAMPLE 7:'''
|}
 
3-dimensional dynamic seismic analysis of a single mass supported by a TPB element with variable friction coefficients.


Tcl code: [[Media:CheckingTripleFrictionPendulum_3DDynamic_VariableFriction.tcl]]
Tcl code: [[Media:CheckingTripleFrictionPendulum_3DDynamic_VariableFriction.tcl]]

Revision as of 06:23, 20 July 2012




This command is used to construct a Triple Friction Pendulum Bearing element object.

element TripleFrictionPendulum $eleTag $iNode $jNode



$eleTag unique element object tag
$iNode $jNode end nodes



EXAMPLE:

element TripleFrictionPendulum 1 1 2 ;

REFERENCES:

1) Dao ND, Ryan KL, … Verification of a Three-dimensional Triple Pendulum Bearing Element with General Friction Model Using Full Scale Test Data. Submitted to Earthquake Engineering and Structural Dynamics, 2012.

2) Dao ND. Experimental and Analytical Studies of the Seismic Response of a Full-scale 5- story Steel Moment Frame Building Isolated by Triple Pendulum Bearings. Dissertation, University of Nevada – Reno, 2012



Code Developed by: Nhan D. Dao, University of Nevada - Reno.



EXAMPLE 1:

Unidirectional static pushover of a TPB element with constant friction coefficients.

Tcl code: Media:CheckingTripleFrictionPendulum_StaticCyclicPushover.tcl

Results:


EXAMPLE 2:

Unidirectional dynamic seismic analysis of a single mass supported by a TPB element with constant friction coefficients.

Tcl code: Media:CheckingTripleFrictionPendulum_1DDynamics_ConstFriction.tcl

Results:



EXAMPLE 3:

Unidirectional dynamic seismic analysis of a single mass supported by a TPB element with variable friction coefficients.

Tcl code: Media:CheckingTripleFrictionPendulum_1DDynamics_VariableFriction.tcl

Results:


EXAMPLE 4:

2-dimensional dynamic seismic analysis of a single mass supported by a TPB element with constant friction coefficients.

Tcl code: Media:CheckingTripleFrictionPendulum_2DDynamic_ConstFriction.tcl

Results:



EXAMPLE 5:

2-dimensional dynamic seismic analysis of a single mass supported by a TPB element with variable friction coefficients.

Tcl code: Media:CheckingTripleFrictionPendulum_2DDynamic_VariableFriction.tcl

Results:



EXAMPLE 6:

3-dimensional dynamic seismic analysis of a single mass supported by a TPB element with constant friction coefficients.

Tcl code: Media:CheckingTripleFrictionPendulum_3DDynamic_ConstFriction.tcl

Results:



EXAMPLE 7:

3-dimensional dynamic seismic analysis of a single mass supported by a TPB element with variable friction coefficients.

Tcl code: Media:CheckingTripleFrictionPendulum_3DDynamic_VariableFriction.tcl

Results: