Behaviour control of slender composite structures

## Abstract Numerical and experimental assessment of modern composite structures provided with knowledge‐based joints for their behaviour control is treated in the present paper. Special connection strip, joining composite materials, is adopted. The wave approach of the back propagation neural netw

In many cases slender structures are lightly damped, a condition described as &lively', and can undergo large vibrations when subjected to tra$c or environmental forcing. One measure against above vibrations is the application of tuned vibration control facilities in structures. The "bre members wit

A fracture control technique for composite structures is presented which takes advantage of the unique capability of composite materials to be tailored in stiffness and fracture toughness. Crack arrestment is achieved through the use of integral 'buffer' strips in the primary load-carrying laminate.

An active control of the load-bearing capacity of slender bridges is treated in the present paper. Interactive conditions in ultimate response are considered. A numerical treatment of the occurring/appearing non-linear problems is made using the updated Lagrangian formulation of motion. Each step of

The paper deals with the formulation of semiactive controllers for a class of nonlinear seismically excited base-isolated structures in order to reduce the absolute motion of the base and the inter-story drifts of the building structure. The advantage of the proposed control scheme is that semiactiv