TY - JOUR
T1 - Data set from shake table tests of free-standing rocking bodies
AU - Vassiliou, Michalis F
AU - Cengiz, Cihan
AU - Dietz, Matt
AU - Dihoru, Luiza
AU - Broccardo, Marco
AU - Mylonakis, George
AU - Sextos, Anastasios
AU - Stojadinovic, Bozidar
PY - 2021/11/24
Y1 - 2021/11/24
N2 - In earthquake engineering, structural models are validated by performing a time history analysis and comparing its maximum to the maximum response obtained by a shake table test. It has been shown that this is a sufficient (but not a necessary) precondition to accept a numerical model. Numerical models can fail to predict the planar rocking response of a rigid block, but may succeed in predicting the statistics of the response to an ensemble of ground motions. As seismic response is inherently stochastic, comparison of the statistics of the numerically simulated response to the statistics of the experimentally obtained benchmark response for the same ensemble of earthquake excitation is a sufficient (and easier to pass) model validation test. This article describes the publicly available data of a set of 12 free rocking vibration and 115 shake table tests of six three-dimensional rocking and sliding columns, designed at ETH Zurich and performed at EQUALS Laboratory, University of Bristol. The data can be used to statistically validate different approaches that aim to model three-dimensional rocking structures.
AB - In earthquake engineering, structural models are validated by performing a time history analysis and comparing its maximum to the maximum response obtained by a shake table test. It has been shown that this is a sufficient (but not a necessary) precondition to accept a numerical model. Numerical models can fail to predict the planar rocking response of a rigid block, but may succeed in predicting the statistics of the response to an ensemble of ground motions. As seismic response is inherently stochastic, comparison of the statistics of the numerically simulated response to the statistics of the experimentally obtained benchmark response for the same ensemble of earthquake excitation is a sufficient (and easier to pass) model validation test. This article describes the publicly available data of a set of 12 free rocking vibration and 115 shake table tests of six three-dimensional rocking and sliding columns, designed at ETH Zurich and performed at EQUALS Laboratory, University of Bristol. The data can be used to statistically validate different approaches that aim to model three-dimensional rocking structures.
U2 - 10.1177/87552930211020021
DO - 10.1177/87552930211020021
M3 - Article (Academic Journal)
SN - 8755-2930
VL - 37
SP - 2971
EP - 2987
JO - Earthquake Spectra
JF - Earthquake Spectra
IS - 4
ER -