OpenSees Example 8. generic 3D Frame, NStory NBayX NBayZ, Reinforced-Concrete Section & Steel W-Section: Difference between revisions
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(Created page with '==Introduction== *Just like Example 6 for the 2D frame, this example utilizes Tcl variable-substitution and array-management tools to optimize the building of the numerical model…') |
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[[File: | [[File:ExampleFigure_FiberSection_W.GIF|link=OpenSees Example 8. generic 3D Frame, NStory NBayX NBayZ, Reinforced-Concrete Section & Steel W-Section]] | ||
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<strong>Files</strong> | <strong>Files</strong> | ||
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<strong>Notes</strong> | <strong>Notes</strong> | ||
*3D building frame: Steel W sections for both columns and beams. (variable elastic or fiber section) | *3D building frame: Steel W sections for both columns and beams. (variable elastic or fiber section) | ||
*As of OpenSees version 3.2.2, you need to define torsion for the 3D fiber sections (https://wp.me/pbejzW-9X) | |||
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[[File: | [[File:ExampleFigure_FiberSection_RC.GIF|link=OpenSees Example 8. generic 3D Frame, NStory NBayX NBayZ, Reinforced-Concrete Section & Steel W-Section]] | ||
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<strong>Files</strong> | <strong>Files</strong> | ||
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<strong>Notes</strong> | <strong>Notes</strong> | ||
*3D building frame: Reinforced-concrete rectangular sections for both columns and beams. (variable elastic or fiber section) | *3D building frame: Reinforced-concrete rectangular sections for both columns and beams. (variable elastic or fiber section) | ||
*As of OpenSees version 3.2.2, you need to define torsion for the 3D fiber sections (https://wp.me/pbejzW-9X) | |||
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*[[Media:Ex8.genericFrame3D.analyze.Dynamic.sine. | *[[Media:Ex8.genericFrame3D.analyze.Dynamic.sine.Uniform.tcl|Ex8.genericFrame3D.analyze.Dynamic.sine.Uniform.tcl]] | ||
*[[Media:LibAnalysisDynamicParameters.tcl|LibAnalysisDynamicParameters.tcl]] | *[[Media:LibAnalysisDynamicParameters.tcl|LibAnalysisDynamicParameters.tcl]] | ||
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*[[Media:LibAnalysisDynamicParameters.tcl|LibAnalysisDynamicParameters.tcl]] | *[[Media:LibAnalysisDynamicParameters.tcl|LibAnalysisDynamicParameters.tcl]] | ||
*[[Media:ReadSMDFile.tcl|ReadSMDFile.tcl]] | *[[Media:ReadSMDFile.tcl|ReadSMDFile.tcl]] | ||
*[[Media:H-E12140. | *[[Media:H-E12140.zip|H-E12140.AT2]] | ||
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<strong>Notes</strong> | <strong>Notes</strong> | ||
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*[[Media:Ex8.genericFrame3D.analyze.Dynamic.EQ.multipleSupport.tcl|Ex8.genericFrame3D.analyze.Dynamic.EQ.multipleSupport.tcl]] (this file needs to be corrected for displacement input) | *[[Media:Ex8.genericFrame3D.analyze.Dynamic.EQ.multipleSupport.tcl|Ex8.genericFrame3D.analyze.Dynamic.EQ.multipleSupport.tcl]] (this file needs to be corrected for displacement input) | ||
*[[Media:LibAnalysisDynamicParameters.tcl|LibAnalysisDynamicParameters.tcl]] | *[[Media:LibAnalysisDynamicParameters.tcl|LibAnalysisDynamicParameters.tcl]] | ||
*[[Media: | *[[Media:ReadSMDFile.tcl|ReadSMDFile.tcl]] | ||
*[[Media:H- | *[[Media:H-E12140D.zip|H-E12140.DT2]] (Displacement recording) | ||
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<strong>Notes</strong> | <strong>Notes</strong> | ||
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*[[Media:LibAnalysisDynamicParameters.tcl|LibAnalysisDynamicParameters.tcl]] | *[[Media:LibAnalysisDynamicParameters.tcl|LibAnalysisDynamicParameters.tcl]] | ||
*[[Media:ReadSMDFile.tcl|ReadSMDFile.tcl]] (need to modify ReadSMDFile.tcl for displacement data) | *[[Media:ReadSMDFile.tcl|ReadSMDFile.tcl]] (need to modify ReadSMDFile.tcl for displacement data) | ||
*[[Media:H-E12140. | *[[Media:H-E12140.zip|H-E12140.AT2]] | ||
*[[Media:H-E01140. | *[[Media:H-E01140.zip|H-E01140.AT2]] (acceleration recording in perpendicular direction) | ||
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<strong>Notes</strong> | <strong>Notes</strong> |
Latest revision as of 19:12, 28 August 2020
Introduction
- Just like Example 6 for the 2D frame, this example utilizes Tcl variable-substitution and array-management tools to optimize the building of the numerical model of a generic 3D frame.
- The user is prompted for the number of stories and the number of bays (the can also be fixed in the input file).
- The same items for 3D modelling as the frame shown in Example 7 are considered here.
- For this example, there is one model-building file with many options for the model. In addition to specific dynamic-analysis files, there is also a dynamic-analysis file where the user is given the option of which dynamic analysis to perform.
Input
Model Building
- The following tasks are performed when building the model
- define units
- define model
- define recorders for output
- define & apply gravity
- The only difference between the two input files is in modelling the element section properties and calculating beam and column weight/mass.
Steel W Section
|
RC Section
|
Lateral-Load Analysis
The following tasks are performed in the analysis
- define lateral-load parameters
- analyze
Static
|
Dynamic EQ Ground Motion
|
Run
The model and analysis combinations for this example are numerous. The following are an small subset, for demonstration purposes:
- To run W-Section Model, Static Pushover Analysis:
puts " -------------Elastic Model -------------" puts " -------------Static Pushover Analysis -------------" source Ex8.genericFrame3D.build.Wsec.tcl source Ex8.genericFrame3D.analyze.Static.Push.tcl
- To run RC Model, Uniform Earthquake Excitation
puts " -------------Uniaxial Inelastic Section, Nonlinear Model -------------" puts " -------------Uniform Earthquake Excitation -------------" source Ex8.genericFrame3D.build.RCsec.tcl source Ex8.genericFrame3D.analyze.Dynamic.EQ.Uniform.tcl
Notes
In this example, the following items are variables:
- Number of stories in Y direction
- Number of bays in X direction
- Number of bays in Z direction
- Elastic/Fiber Section
- Display: none/node numbering/deformed shape/mode shape (can choose which mode) (variable display scaling factor for both the deformed shape and the mode shape, this scaling factor is dependent on the user choice)
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