Analysis, Designs, and Behavior of Dissipative Joints for Coupled Beams

Abstract

In the construction of modern large flexible space structures, active and passive damping devices are commonly installed at joints of coupled beams to achieve the suppression of vibration. In order to successfully control such dynamic structures, the function and behavior of dissipative joints must be carefully studied.These dissipative joints are analyzed by first classifying them into types according to the discontinuities of physical variables across a joint. The four important physical variables for beams are displacement $( y )$, rotation $( \theta )$, bending moment $( M )$, and shear $( V )$. Dissipative joints can be classified into the following four types: (1) M and V are continuous, y and $\theta $ are discontinuous; (2) y and M are continuous, $\theta $ and V are discontinuous; (3) y and $\theta $ are continuous, M and V are discontinuous; (4) $\theta $ and V are continuous, y and M are discontinuous,according to the conjugacy of these variables. Mechanical designs have been achieved for all t...