Kinematic transformations for planar multi‐directional pseudodynamic testing |
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| Authors: | Oya Mercan James M Ricles Richard Sause Thomas Marullo |
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| Institution: | 1. Department of Civil and Environmental Engineering, University of Alberta, Edmonton, AB, Canada;2. Assistant Professor.;3. ATLSS Center, Department of Civil and Environmental Engineering, Lehigh University, PA 18015, U.S.A.;4. Bruce G. Johnston Professor.;5. Joseph T. Stuart Professor.;6. Research Scientist. |
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| Abstract: | The pseudodynamic (PSD) test method imposes command displacements to a test structure for a given time step. The measured restoring forces and displaced position achieved in the test structure are then used to integrate the equations of motion to determine the command displacements for the next time step. Multi‐directional displacements of the test structure can introduce error in the measured restoring forces and displaced position. The subsequently determined command displacements will not be correct unless the effects of the multi‐directional displacements are considered. This paper presents two approaches for correcting kinematic errors in planar multi‐directional PSD testing, where the test structure is loaded through a rigid loading block. The first approach, referred to as the incremental kinematic transformation method, employs linear displacement transformations within each time step. The second method, referred to as the total kinematic transformation method, is based on accurate nonlinear displacement transformations. Using three displacement sensors and the trigonometric law of cosines, this second method enables the simultaneous nonlinear equations that express the motion of the loading block to be solved without using iteration. The formulation and example applications for each method are given. Results from numerical simulations and laboratory experiments show that the total transformation method maintains accuracy, while the incremental transformation method may accumulate error if the incremental rotation of the loading block is not small over the time step. A procedure for estimating the incremental error in the incremental kinematic transformation method is presented as a means to predict and possibly control the error. Copyright © 2009 John Wiley & Sons, Ltd. |
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| Keywords: | error detection kinematic correction multi‐directional testing pseudodynamic test method test structure |
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