This educational application allows the user to explore the effects of different building parameters on the time-varying response of a building under earthquake, wind, or other transient loads.
The building is represented by a shear building model: an idealization of a structure in which the mass is lumped at the floor levels and the beams are assumed infinitely stiff in flexure and axially inextensible, and the columns are axially inextensible. The user inputs the floor weights and story properties (stiffness, yield strength, hardening ratio) of the stories, and a damping ratio for the structure. The user selects from a series of included ground motion acceleration records, or user provided motions.
The user can quickly explore the effect of changing weight, height, and stiffness on the tine history response. In addition nonlinear effects due to P-Delta and soft story mechanisms can be studied.
For this application the equations of motions are set up using the uniform excitation approach, i.e. MA + CV + KU = -MAg. A consequence of this approach is that the floor displacements solved for are relative displacements. These equations are solved using the Newmark constant acceleration method and Newton-Raphson solution algorithm.
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References:
For reference material on all the above please review Dynamics of Structures, by A.K. Chopra.
Video tutorial:
Download MDOF-VideoIntroduction.mp4 at the SimCenter download site.
Links:
How to cite:
Frank McKenna. (2018, January 2). Multiple Degrees of Freedom Application (Version 1.1). Zenodo. http://doi.org/10.5281/zenodo.1410693
Deierlein, G.G., McKenna, F., et al. (2020). A Cloud-Enabled Application Framework for Simulating Regional-Scale Impacts of Natural Hazards on the Built Environment. Frontiers in Built Environment. 6, 196. doi: 10.3389/fbuil.2020.558706.
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