A tuned mass damper (TMD), also known as a pendulum damper, can be modeled in SAP2000 using the combination of a friction isolator link and a viscous damper link arranged in series. For reference, two models are attached, each identical except that one uses a TMD and the other does not.
TestModel_WithoutTMD.SDB is the model without the damping device. This model is a control used to determine the frequency of the structure.
TestModel_WithTMD.SDB is the model with the pendulum damper. In this model, items specified include the following:
- Link properties: Any spring/mass system can be used to represent the swinging pendulum in 2D. Here, the spring constant is Mg/L, where M is mass, L is pendulum length, and g is gravity. It is slightly more challenging to model a pendulum which is free to translate in 3D. Here, a friction-isolator link element will represent the friction-pendulum device, selected through Define > Section Properties > Link/Support Properties. Translational stiffness along U1, U2, and U3 are defined. The effective and nonlinear stiffness along U1 should be based on EA/L of the hangers. Currently 1.0E6 kN/m is used in the attached file. The effective stiffness properties for U2 and U3 are chosen as Mg/L. In this model, a link is drawn at the top story. Link length is chosen as L = 0.1m, and mass is M = 10 kN-Sec2/m.
- Length directly relates to the period of the TMD. When length is changed, it must be account for in numerous places, including:
- The length of the link element drawn.
- The effective and actual stiffness (EA/L) of the U1 link property.
- The effective stiffness (Mg/L) of the U2 and U3 link properties.
- The sliding radius of the U2 and U3 link properties.
- The shear location (dj) of the U2 and U3 link properties. This is because the sliding surface is located at the bottom of the link element.
- Mass M affects how strongly the TMD influences response. Changes to mass must be accounted for in the following sources:
- Mass assigned to the lower link joint
- Weight force (W = Mg) assigned to the lower link joint in the dead load case (DEAD)
- Effective stiffness (Mg/L) of the U2 and U3 link properties
- Length directly relates to the period of the TMD. When length is changed, it must be account for in numerous places, including:
- Setting up the time-history analysis: Through the Define > Functions > Time History menu, a sine curve is defined with a 0.6 second period, which is the same as the 1st Mode of the model without a TMD. Thereafter, a nonlinear-modal time-history load case is added. 5% modal damping is assumed and 200 output steps are selected, each 1/20th the size of the 1st time period, generating time step size.
Analysis may be run and various response measures may be reviewed through Display > Show Plot Functions. Response is reduced for the tuned-mass-damper model.
Attachments
- [SAP2000 V14.2.0 models|^SAP2000 V14.2.0 models.zip] - zipped .SDB and $2k files