Random Vibration Analysis of Non-Linear Hysteretic Plates

Coupling adjacent buildings with supplemental damping devices is a practical and e!ective approach to mitigating structural seismic response. This paper is intended to develop a method for analyzing the random seismic response of a structural system consisting of two adjacent buildings interconnecte

This paper addresses the parameter identification of friction-type hysteretic isolators based on the versatile Bouc-Wen differential model. A frequency domain method is developed to identify the model parameters from the experimental data of periodic vibration tests. All the five parameters in the h

In the work presented here, a method to predict the e!ectiveness of application of damped dynamic vibration absorbers to suppress stationary random vibration of rectangular simply supported plates is given. Numerical examples of two di!erent spatial distributions of the random-in-time forcing functi

Two linear-hysteretic-damping models that provide energy dissipation independent of the deformation frequency, are studied in this paper: a hysteretic Kelvin element and a hysteretic Maxwell element. Both models use the Hilbert transform and yield integro-differential equations for the equations of